Your search keyword '"Gao Bin"' showing total 239 results

1. Distribution Characteristics and Dynamics of Marine Hydrogen in the Eastern Indian Ocean.

Author

Jiang, Yu‐Cheng, Xu, Gao‐Bin, Xu, Feng, Wang, Jian, Zhou, Li‐Min, Zhang, Hong‐Hai, and Chen, Zhao‐Hui

Abstract

The ocean serves as a significant contributor of atmospheric Hydrogen (H2) with indirect greenhouse effects. However, uncertainties persist regarding internal production and consumption processes of marine H2, as well as controlling factors. Our study examined the spatial distribution and source‐sink dynamics of marine H2 in the Eastern Indian Ocean. H2 concentrations in surface seawater exhibited a range of 2.95–21.96 nmol L−1. High concentrations of H2 were observed in the anoxic water in the Bay of Bengal. Rates of H2 photo‐production and microbial consumption in surface seawater ranged from 1.80 to 17.78 nmol L−1 h−1 and 1.02–9.18 nmol L−1 h−1, respectively. When considering the entire mixed layer, photo‐production contribute to approximately 31%–43% of the total H2 removal, with cyanobacteria potentially serving as another source in the mixed layer. Compared with the sea‐to‐air exchange, microbial consumption was the primary removal pathway of H2 in seawater. Plain Language Summary: Atmospheric hydrogen (H2) can influence the environment and climate by consuming hydroxyl radicals (OH·) and indirectly raising greenhouse gas concentrations. Although the ocean serves as a significant source of atmospheric H2, the biogeochemical processes governing its presence in seawater remain poorly understood. The Eastern Indian Ocean, characterized by a substantial inflow of freshwater, exerts a distinct impact on the local ecosystem. We conducted a field investigation in the Eastern Indian Ocean to clarify the sources, sinks, and controlling factors of H2, including the Bay of Bengal with relatively higher primary productivity and the Eastern Equatorial Indian Ocean with low primary productivity, respectively. Our study involved the quantitative assessment of H2 photo‐production, microbial consumption, and sea‐to‐air exchange in seawater, along with the calculation of the H2 budget in the mixed layer. This investigation enhances our understanding of H2 cycling processes in seawater and contributes to the assessment of H2 emissions from the ocean and their impact on the atmospheric budget. Key Points: The distribution of H2 was significantly affected by river input in the Eastern Indian OceanPhoto‐production was an important source of H2 in the mixed layerMicrobial consumption was the primary sink for H2 in the mixed layer [ABSTRACT FROM AUTHOR]

Published

2024

2. Therapeutic Effect of Targeted Deployment Filling Coils in the Treatment of Intracranial Aneurysms.

Author

Ren, Xiaoyu, Gao, Bin, Lu, Wangsheng, Yang, Guangming, Wang, Yunjie, and Yin, Yin

Subjects

*COMPUTATIONAL fluid dynamics, *INTRACRANIAL aneurysms, *INTERNAL carotid artery, *FINITE element method, *THERAPEUTIC embolization

Abstract

ABSTRACT Endovascular coil embolization is the primary therapeutic modality for intracranial aneurysms. Substantial reports have been found regarding the coil packing density and inflow jet. However, the hemodynamic effect of increasing the rate of tamponade in the inflow jet area within the aneurysm remains unclear. In this study, individualized geometries of six intracranial aneurysms were recruited: all six aneurysms were located in the internal carotid artery. Two groups were created by changing the position and orientation of the microcatheter for the release of the third segment of the filling coil. The finite element method was used to simulate coil deployment. Computational fluid dynamics was used to characterize hemodynamics in post‐deployment aneurysms. The parameters evaluated included velocity reduction, wall shear stress (WSS), low WSS (LWSS), relative residence time (RRT), flow kinetic energy in the neck region of the aneurysms, and residual flow volume (RFV) in the aneurysms. At the peak time (t = 0.17 s), the targeted deployment group has similar proportion of LWSS area to conventional deployment groups: targeted 78.13% ± 34.59% versus normal 74.20% ± 36.94% (mean ± SD, p = 0.583). The targeted deployment group has a higher RRT area (targeted 16.84% ± 5.58% vs. normal 6.42% ± 5.67% [mean ± SD, p = 0.009]), smaller flow kinetic energy (targeted 9.43 ± 4.33 vs. normal 16.23 ± 5.92 [mean ± SD, p = 0.047]), and a larger RFV in the aneurysms (targeted 35.97 ± 24.35 mm3 vs. normal 25.80 ± 18.94 mm3 [mean ± SD, p = 0.44]). Inflow jets play an important role in the treatment of aneurysms, and deploying filling coils in accordance with inflow jets may result in a better hemodynamic environment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Proton‐Coupled Electron Transfer in Photoelectrochemical Alcohol Oxidation Enhanced by Nickel‐Based Cocatalysts.

Author

Gao, Bin, Mu, Xiaowei, Feng, Jianyong, Huang, Huiting, Liu, Jianming, Liu, Wangxi, Zou, Zhigang, and Li, Zhaosheng

Subjects

*ALCOHOL oxidation, *OXIDATION of water, *BIOMASS conversion, *CHARGE exchange, *INTERSTITIAL hydrogen generation

Abstract

Using biomass oxidation reactions instead of water oxidation reactions is optimal for accomplishing biomass conversion and effective hydrogen generation. Here, we report that α‐Fe2O3 photoanodes with a NiOOH cocatalyst exhibit excellent performance for photoelectrochemical oxidation of 5‐hydroxymethylfurfural (HMF) to 2,5‐furandicarboxylic acid (FDCA). The conversion efficiency for HMF reaches 98.5 %, while the selectivity for FDCA is 94.2 %. We revealed that HMF is oxidized through a spontaneous proton‐coupled electron transfer (PCET) process with the high‐valent phase of the Ni‐based catalyst. The dangling oxygen and bridging oxygen of the high‐valent phase species serve as proton‐accepting sites. Furthermore, we pointed out that the deprotonated bond dissociation free energy difference between the catalysts and alcohols is the thermodynamic trigger for the PCET process. This study provides a reasonable explanation for the alcohol oxidation reaction, which is beneficial for designing biomass conversion systems. [ABSTRACT FROM AUTHOR]

Published

2024

4. Tinned: A symbolic library for response theory and high‐order derivatives.

Author

Gao, Bin

Subjects

*SYMBOLIC computation, *STRUCTURAL analysis (Engineering), *ELECTRONIC structure, *POTENTIAL energy, *C++

Abstract

A symbolic C++ library—Tinned—has been developed for symbolic differentiation and manipulation in response theory. By recognizing different key building blocks in the density matrix‐based (Thorvaldsen et al., J. Chem. Phys. 2008, 129, 214108) and coupled‐cluster response theories, we have implemented their corresponding C++ symbolic classes, including but not limited to one‐ and two‐electron operators, exchange‐correlation energy and potential, and coupled‐cluster operator. Formulas of response theory can be well expressed in terms of the symbolic classes in the library Tinned. Their high‐order perturbation‐strength derivatives can be straightforwardly computed and extracted afterwards for numerical evaluation. The library Tinned will greatly facilitate the development work of response theory and may lead to a unified framework for response theory at different levels of electronic structure theory. [ABSTRACT FROM AUTHOR]

Published

2024

5. Linking effort‐reward imbalance to academic burnout among high school students: The roles of school connectedness and academic buoyancy.

Author

Gao, Bin, Chai, Xiaoyun, Shen, Quanwei, Lu, Jiamei, and Li, Li

Subjects

*COLLEGE entrance examinations, *HIGH school students, *EVIDENCE gaps, *BUOYANCY, *PSYCHOLOGICAL burnout

Abstract

In the context of examination‐oriented education and the pressure of college entrance examinations (known as the “Gaokao”), Chinese high school students often experience academic burnout. Previous research has shown that effort–reward imbalance (ERI) is an important predictor of academic burnout among high school students, but the underlying psychological mechanisms are not yet clear. To address this research gap, we surveyed 415 Chinese high school students (226 males and 189 females, mean age = 15.82 years, SD = 0.87), and a self‐report questionnaire including the ERI scale, school connectedness scale, academic buoyancy scale, and academic burnout scale was completed by all participants. The data were analyzed by SPSS 24.0 and the PROCESS macro and developed a moderated mediation model incorporating school connectedness and academic buoyancy. The results showed that (1) ERI was significantly and positively associated with academic burnout among high school students; (2) school connectedness partially mediated the relationship between ERI and academic burnout; (3) academic buoyancy moderated the link between ERI and school connectedness, as well as between ERI and academic burnout. These findings are not only valuable for understanding the underlying mechanisms linking ERI and academic burnout but also contribute to the development of intervention programs (e.g., interventions based on academic buoyancy) aiming at reducing high school students' academic burnout. [ABSTRACT FROM AUTHOR]

Published

2024

6. Microbial Metabolism and Environmental Controls of Acetate Cycling in the Northwest Pacific Ocean.

Author

Mao, Shi‐Hai, Zhou, Zhen, Yan, Shi‐Bo, Xu, Gao‐Bin, Li, Xiao‐Jun, Zhang, Hong‐Hai, Yang, Gui‐Peng, and Zhuang, Guang‐Chao

Subjects

MICROBIAL respiration, MICROBIAL metabolism, ATMOSPHERIC deposition, METABOLIC regulation, CARBON cycle, ACETATES

Abstract

Microbial acetate metabolism is an important part of marine carbon cycling. We present a comprehensive study to constrain microbial acetate metabolism and its regulation in surface seawater of the northwest Pacific Ocean. We found that acetate oxidation (rate constant k: 0.016–0.506 day−1) accounted for 77.6%–99.4% of the total microbial acetate uptake, suggesting that acetate was predominantly used as a microbial energy source. Acetate also served as a significant biomass carbon source, as reflected by the elevated contribution of acetate assimilation to bacterial carbon production. Acetate turnover was largely influenced by water mass mixing and nutrient conditions. Atmospheric deposition was a source of acetate in surface water and this process can also impact the microbial acetate uptake. Microbial utilization of acetate could account for up to 25.9% of the bacterial carbon demand, suggesting the significant role of acetate metabolism in microbial carbon cycling in the open ocean. Plain Language Summary: Acetate is a key metabolic intermediate during the mineralization of organic matter and microbial acetate metabolism plays a crucial role in marine carbon cycling. However, the microbial metabolism of acetate and its environmental controls in pelagic waters remain poorly understood. We investigated biogeochemical cycling of acetate in the Kuroshio‐Oyashio extension region of northwest Pacific Ocean. Acetate concentrations in surface waters were generally low and atmospheric deposition was a source of acetate in the upper ocean. Acetate was used preferentially as a microbial energy source and the proportion of acetate devoted to bacterial growth or respiration largely depended on local nutrient conditions. Rapid biological turnover of acetate contributed significantly to bacterial carbon demand, exceeding the contributions of other compounds such as methanol. These results constrain the atmospheric sources and microbial sinks of marine acetate and reveal the ecological significance of microbial acetate metabolism in the open ocean. Key Points: Microbial uptake rates of acetate ranged from 1.7 to 495 nmol L−1 day−1 in surface waters of the northwest Pacific OceanAcetate is used preferentially as a microbial energy source rather than as a biomass carbon sourceMicrobial acetate metabolism is influenced by water mass mixing and atmospheric deposition [ABSTRACT FROM AUTHOR]

Published

2024

7. Histidine-rich glycoprotein modulates neutrophils and thrombolysis-associated hemorrhagic transformation.

Author

Jiang, Wei, Zhao, Yuexin, Liu, Rongrong, Zhang, Bohao, Xie, Yuhan, Gao, Bin, Shi, Kaibin, Zou, Ming, Jia, Dongmei, Ding, Jiayue, Hu, Xiaowei, Duan, Yanli, Han, Ranran, Huang, DeRen, Van Kaer, Luc, and Shi, Fu-Dong

Abstract

Intravenous thrombolysis using recombinant tissue plasminogen activator (tPA) remains the primary treatment for patients with acute ischemic stroke (AIS). However, the mechanism of tPA-related hemorrhagic transformation (HT) remains poorly understood. Elevation of histidine-rich glycoprotein (HRG) expression was detected by nano-liquid chromatography tandem mass spectrometry at 1 h following tPA infusion as compared to baseline prior to tPA infusion (discovery cohort, n = 10), which was subsequently confirmed in a validation cohort (n = 157) by ELISA. Surprisingly, no elevation of HRG was detected in individuals who subsequently developed HT. During in vitro experiments, HRG reduced neutrophil NETosis, inflammatory cytokine production, and migration across the blood–brain barrier induced by tPA. In a photothrombotic murine AIS model, HRG administration ameliorated HT with delayed thrombolysis, by inhibiting neutrophil immune infiltration and downregulating pro-inflammatory signaling pathways. Neutrophil depletion or NETosis inhibition also alleviated HT, whereas HRG siRNA treatment exacerbated HT. In conclusion, fluctuations in HRG levels may reflect tPA therapy and its associated HT. The inhibitory effect of HRG on neutrophils may counteract tPA-induced immune abnormalities and HT in patients with AIS. Synopsis: Histidine-rich glycoprotein (HRG) was found to be increased in plasma following thrombolysis by tissue plasminogen activator (tPA) infusion, which counteracted the hemorrhagic-prone state through inhibiting neutrophil NETosis and migration, ultimately reducing the risk of hemorrhage. Plasma levels of HRG increase following tPA treatment in patients with acute ischemic stroke. Elevated HRG levels in patients with AIS correlated with reduced hemorrhagic transformation after thrombolysis. HRG administration inhibited neutrophil NETosis and migration through the blood–brain barrier in vitro and in an animal model of middle cerebral artery occlusion, ultimately reducing hematoma and neurological deficits. Histidine-rich glycoprotein (HRG) was found to be increased in plasma following thrombolysis by tissue plasminogen activator (tPA) infusion, which counteracted the hemorrhagic-prone state through inhibiting neutrophil NETosis and migration, ultimately reducing the risk of hemorrhage. [ABSTRACT FROM AUTHOR]

Published

2024

8. Factors Controlling DMS Emission and Atmospheric Sulfate Aerosols in the Western Pacific Continental Sea.

Author

Yan, Shi‐Bo, Xu, Gao‐Bin, Zhang, Hong‐Hai, Wang, Jian, Xu, Feng, Gao, Xu‐Xu, Zhang, Jia‐Wei, Wu, Jin‐Wei, and Yang, Gui‐Peng

Subjects

SULFATE aerosols, ATMOSPHERIC aerosols, DIMETHYL sulfide, SULFUR cycle, AIR masses, EMISSION control, OCEAN currents

Abstract

The western Pacific continental sea significantly influences the regulation of climate‐active gases budget and the burden of sulfate aerosols. An underway shipboard measurement device was used to determine the dimethyl sulfide (DMS) in the surface seawater and overlying atmosphere in the East China Continental Sea. The average concentration of DMS in atmosphere and seawater was 122.8 ± 86.2pptv and 6.47 ± 3.58 nmol L−1, respectively. The variation trend of surface water DMS in the western Pacific continental sea was influenced by the abundance and composition of phytoplankton under different ocean current systems, with a significant impact from eddies on DMS production in the South China Sea. By eliminating the influence of terrestrial sources and limiting air mass transport within the marine boundary layer, strong correlations were established between atmospheric DMS and air mass exposure to chlorophyll (Echl), as well as between aerosol methanesulfonic acid (MSA) and Echl. During the aerosol sampling period, the atmospheric DMS levels (1,057 ± 371 ng/m3) were significantly higher than MSA levels (46.3 ± 59.8 ng/m3) in the East China Sea, where the conversion of DMS to MSA was not affected by changes in DMS concentration. The sea‐to‐air fluxes of DMS varied over a wide range, from 0.02 to 156.0 μmol m−2 d−1, with an average of 14.35 ± 18.58 μmol m−2 d−1. Marine DMS emissions play a critical role in the formation of sulfur aerosols on the western Pacific continental shelf, accounting for 24.6 ± 7.6% (14.8%–37.8%) of the total sulfate aerosols. Plain Language Summary: The western Pacific continental sea plays a crucial role in controlling climate‐active gas budgets and sulfate aerosol loads. We investigated the distribution, sources, and control factors of dimethyl sulfide in surface seawater and the overlying atmosphere using underway observations in the western Pacific continental sea. By removing the influence of land sources and limiting air mass transport within the marine boundary layer, we discovered strong correlations between atmospheric dimethyl sulfide and air mass exposure to chlorophyll, as well as between aerosol methanesulfonic acid and air mass exposure to chlorophyll. Marine dimethyl sulfide emissions are vital for sulfur aerosol formation on the western Pacific continental shelf. This study provides valuable insights into understanding dimethyl sulfide dynamics in the western Pacific continental sea while highlighting its role in sulfur cycling and aerosol formation. Key Points: Phytoplankton and eddies influenced dimethyl sulfide (DMS) distribution in the western Pacific continental seaThe atmospheric DMS and Echl exhibit a strong positive correlation, as well as MSA and EchlMarine DMS emissions accounted for 25% of total sulfate aerosols in the East China Sea [ABSTRACT FROM AUTHOR]

Published

2024

9. Monolithic 3D Integration of Analog RRAM‐Based Computing‐in‐Memory and Sensor for Energy‐Efficient Near‐Sensor Computing.

Author

Du, Yiwei, Tang, Jianshi, Li, Yijun, Xi, Yue, Li, Yuankun, Li, Jiaming, Huang, Heyi, Qin, Qi, Zhang, Qingtian, Gao, Bin, Deng, Ning, Qian, He, and Wu, Huaqiang

Published

2024

10. Simulation of reservoir dynamic damage and influencing factors of horizontal wells in heterogeneous carbonate reservoirs.

Author

Xu, Shijing, Wang, Guoqing, Gao, Bin, and Tian, Jiaxin

Subjects

HORIZONTAL wells, CARBONATE reservoirs, GAS wells, PETROLEUM reservoirs, DYNAMIC simulation, OIL wells, COALBED methane

Abstract

As the development of well types for low permeability reservoirs shifts from vertical to highly inclined/horizontal wells, targeted studies of oil and gas reservoir damage must be conducted for such well types to improve the science and effectiveness of acidification conversion. Taking into account the formation of mud cake and the dynamic damage factors caused by drilling fluid on the reservoir during horizontal well drilling, a refined dynamic description model for nonuniform damage in horizontal wells was established. The coupled simulation accounts for the dynamical destruction of the skin factor of the reservoir and the dynamical generation of the slurry. The coupled model consists of a radial mud cake dynamic formation model, a reservoir damage radius model, a permeability distribution model, and a horizontal well inhomogeneous skin factor model. It captures the dynamic evolution of reservoir damage due to drilling fluid contamination during horizontal well drilling and provides a real‐time representation of changes in the reservoir skin factor of horizontal wells, measuring the depth and extent of radial reservoir damage. Clarifying the extent of reservoir damage and its impact in horizontal well sections can help select appropriate acidification methods, improve acid distribution processes, and ultimately improve the effectiveness of mitigating reservoir damage and increasing oil and gas well productivity. [ABSTRACT FROM AUTHOR]

Published

2024

11. Hemodynamic study on the therapeutic effects of varying diameter embolic coils in the treatment of intracranial aneurysms.

Author

Ren, Xiaoyu, Li, Haoran, Xu, Kaihang, Li, Zhongkai, Gao, Bin, Lu, Wangsheng, Yang, Guangming, Wang, Yunjie, Yin, Yin, and Chen, Tao

Subjects

INTRACRANIAL aneurysms, COMPUTATIONAL fluid dynamics, TREATMENT effectiveness, THERAPEUTIC embolization, FINITE element method, SUPERCONDUCTING coils

Abstract

Endovascular coiling is the predominant method for treating cerebral aneurysms. Extensive reports on selecting coil length, hardness, and material are available. However, the impact of coil diameter on postoperative outcomes remains unclear. This study enrolled six personalized geometric models of intracranial aneurysms: three bifurcation aneurysms and three sidewall aneurysms. Four coil models were constructed by changing the coil diameter. Coil embolization was simulated using the finite element method. Computational fluid dynamics was used to characterize hemodynamics in the aneurysms after embolization. Evaluation parameters included velocity reduction, wall shear stress (WSS), low WSS (LWSS), oscillatory shear index (OSI), relative residence time (RRT), and residual flow volume in the aneurysms. At the peak time (t = 0.17 s), the proportion of LWSS area in bifurcation aneurysms increase with the rise in coil diameter: 0.8D, 71.28 ± 12.62% versus 1D, 74.97 ± 19.17% versus 1.2D, 78.88 ± 18.56% versus 1.4D, 84.00 ± 11.53% (mean ± SD). The proportion of high OSI area decreases as the coil diameter increases: 0.8D, 4.41% ± 2.82% versus 1.0D, 3.78 ± 3.33% versus 1.2D, 2.28% ± 1.77% versus 1.4D, 1.58% ± 1.11% (mean ± SD). The proportion of high RRT area increases as the coil diameter rises: 0.8D, 3.40% ± 1.68% versus 1.0D, 7.67 ± 4.12% versus 1.2D, 9.84% ± 9.50% versus 1.4D, 22.29% ± 14.28% (mean ± SD). Side wall aneurysms do not exhibit the aforementioned trend. Bifurcation aneurysms plugged with a coil of 1.4 times the diameter have the largest RFVs (<10 mm/s) within the group. Aforementioned patterns are not found in sidewall aneurysms. In the treatment of aneurysms with coiling, varying coil diameters can result in different hemodynamic environments within the aneurysm. Larger coil diameters have improved hemodynamic performance for bifurcation aneurysms. However, coil diameter and embolization effectiveness have no significant relationship for sidewall aneurysms. [ABSTRACT FROM AUTHOR]

Published

2024

12. Trajectory of multimorbidity before dementia: A 24‐year follow‐up study.

Author

Guo, Jing, Gao, Bin, Huang, Yun, and Song, Suhang

Subjects

DEMENTIA, COMORBIDITY, AGE of onset

Abstract

INTRODUCTION: Although the multimorbidity–dementia association has been widely addressed, little is known on the long‐term trajectory of multimorbidity (TOM) in preclinical dementia. METHODS: Based on the Health and Retirement Study, burden of multimorbidity was quantified with the total number of eight long‐term conditions (LTC). Patterns of TOM before dementia diagnosis were investigated with mixed‐effects models. RESULTS: In 1752 dementia cases and 5256 matched controls, cases showed higher and faster increasing predicted number of LTC than controls, with a significant case–control difference from 20 years prior to dementia diagnosis. Larger increases in number of LTC during preclinical phase of dementia were found in White participants, females, those whose age at dementia onset was younger, and those who were less educated. DISCUSSION: Our findings emphasize the faster accumulation of multimorbidity in prodromal dementia than in natural aging, as well as effect modifications by age and sex. Highlights: TOM increased faster in prodromal dementia than in natural ageing.Patterns of TOM by dementia status diverged at 20 years before dementia diagnosis.Patterns of TOM were modified by age and sex. [ABSTRACT FROM AUTHOR]

Published

2024

13. Programmable and Reversible Integrin‐Mediated Cell Adhesion Reveals Hysteresis in Actin Kinetics that Alters Subsequent Mechanotransduction.

Author

Zhang, Zheng, Zhu, Hongyuan, Zhao, Guoqing, Miao, Yunyi, Zhao, Lingzhu, Feng, Jinteng, Zhang, Huan, Miao, Run, Sun, Lin, Gao, Bin, Zhang, Wencheng, Wang, Zheng, Zhang, Jianfang, Zhang, Ying, Guo, Hui, Xu, Feng, Lu, Tian Jian, Genin, Guy M., and Lin, Min

Subjects

CELL adhesion, ACTIN, HUMAN stem cells, MESENCHYMAL stem cells, HYSTERESIS, EXTRACELLULAR matrix, CYTOSKELETAL proteins

Abstract

Dynamically evolving adhesions between cells and extracellular matrix (ECM) transmit time‐varying signals that control cytoskeletal dynamics and cell fate. Dynamic cell adhesion and ECM stiffness regulate cellular mechanosensing cooperatively, but it has not previously been possible to characterize their individual effects because of challenges with controlling these factors independently. Therefore, a DNA‐driven molecular system is developed wherein the integrin‐binding ligand RGD can be reversibly presented and removed to achieve cyclic cell attachment/detachment on substrates of defined stiffness. Using this culture system, it is discovered that cyclic adhesion accelerates F‐actin kinetics and nuclear mechanosensing in human mesenchymal stem cells (hMSCs), with the result that hysteresis can completely change how hMSCs transduce ECM stiffness. Results are dramatically different from well‐known results for mechanotransduction on static substrates, but are consistent with a mathematical model of F‐actin fragments retaining structure following loss of integrin ligation and participating in subsequent repolymerization. These findings suggest that cyclic integrin‐mediated adhesion alters the mechanosensing of ECM stiffness by hMSCs through transient, hysteretic memory that is stored in F‐actin. [ABSTRACT FROM AUTHOR]

Published

2023

14. Engineering Interfacial Built‐in Electric Field in Polymetallic Phosphide Heterostructures for Superior Supercapacitors and Electrocatalytic Hydrogen Evolution.

Author

Hu, Ruiyuan, Jiao, Lei, Liang, Hongjian, Feng, Zhifang, Gao, Bin, Wang, Xiao‐Feng, Song, Xue‐Zhi, Liu, Li‐Zhao, and Tan, Zhenquan

Published

2023

15. A Memristors‐Based Dendritic Neuron for High‐Efficiency Spatial‐Temporal Information Processing.

Author

Li, Xinyi, Zhong, Yanan, Chen, Hang, Tang, Jianshi, Zheng, Xiaojian, Sun, Wen, Li, Yang, Wu, Dong, Gao, Bin, Hu, Xiaolin, Qian, He, and Wu, Huaqiang

Published

2023

16. Nomogram to predict unfavorable outcome of endovascular thrombectomy for large ischemic core.

Author

Han, Nannan, Zhang, Xiaobo, Zhang, Yu, Liu, Yu, Zhang, Yongqin, Ma, Haojun, Ge, Hanming, Li, Shilin, Zhang, Xiao, Yan, Xudong, Li, Tengfei, Gao, Bin, Du, Chengxue, Ji, Xinchao, Shi, Wenzhen, Tian, Ye, and Chang, Mingze

Subjects

ENDOVASCULAR surgery, NOMOGRAPHY (Mathematics), RECEIVER operating characteristic curves

Abstract

Objective: The prognosis for patients presenting with a large ischemic core (LIC) following endovascular thrombectomy is relatively poor. This study aimed to construct and validate a nomogram for predicting 3‐month unfavorable outcome in patients with anterior circulation occlusion‐related LIC who underwent endovascular thrombectomy. Methods: A retrospective training cohort and a prospective validation cohort of patients with a large ischemic core were studied. The diffusion weighted imaging related radiomic features and pre‐thrombectomy clinical features were collected. After the selection of relevant features, a nomogram predicting modified Rankin Scale score of 3–6 as an unfavorable outcome was established. The discriminatory value of the nomogram was evaluated with a receiver operating characteristic curve. Results: A total of 140 patients (mean age 66.3 ± 13.4 years, 35% female) were included in this study, consisting of a training cohort (n = 95) and a validation cohort (n = 45). The percentage of patients with an mRS scores of 0–2 was 30%, 0–3 was 40.7%, and 32.9% were dead. Age, National Institute of Health Stroke Scale (NIHSS) score, and two radiomic features, Maximum2DDiameterColumn and Maximum2DDiameterSlice, were identified as factors associated with unfavorable outcome in the nomogram. The nomogram demonstrated an area under the curve of 0.892 (95% confidence interval [CI], 0.812–0.947) in the training dataset and 0.872 (95% CI, 0.739–0.953) in the validation dataset. Interpretation: This nomogram, which includes age, NIHSS score, Maximum2DDiameterColumn, and Maximum2DDiameterSlice, may predict the risk of unfavorable outcome in patients with LIC caused by anterior circulation occlusion. [ABSTRACT FROM AUTHOR]

Published

2023

17. Covalent grafting of zwitterion polymer and REDV peptide onto NiTi alloy surface for anticoagulation and proendothelialization.

Author

Wang, Meiyu, Wan, Ye, Liu, Wen, Gao, Bin, Wang, Xiaoyu, Li, Wenzhong, Xia, Shihai, Zhang, Wencheng, Wang, Kai, and Feng, Yakai

Subjects

ZWITTERIONS, PEPTIDES, NICKEL-titanium alloys, ANTICOAGULANTS, UMBILICAL veins, ENDOTHELIAL cells, ETHYLCELLULOSE

Abstract

Although stent implantation is an effective treatment for cardiovascular diseases, restenosis and thrombosis still remain great challenges clinically. To address these problems, modifying the stent surface with the bifunctions of anticoagulation and proendothelialization is considered as a promising strategy. Herein, zwitterion polymer poly (α‐methacrylic acid‐co‐2‐methylacryloxyethyl phosphorylcholine) (PMAMPC) and endothelial cells (ECs)‐selective adhesion peptide REDV were co‐modified onto the surface of NiTi stent by chemical graft to obtain NiTi‐PMAMPC/REDV stent. The introduction of PMAMPC and REDV peptide equip NiTi‐PMAMPC/REDV stent with satisfactory anticoagulation performance and enhanced endothelialization, respectively. The in vitro studies showed that NiTi‐PMAMPC/REDV surface had excellent blood compatibility, and could effectively promote the adhesion, proliferation and migration of human umbilical vein endothelial cells (HUVECs). Additionally, NiTi‐PMAMPC/REDV surface were capable of decreasing the adhesion of smooth muscle cells (SMCs). In vivo studies demonstrated that the NiTi‐PMAMPC/REDV stent could maintain good blood patency and form a relatively complete endothelial layer on the surface after 30 days in the rat aorta model. This bifunctional surface might hold great potential in relieving thrombosis and restenosis in the field of stent implantation. [ABSTRACT FROM AUTHOR]

Published

2023

18. Application Value of Serum Neurofilament Light Protein for Disease Staging in Huntington's Disease.

Author

Li, Xiao‐Yan, Bao, Yu‐Feng, Xie, Juan‐Juan, Gao, Bin, Qian, Shu‐Xia, Dong, Yi, and Wu, Zhi‐Ying

Abstract

Background: Neurofilament light protein (NfL) has been proven to be a sensitive biomarker for Huntington's disease (HD). However, these studies did not include HD patients at advanced stages or with larger CAG repeats (>50), leading to a knowledge gap of the characteristics of NfL. Methods: Serum NfL (sNfL) levels were quantified using an ultrasensitive immunoassay. Participants were assessed by clinical scales and 7.0 T magnetic resonance imaging. Longitudinal samples and clinical data were obtained. Results: Baseline samples were available from 110 controls, 90 premanifest HD (pre‐HD) and 137 HD individuals. We found levels of sNfL significantly increased in HD compared to pre‐HD and controls (both P < 0.0001). The increase rates of sNfL were differed by CAG repeat lengths. However, there was no difference in sNfL levels in manifest HD from early to late stages. In addition, sNfL levels were associated with cognitive measures in pre‐HD and manifest HD group, respectively. The increased levels of sNfL were also closely related to microstructural changes in white matter. In the longitudinal analysis, baseline sNfL did not correlate with subsequent clinical function decline. Random forest analysis revealed that sNfL had good power for predicting disease onset. Conclusions: Although sNfL levels are independent of disease stages in manifest HD, it is still an optimal indicator for predicting disease onset and has potential use as a surrogate biomarker of treatment effect in clinical trials. © 2023 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2023

19. Hemodynamic investigation of a novel rotary displacement blood pump for extracorporeal membrane oxygenation.

Author

Xue, Qingxin, Ren, Xiaoyu, Gao, Bin, Li, Shu, Song, Zhiming, Ding, Jinli, and Chang, Yu

Subjects

OXYGENATORS, EXTRACORPOREAL membrane oxygenation, COMPUTATIONAL fluid dynamics, SHEARING force, HEMODYNAMICS, STRESS concentration, PULSATILE flow

Abstract

Extracorporeal membrane oxygenation (ECMO) is a life support system used in the treatment of severe respiratory and circulatory failure. High shear stress caused by the high rotational speed of centrifugal blood pumps can cause hemolysis and platelet activation, which are among the major factors leading to the complications of the ECMO system. In this study, a novel blood pump named rotary displacement blood pump (RDBP), which can considerably reduce rotational speed and shear stress while ensuring the normal pressure flow relationship, was proposed. We employed computational fluid dynamics (CFD) analysis to investigate the performance of RDBP under adult ECMO support operating conditions (5 L/min with 350 mmHg). The efficiency and H‐Q curves of the RDBP were calculated to evaluate its hydraulic performance, and pressure, flow patterns, and shear stress distribution were analyzed to estimate the hemodynamic characteristics in the pump. In addition, the modified index of hemolysis (MIH) was calculated for the RDBP based on a Eulerian approach. The hydraulic efficiency of the RDBP was 47.28%. The velocity distribution of flow field in the pump was relatively uniform. Most of the liquid (more than 75%) in the pump was exposed to low scale shear stress (<1 Pa), which was close to normal physiological conditions. The gap area was the main distribution location of high scale shear stress. The high wall shear stress (>9 Pa) volume fraction of the RDBP was small and located in the boundary areas between the rotor's edge and the housing. The MIH value of the RDBP was 9.87 ± 0.93 (mean ± SD). The RDBP can achieve better hydraulic efficiency and hemodynamic performance at lower rotational speed. The design of this novel pump is expected to provide a new direction for developing a blood pump for ECMO. [ABSTRACT FROM AUTHOR]

Published

2023

20. HMGB1, angel or devil, in ischemic stroke.

Author

Gao, Bin, Wang, Shuwen, Li, Jiangfeng, Han, Nannan, Ge, Hanming, Zhang, Gejuan, and Chang, Mingze

Subjects

*ISCHEMIC stroke, *CEREBRAL infarction, *NERVE tissue, *TISSUE remodeling, *CELL death

Abstract

Introduction: High‐mobility group box 1 protein (HMGB1) is extensively involved in causing ischemic stroke, pathological damage of ischemic brain injury, and neural tissue repair after ischemic brain injury. However, the precise role of HMGB1 in ischemic stroke remains to be elucidated. Methods: Comprehensive literature search and narrative review to summarize the current field of HMGB1 in cerebral ischemic based on the basic structure, structural modification, and functional roles of HMGB1 described in the literature. Results: Studies have exhibited the crucial roles of HMGB1 in cell death, immunity and inflammation, thrombosis, and remodeling and repair. HMGB1 released after cerebral infarction is extensively involved in the pathological injury process in the early stage of cerebral infarction, whereas it is involved in the promotion of brain tissue repair and remodeling in the late stage of cerebral infarction. HMGB1 plays a neurotrophic role in acute white matter stroke, whereas it causes sustained activation of inflammation and plays a damaging role in chronic white matter ischemia. Conclusions: HMGB1 plays a complex role in cerebral infarction, which is related to not only the modification of HMGB1 and bound receptors but also different stages and subtypes of cerebral infarction. future studies on HMGB1 should investigate the spatial and temporal dynamics of HMGB1 after cerebral infarction. Moreover, future studies on HMGB1 should attempt to integrate different stages and infarct subtypes of cerebral infarction. [ABSTRACT FROM AUTHOR]

Published

2023

21. Carbon Monoxide Cycling in the Eastern Indian Ocean.

Author

Xu, Gao‐Bin, Xu, Feng, Ji, Xuan, Zhang, Jing, Yan, Shi‐Bo, Mao, Shi‐Hai, and Yang, Gui‐Peng

Subjects

CARBON monoxide, GEOCHEMICAL modeling, CARBON cycle, DISSOLVED organic matter, OCEAN, MIXING height (Atmospheric chemistry), CYCLING competitions

Abstract

Carbon monoxide (CO) is an indirect greenhouse gas and a crucial component of the global carbon cycle. The ocean is an important source of atmospheric CO, but the factors controlling the sources and sinks of CO in the marine environment remain uncertain. For the first time, the spatial distribution, production, and removal pathways of seawater CO (including photoproduction, dark production, microbial consumption, and sea‐to‐air exchange) were systematically investigated in the Eastern Indian Ocean. The abundance and component source of chromophoric dissolved organic matter (CDOM) dominated the photoproduction and dark production rates of CO, and the net CO production rate was 2.19 ± 0.71 nmol L−1 d−1 (mean ± SD). The ratio of CO photoproduction efficiencies (normalized by solar radiation) for ultraviolet B radiation (UVB): ultraviolet A radiation (UVA): photosynthetically active radiation (PAR) was 854: 39: 1, while UVA was the most significant contributor to surface CO photoproduction due to the stronger radiation intensity. In the mixed layer, UVB, UVA, and PAR were estimated to contribute 12% ± 5%, 38% ± 8%, and 50% ± 8% (mean ± SD) to CO photoproduction, respectively. The total removal of CO by microbial consumption (96%) and sea‐to‐air exchange (1%) accounted for 97% of the total production. Overall, the sources and sinks of CO kept a dynamic balance in the mixed layer. Our comprehensive approach provides in‐detail insights into the understanding of CO cycling processes in the Eastern Indian Ocean, which is scientifically important for understanding the bio‐geochemical cycling and climate effects of CO in the Eastern Indian Ocean, and also provides additional data support for the CO global cycle modeling studies. Plain Language Summary: The Eastern Indian Ocean is one of the world's most active monsoonal regions and an essential component of the Indian Ocean warm pool. In addition, there is an extensive oxygen minimum zone in the Eastern Indian Ocean. Despite the potential impact of this region on the global CO cycle, only a few studies have been carried out. Here, we explored the controlling factors leading to the heterogeneous distribution of CO in the surface seawater of the Eastern Indian Ocean by studying sources and sinks. We also simulated CO photoproduction in the mixed layer, where light attenuation affects wavebands differently, and evaluated the corresponding CO budget. This study provides in‐detail insights into the CO cycling processes in the Eastern Indian Ocean. Key Points: Ultraviolet A radiation and photosynthetically effective radiation were the primary drivers of CO photoproduction in the mixed layerDark production accounted for about 20% of the total CO production in the mixed layerMicrobial consumption could remove 99% of the seawater CO before it released into the atmosphere [ABSTRACT FROM AUTHOR]

Published

2023

22. Validation of a diet‐induced Macaca fascicularis model of non‐alcoholic steatohepatitis with dietary and pioglitazone interventions.

Author

Camacho, Raul C., Polidori, David, Chen, Tao, Chen, Bin, Hsu, Helen Han, Gao, Bin, Marella, Mathieu, Lubomirski, Mariusz, Beavers, Traymon, Cabrera, Javier, Wong, Peggy, and Nawrocki, Andrea R.

Subjects

KRA, MACAQUES, NON-alcoholic fatty liver disease, FRUCTOSE, LOW-calorie diet, PIOGLITAZONE

Abstract

Aim: To develop an obese, insulin‐resistant cynomolgus monkey model of non‐alcoholic steatohepatitis (NASH) with fibrosis with a high fat/high cholesterol (HFHC) diet (with or without high fructose) and test its responsiveness to caloric restriction or pioglitazone. Methods: First, two groups of monkeys (n = 24/group) with histologically proven NASH and fibrosis were fed the HFHC diet for 17 weeks. The treatment group was subjected to a 40% caloric restriction (CR) and had their diet switched from the HFHC diet to a chow diet (DSCR). Paired liver biopsies were taken before and 17 weeks after DSCR. Subsets of monkeys (nine/group) had whole liver fat content assessed by MRI. Next, two groups of monkeys with histologically proven NASH and fibrosis were treated with vehicle (n = 9) or pioglitazone (n = 20) over 24 weeks. Results: The HFHC and DSCR groups lost 0.9% and 11.4% of body weight, respectively. After 17 weeks, non‐alcoholic fatty liver disease activity score (NAS) improvement was observed in 66.7% of the DSCR group versus 12.5% of the HFHC group (P <.001). Hepatic fat was reduced to 5.2% in the DSCR group versus 23.0% in the HFHC group (P =.0001). After 24 weeks, NAS improvement was seen in 30% of the pioglitazone group versus 0% of the vehicle group (P =.08). Conclusions: Both weight loss induced by DSCR and treatment with pioglitazone improve the histological features of NASH in a diet‐induced cynomolgus monkey model. This model provides a translational preclinical model for testing novel NASH therapies. [ABSTRACT FROM AUTHOR]

Published

2023

23. Three‐Dimensional Reconstruction of Conductive Filaments in HfOx‐Based Memristor.

Author

Wei, Tiantian, Lu, Yuyao, Zhang, Fan, Tang, Jianshi, Gao, Bin, Yu, Pu, Qian, He, and Wu, Huaqiang

Published

2023

24. Rewiring of the seed metabolome during Tartary buckwheat domestication.

Author

Zhao, Hui, He, Yuqi, Zhang, Kaixuan, Li, Shijuan, Chen, Yong, He, Ming, He, Feng, Gao, Bin, Yang, Di, Fan, Yu, Zhu, Xuemei, Yan, Mingli, Giglioli‐Guivarc'h, Nathalie, Hano, Christophe, Fernie, Alisdair R., Georgiev, Milen I., Janovská, Dagmar, Meglič, Vladimir, and Zhou, Meiliang

Subjects

BUCKWHEAT, GENOME-wide association studies, SALICYLIC acid, PLANT morphology, PROCYANIDINS, SEEDS

Abstract

Summary: Crop domestication usually leads to the narrowing genetic diversity. However, human selection mainly focuses on visible traits, such as yield and plant morphology, with most metabolic changes being invisible to the naked eye. Buckwheat accumulates abundant bioactive substances, making it a dual‐purpose crop with excellent nutritional and medical value. Therefore, examining the wiring of these invisible metabolites during domestication is of major importance. The comprehensive profiling of 200 Tartary buckwheat accessions exhibits 540 metabolites modified as a consequence of human selection. Metabolic genome‐wide association study illustrates 384 mGWAS signals for 336 metabolites are under selection. Further analysis showed that an R2R3‐MYB transcription factor FtMYB43 positively regulates the synthesis of procyanidin. Glycoside hydrolase gene FtSAGH1 is characterized as responsible for the release of active salicylic acid, the precursor of aspirin and indispensably in plant defence. UDP‐glucosyltransferase gene FtUGT74L2 is characterized as involved in the glycosylation of emodin, a major medicinal component specific in Polygonaceae. The lower expression of FtSAGH1 and FtUGT74L2 were associated with the reduction of salicylic acid and soluble EmG owing to domestication. This first large‐scale metabolome profiling in Tartary buckwheat will facilitate genetic improvement of medicinal properties and disease resistance in Tartary buckwheat. [ABSTRACT FROM AUTHOR]

Published

2023

25. Impact factors and contributions of commingled production in multiple coal seams.

Author

Jin, Jun, Fang, Xiaojie, Wu, Caifang, Han, Jiang, Jiang, Xiuming, Liu, Ningning, and Gao, Bin

Subjects

GAS reservoirs, GAS wells, COAL, COALBED methane, PRESSURE drop (Fluid dynamics), PETROPHYSICS

Abstract

The multilayer development of coalbed methane (CBM) is affected by many factors, and the gas production contribution of each seam is unclear. In this study, 12 geological and 10 engineering parameters were adopted to reveal the key factors affecting the combined‐layer drainage productivity of CBM wells before using numerical simulation to clarify the contribution of each coal seam. The results show that the coal reservoir in the Laochang mining area exhibited the advantages of high gas content, intact coal body structure, and large thickness of the combined coal seams, and it was deficient with low saturation and ratio of critical desorption pressure to reservoir pressure. The medium permeability after fracturing and the influence of a small range of fracturing leads to the steep and deep pressure drop funnel of the coal reservoir, and most of the reservoir pressure drop is ineffective; this may be the reason for the unstable production and rapid attenuation of most CBM wells in the study area. The gas production of the Nos. 13 and 18 coal seams is stable and makes a significant contribution, and they can be used as the key objects of follow‐up CBM exploration and development in this area. Geological factors, such as coal body structure, ratio of critical desorption pressure to reservoir pressure, thickness of combined coal seams, and gas saturation, as well as engineering factors, such as permeability and half length of fractures after fracturing, are the main factors affecting the productivity of the CBM wells in the Laochang mining area. [ABSTRACT FROM AUTHOR]

Published

2022

26. Hepatic CYP2B10 is highly induced by binge ethanol and contributes to acute‐on‐chronic alcohol‐induced liver injury.

Author

Mackowiak, Bryan, Xu, Mingjiang, Lin, Yuhong, Guan, Yukun, Seo, Wonhyo, Ren, Ruixue, Feng, Dechun, Jones, Jace W., Wang, Hongbing, and Gao, Bin

Subjects

FATTY liver prevention, COMPLICATIONS of alcoholism, BIOLOGICAL models, IN vitro studies, CYTOCHROME P-450, ALCOHOLIC liver diseases, LIVER, ANIMAL experimentation, INFLAMMATION, WESTERN immunoblotting, FATTY liver, METABOLOMICS, BINGE drinking, MICROARRAY technology, CIRRHOSIS of the liver, GENE expression, GENE expression profiling, ETHANOL, POLYMERASE chain reaction, MICE, METABOLITES, DISEASE risk factors

Abstract

Background: The chronic‐plus‐binge model of ethanol consumption, where chronically (8‐week) ethanol‐fed mice are gavaged a single dose of ethanol (E8G1), is known to induce steatohepatitis in mice. However, how chronically ethanol‐fed mice respond to multiple binges of ethanol remains unknown. Methods: We extended the E8G1 model to three gavages of ethanol (E8G3) spaced 24 h apart, sacrificed each group 9 h after the final gavage, analyzed liver injury, and examined gene expression changes using microarray analyses in each group to identify mechanisms contributing to liver responses to binge ethanol. Results: Surprisingly, E8G3 treatment induced lower levels of liver injury, steatosis, inflammation, and fibrosis as compared to mice after E8G1 treatment. Microarray analyses identified several pathways that may contribute to the reduced liver injury after E8G3 treatment compared to E8G1 treatment. The gene encoding cytochrome P450 2B10 (Cyp2b10) was one of the top upregulated genes in the E8G1 group and was further upregulated in the E8G3 group, but only moderately induced after chronic ethanol consumption, as confirmed by RT‐qPCR and western blot analyses. Genetic disruption of Cyp2b10 worsened liver injury in E8G1 and E8G3 mice with higher blood ethanol levels compared to wild‐type control mice, while in vitro experiments revealed that CYP2b10 did not directly promote ethanol metabolism. Metabolomic analyses revealed significant differences in hepatic metabolites from E8G1‐treated Cyp2b10 knockout and WT mice, and these metabolic alterations may contribute to the reduced liver injury in Cyp2b10 knockout mice. Conclusion: Hepatic Cyp2b10 expression is highly induced after ethanol binge, and such upregulation reduces acute‐on‐chronic ethanol‐induced liver injury via the indirect modification of ethanol metabolism. [ABSTRACT FROM AUTHOR]

Published

2022

27. Revealing the illumination effect on the discharge products in high‐performance Li–O2 batteries with heterostructured photocatalysts.

Author

Gong, Hao, Wang, Tao, Chang, Kun, Li, Peng, Liu, Lequan, Yu, Xingyu, Gao, Bin, Xue, Hairong, Ma, Renzhi, He, Jianping, and Ye, Jinhua

Subjects

OXYGEN evolution reactions, ENERGY storage, ELECTRIC batteries, CHARGE carriers, LITHIUM-air batteries, APROTIC solvents, PHOTOCATALYSTS

Abstract

Aprotic lithium–oxygen batteries (LOBs) have been recognized as novel energy storage devices for their outstanding specific energy density, while the large discharge/charge overpotential is a tough barrier to be overcome. Here, hetero‐structured MoS2/ZnIn2S4 nanosheets have been prepared to capture visible light and the generated charge carriers are utilized for promoting both the oxygen reduction reaction and the oxygen evolution reaction. With the light illumination in the discharge process, the abundant photo‐inspired electrons serve as the reaction sites to promote the reduction of O2 into LiO2 which is finally deposited as Li2O2. On the contrary, the generated holes in the valence band can contribute to the low oxidization potential of Li2O2 during the charge process. It delivers a low charge potential of 3.29 V, with an excellent resulting energy efficiency of 96.7%, much superior to that of 69.2% in the dark condition. It is noted that the involvement of photoelectrons has influenced the growth of Li2O2 films on the MoS2/ZnIn2S4 nanosheets through the surface‐adsorption pathway. The insights from the theoretical calculation confirm that the photoelectrons favor the absorption of LiO2 and the formation of the Li2O2 film through the surface route. Therefore, this paper provides a deeper understanding of the mechanism of photo‐inspired charge carriers in LOBs and will enable further exploration of photo‐involved energy storage systems. [ABSTRACT FROM AUTHOR]

Published

2022

28. Comparison of buckwheat genomes reveals the genetic basis of metabolomic divergence and ecotype differentiation.

Author

He, Ming, He, Yuqi, Zhang, Kaixuan, Lu, Xiang, Zhang, Xuemei, Gao, Bin, Fan, Yu, Zhao, Hui, Jha, Rintu, Huda, Md. Nurul, Tang, Yu, Wang, Junzhen, Yang, Weifei, Yan, Mingli, Cheng, Jianping, Ruan, Jingjun, Dulloo, Ehsan, Zhang, Zongwen, Georgiev, Milen I, and Chapman, Mark A.

Subjects

BUCKWHEAT, FOOD crops, CHINESE medicine, METABOLOMICS, GENE families, GENOMES

Abstract

Summary: Golden buckwheat (Fagopyrum dibotrys or Fagopyrum cymosum) and Tartary buckwheat (Fagopyrum tataricum) belong to the Polygonaceae and the Fagopyrum genus is rich in flavonoids. Golden buckwheat is a wild relative of Tartary buckwheat, yet golden buckwheat is a traditional Chinese herbal medicine and Tartary buckwheat is a food crop. The genetic basis of adaptive divergence between these two buckwheats is poorly understood.Here, we assembled a high‐quality chromosome‐level genome of golden buckwheat and found a one‐to‐one syntenic relationship with the chromosomes of Tartary buckwheat. Two large inversions were identified that differentiate golden buckwheat and Tartary buckwheat.Metabolomic and genetic comparisons of golden buckwheat and Tartary buckwheat indicate an amplified copy number of FdCHI, FdF3H, FdDFR, and FdLAR gene families in golden buckwheat, and a parallel increase in medicinal flavonoid content. Resequencing of 34 wild golden buckwheat accessions across the two morphologically distinct ecotypes identified candidate genes, including FdMYB44 and FdCRF4, putatively involved in flavonoid accumulation and differentiation of plant architecture, respectively.Our comparative genomic study provides abundant genomic resources of genomic divergent variation to improve buckwheat with excellent nutritional and medicinal value. [ABSTRACT FROM AUTHOR]

Published

2022

29. Metal‐Loaded Biochar for the Removal of Arsenic from Water: A Critical Review on Overall Effectiveness, Governing Mechanisms, and Influential Factors.

Author

Srivastava, Vartika, Karim, Ansaf V., Babu, Davuluri Syam, Nidheesh, Puthiya Veetil, Kumar, Manukonda Suresh, and Gao, Bin

Subjects

ARSENIC removal (Water purification), BIOCHAR, ARSENIC in water, WATER pollution, SURFACE charges, ARSENIC poisoning

Abstract

Arsenic (As) contamination in water sources is a serious threat to safe drinking water afflicting many developed and developing nations. Among the different water treatment techniques, arsenic removal using metal‐loaded biochar has gained considerable interest as an efficient environmentally sustainable adsorbent. This review critically focuses on an in‐depth analysis of different adsorption mechanisms and various physicochemical properties such as pH, surface area and surface charge, porosity, and functional groups of the metal‐loaded biochar that are significant for As adsorption, which has not been previously described. It centers on addressing the overall effectiveness, governing mechanisms, and influential factors of metal‐loaded biochars for As removal from the aqueous medium. Special consideration on oxidation of arsenite to arsente and its removal was given. The oxidation processes are also effective in reducing arsenic toxicity by oxidation of arsenite to arsenate. A comprehensive insight into the utility of biochar for As removal for future field applications of biochar is delineated. [ABSTRACT FROM AUTHOR]

Published

2022

30. Investigation of Resistive Switching Mechanisms in Ti/TiOx/Pd‐Based RRAM Devices.

Author

Hu, Ruofei, Li, Xinyi, Tang, Jianshi, Li, Yijun, Zheng, Xiaojian, Gao, Bin, Qian, He, and Wu, Huaqiang

Subjects

SCHOTTKY barrier, CONCENTRATION gradient, MACHINE learning, DEEP learning, ELECTRIC fields, RANDOM access memory

Abstract

Resistive switching random‐access memory (RRAM) has attracted tremendous interest for applications in both embedded memory and neuromorphic computing. In this paper, two distinct types of resistive switching in Ti/TiOx/Pd‐based RRAM devices depending on the bottom electrode morphology is reported. One is filamentary resistive switching where the bottom Pd electrode has spikes caused by liftoff. The enhancement of local electric field caused by the spikes induces the formation of conductive filaments and hence leads the device to be nonvolatile. The other one is dynamic resistive switching, where the bottom electrode is flat without spikes and the device resistance changes dynamically with time. For such devices, the electric field and the oxygen ion concentration gradient in the TiOx layer have competing effects on the oxygen ion movement, which makes the Schottky barrier height at metal/oxide interface vary dynamically with time. Based on detailed physical analysis, a compact behavioral model of the dynamic RRAM device is established. The model fits well with experimentally measured device characteristics, and can be easily incorporated in deep learning algorithms. The work paves the road for further optimization of dynamic RRAM device and also its application in dynamic signal processing. [ABSTRACT FROM AUTHOR]

Published

2022

31. Efficacy and safety of alogliptin versus acarbose in Chinese type 2 diabetes patients with high cardiovascular risk or coronary heart disease treated with aspirin and inadequately controlled with metformin monotherapy or drug‐naive: A multicentre, randomized, open‐label, prospective study (ACADEMIC)

Author

Gao, Bin, Gao, Weiguo, Wan, Hailong, Xu, Fengmei, Zhou, Rong, Zhang, Xia, and Ji, Qiuhe

Subjects

*ASPIRIN, *METFORMIN, *TYPE 2 diabetes, *CORONARY disease, *ACARBOSE, *CARDIOVASCULAR diseases risk factors, *PEOPLE with diabetes

Abstract

Aims: To demonstrate the noninferiority of alogliptin to acarbose, in terms of antidiabetic efficacy, in Chinese people with uncontrolled type 2 diabetes (T2D) and high cardiovascular risk. Materials and Methods: ACADEMIC (NCT03794336) was a randomized, open‐label, phase IV study conducted at 46 sites in China. Antidiabetic treatment‐naive or metformin‐treated adults with uncontrolled T2D (glycated haemoglobin [HbA1c] 58.0–97.0 mmol/mol) were randomized 2:1 to alogliptin 25 mg once daily or acarbose 100 mg three times daily for 16 weeks. All participants had a documented history of coronary heart disease or high cardiovascular risk at screening and received aspirin (acetylsalicylic acid) 100 mg daily throughout the trial. The primary endpoints were change in HbA1c versus baseline, and the incidence of gastrointestinal adverse events (AEs). Safety and tolerability were also assessed. Results: A total of 1088 participants were randomized. Alogliptin was noninferior to acarbose for the change in Week‐16 HbA1c (least‐squares mean change [standard error] –11.9 [0.4] vs. –11.4 [0.5] mmol/mol, respectively; difference between arms –0.5 [0.7] mmol/mol; 95% confidence interval –1.9 to 0.8 mmol/mol), and was associated with a lower incidence of gastrointestinal AEs (8.9% vs. 33.6%, respectively; P < 0.0001). More alogliptin than acarbose recipients achieved HbA1c <53.0 mmol/mol without gastrointestinal AEs (48.0% vs. 32.7%; P < 0.0001). Discontinuations due to treatment‐related AEs were less frequent with alogliptin than acarbose (0.3% vs. 2.5%). Conclusions: Glycaemic control was comparable between alogliptin and acarbose, but the gastrointestinal tolerability of alogliptin was better. More patients achieved target HbA1c without gastrointestinal AEs with alogliptin, suggesting that this agent may be preferred in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2022

32. Asymmetric Character of the Ferroelectric Phase Transition and Charged Domain Walls in a Hybrid Improper Ferroelectric.

Author

Weber, Mads C., Zemp, Yannik, Trassin, Morgan, Simonov, Arkadiy, Schaab, Jakob, Gao, Bin, Cheong, Sang‐Wook, Lottermoser, Thomas, and Fiebig, Manfred

Subjects

PHASE transitions, FERROELECTRIC transitions, SECOND harmonic generation, POLARIZATION (Electricity), DOMAIN walls (Ferromagnetism), INDUCED polarization

Abstract

In improper ferroelectrics, the spontaneous ordering is typically driven by a structural distortion or a magnetic spin alignment. The induced electric polarization is only a secondary effect. This dependence is a rich source for unusual phenomena and ferroelectric domain configurations for proper, polarization‐driven ferroelectrics. This study focuses on the polar domain structure and the hysteretic behavior at the ferroelectric phase transition in Ca3Mn1.9Ti0.1O7 as a representative of the recently discovered hybrid improper ferroelectric class of multiferroics. Combining optical second harmonic generation and Raman spectroscopy gives access to the spontaneous structural distortion and the resulting improper electric polarization. This study shows that hybrid improper ferroelectrics contrast proper and improper ferroelectrics in several ways. Most intriguingly, adjacent ferroelectric domains favor head‐to‐head and tail‐to‐tail domain walls over charge‐neutral configurations. Furthermore, the phase transition occurs in an asymmetric fashion. The regime of phase coexistence of the nonpolar and polar phases shows a clear and abrupt upper temperature limit. In contrast, the coexistence toward low temperatures is best described as a fade‐out process, where 100‐nm‐sized islands of the nonpolar phase expand deep into the polar phase. [ABSTRACT FROM AUTHOR]

Published

2022

33. Asymmetric α‐Allylation of Glycinate with Switched Chemoselectivity Enabled by Customized Bifunctional Pyridoxal Catalysts.

Author

Ma, Jiguo, Gao, Bin, Song, Guanshui, Zhang, Ruixin, Wang, Qingfang, Ye, Zi, Chen, Wen‐Wen, and Zhao, Baoguo

Subjects

*BIFUNCTIONAL catalysis, *CHEMOSELECTIVITY, *CATALYSTS, *GLUTAMIC acid, *FORMYLATION, *NUCLEOPHILIC reactions, *ALLYLATION

Abstract

Owing to the strong nucleophilicity of the NH2 group, free‐NH2 glycinates react with MBH acetates to usually deliver N‐allylated products even in the absence of catalysts. Without protection of the NH2 group, chiral pyridoxal catalysts bearing an amide side chain at the C3 position of the naphthyl ring switched the chemoselectivity of the glycinates from intrinsic N‐allylation to α‐C allylation. The reaction formed chiral multisubstituted glutamic acid esters as SN2′–SN2′ products in good yields with excellent stereoselectivity (up to 86 % yield, >20 : 1 dr, 97 % ee). As compared to pyridoxal catalysts bearing an amide side arm at the C2 position, the pyridoxals in this study have a bigger catalytic cavity to enable effective activation of larger electrophiles, such as MBH acetates and related intermediates. The reaction is proposed to proceed via a cooperative bifunctional catalysis pathway, which accounts for the high level of diastereo‐ and enantiocontrol of the pyridoxal catalysts. [ABSTRACT FROM AUTHOR]

Published

2022

34. Adaptively evolved human oral actinomyces‐sourced defensins show therapeutic potential.

Author

Zhu, Shunyi, Gao, Bin, Umetsu, Yoshitaka, Peigneur, Steve, Li, Ping, Ohki, Shinya, and Tytgat, Jan

Abstract

The development of eukaryote‐derived antimicrobial peptides as systemically administered drugs has proven a challenging task. Here, we report the first human oral actinomyces‐sourced defensin—actinomycesin—that shows promise for systemic therapy. Actinomycesin and its homologs are only present in actinobacteria and myxobacteria, and share similarity with a group of ancient invertebrate‐type defensins reported in fungi and invertebrates. Signatures of natural selection were detected in defensins from the actinomyces colonized in human oral cavity and ruminant rumen and dental plaque, highlighting their role in adaptation to complex multispecies bacterial communities. Consistently, actinomycesin exhibited potent antibacterial activity against oral bacteria and clinical isolates of Staphylococcus and synergized with two classes of human salivary antibacterial factors. Actinomycesin specifically inhibited bacterial peptidoglycan synthesis and displayed weak immunomodulatory activity and low toxicity on human and mammalian cells and ion channels in the heart and central nervous system. Actinomycesin was highly efficient in mice infected with Streptococcus pneumoniae and mice with MRSA‐induced experimental peritoneal infection. This work identifies human oral bacteria as a new source of systemic anti‐infective drugs. Synopsis: Bacteria are a major source of clinically used antibiotics. This study explored the potential of oral actinomyces‐sourced defensins as systemic anti‐infective drugs via a combination of microbial genome mining, evolution analysis and experimental studies. Bacterial defensins with the cysteine‐stabilized α‐helical and β‐sheet motif are exclusively present in actinomycetes and myxobacteria.AMSIN kills sensitive bacteria through interaction with Lipid II to hamper cell‐wall biosynthesis.AMSIN shows low toxicity and antibacterial activity in undiluted human serum, which is superior to some human‐derived host defense peptides. [ABSTRACT FROM AUTHOR]

Published

2022

35. A Colorimetric Dermal Tattoo Biosensor Fabricated by Microneedle Patch for Multiplexed Detection of Health‐Related Biomarkers.

Author

He, Rongyan, Liu, Hao, Fang, Tianshu, Niu, Yan, Zhang, Huiqing, Han, Fei, Gao, Bin, Li, Fei, and Xu, Feng

Subjects

TATTOOING, EXTRACELLULAR fluid, BIOSENSORS, BIOMARKERS, DISEASE management, BODY fluids

Abstract

Detection of biomarkers associated with body conditions provides in‐depth healthcare information and benefits to disease management, where the key challenge is to develop a minimally invasive platform with the ability to directly detect multiple biomarkers in body fluid. Dermal tattoo biosensor holds the potential to simultaneously detect multiple health‐related biomarkers in skin interstitial fluid because of the features of minimal invasion, easy operation, and equipment‐free result reading. Herein, a colorimetric dermal tattoo biosensor fabricated by a four‐area segmented microneedle patch is developed for multiplexed detection of health‐related biomarkers. The biosensor exhibits color changes in response to the change of biomarker concentration (i.e., pH, glucose, uric acid, and temperature), which can be directly read by naked eyes or captured by a camera for semi‐quantitative measurement. It is demonstrated that the colorimetric dermal tattoo biosensor can simultaneously detect multiple biomarkers in vitro, ex vivo, and in vivo, and monitor the changes of the biomarker concentration for at least 4 days, showing its great potential for long‐term health monitoring. [ABSTRACT FROM AUTHOR]

Published

2021

36. Winter coexistence in herbivorous waterbirds: Niche differentiation in a floodplain, Poyang Lake, China.

Author

Bai, Junpeng, Zhang, Huan, Zhou, Hongkang, Li, Shu, Gao, Bin, Chen, Peng, Ma, Long, Xu, Zhifeng, Zhang, Zhen, Xu, Changxin, Ruan, Luzhang, and Ge, Gang

Subjects

WATER birds, WHITE-fronted goose, CRANES (Birds), COMPETITION (Biology), FLOODPLAINS, HABITAT selection

Abstract

The classical niche theory supports the idea that stable coexistence requires ecological differences between closely related species. However, information on waterbirds coexistence in the entirely landlocked freshwater system of Poyang Lake is not well understood, especially when the available biomass of their food in the area decreases. In this study, we tested the ecological segregation mechanisms in the 2015/2016 and 2016/2017 wintering periods among eight herbivorous waterbirds (including the Siberian crane Grus leucogeranus, hooded crane Grus monacha, white‐naped crane Grus vipio, common crane Grus grus, greater white‐fronted goose Anser albifrons, bean goose Anser fabalis, swan goose Anser cygnoides, and tundra swan Cygnus columbianus) at Poyang Lake. Using field observations and species niche and foraging habitat selection models, we investigated the abundance, distribution, and food sources of these eight waterbird species to quantify and compare their habitat use and ecological niches. Our results showed that niche segregation among the waterbirds, with respect to food types, time, and spatial location, allow them to coexist and use similar resources. The water level gradually receded in the sub‐lakes of the Poyang Lake, which could provide food sources and various habitats for wintering herbivorous waterbirds to coexist. We demonstrated that the differences in habitat use could mitigate interspecific competition, which may explain the mechanism whereby waterbirds of Poyang Lake coexist during the wintering period, despite considerable overlap in the dietary niches of herbivorous waterbirds. [ABSTRACT FROM AUTHOR]

Published

2021

37. Multiphysics coupling numerical simulation of flow‐diverting stents in the treatment of patients with pulsatile tinnitus.

Author

Mu, Zhenxia, Liu, Li, Sun, Yufeng, Gao, Bin, Lv, Han, Zhao, Pengfei, Liu, Youjun, and Wang, Zhenchang

Subjects

COMPUTED tomography, CRANIAL sinuses, COMPUTER simulation, SOUND pressure, TINNITUS, MULTIDETECTOR computed tomography

Abstract

Patients with pulsatile tinnitus (PT) have unstable treatment effects after resurfacing surgery. Flow‐diverting stents (FDS) are proposed as a potential method for the treatment of PT, but the therapeutic effect is not clear. This study aimed to investigate the efficacy of FDS in the treatment of patients with PT induced by sigmoid sinus diverticulum (SSD) and sigmoid sinus wall dehiscence (SSWD). In addition, we aimed to explore the treatment mechanism of PT. Transient‐state multiphysics coupling numerical simulation method based on computed tomography angiography of five patients was used to clarify the biomechanical and acoustic states before and after FDS placement. FDS was placed to prevent the blood flow from impacting the vessel wall in the SSD and SSWD areas. Low blood flow velocity (<0.0391 m/s), high relative residence time (>10 Pa−1), and low wall shear stress of SSD might lead to thrombosis after FDS placement. The average pressure on the SSWD area of each patient decreased by 13.77%, 18.82%, 29.23%, 19.03%, and 11.20%. The average displacement of the vessel wall on the SSWD area showed acute pulsation and decreased by 15.29%, 14.64%, 30.22%, 41.03%, and 21.28%. The average sound pressure level at the tympanum decreased by 14.01%, 9.33%, 17.66%, 18.88%, and 25.18%, respectively. In brief, FDS was placed to avoid blood flow impacting vessels and reduce the vibration of vessels in the short term, thereby attenuating the degree of PT. The long‐term prognosis was that the SSWD area was blocked after SSD thrombosis. Therefore, FDS might be an effective method for the treatment of PT induced by SSD and SSWD. This study would provide a theoretical basis for the treatment of PT and an exploration of FDS design in the treatment of PT. [ABSTRACT FROM AUTHOR]

Published

2021

38. Vertical alignment of carbon fibers under magnetic field driving to enhance the thermal conductivity of silicone composites.

Author

Ma, Haoqi, Gao, Bin, Wang, Meiyu, and Feng, Yakai

Subjects

THERMAL interface materials, THERMAL conductivity, MAGNETIC fields, ELASTIC modulus, HEAT conduction, IRON oxide nanoparticles, CARBON fibers

Abstract

Thermal interface materials are expected to have efficient heat conduction pathways to achieve excellent thermal conductivity under the premise of low filler filling. It is a facile strategy to build thermal pathways through filler orientation technology under external force. Herein, iron oxide nanoparticles (Fe3O4) were immobilized onto the surface of carbon fiber (CF) to prepare magnetic CF by polydopamine technology, and the oriented CF/polydimethylsiloxane composites (OCF/PDMS) were prepared through the vertically oriented cure of magnetized CF under an external magnetic field. Importantly, the thermal conductivity of OCF/PDMS reached up to 1.51 W m−1 K−1 when filling 20 wt% of CF@Fe3O4, which is 1.16 times of carbon fiber/polydimethylsiloxane composites and 5.59 times of pure PDMS matrix. In addition, OCF/PDMS also exhibits excellent tensile strength, elastic modulus and elongation at break. This strategy provides a promising attempt for the construction of thermal interface materials with high thermal conductivity and excellent mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2021

39. Aqueous Formate‐Based Li‐CO2 Battery with Low Charge Overpotential and High Working Voltage.

Author

Xue, Hairong, Gong, Hao, Lu, Xueyi, Gao, Bin, Wang, Tao, He, Jianping, Yamauchi, Yusuke, Sasaki, Takayoshi, and Ma, Renzhi

Subjects

OVERPOTENTIAL, HIGH voltages, OXIDATION of formic acid, ELECTROLYTIC reduction, CARBON sequestration, FORMIC acid, ENERGY consumption

Abstract

Li‐CO2 batteries (LCOBs) are considered to be an important strategy toward efficient carbon sequestration and energy storage. However, most typical discharge products (Li2CO3 and C) are insoluble and chemically stable, and require a high charge overpotential (≈3.5–4.5 V) to be decomposed. Herein, a novel aqueous LCOB with formic acid (HCOOH) as the discharge product is proposed. The soluble HCOOH can be directly utilized in the charge process without any further purification or compression, realizing a very facile electrochemical cycle. Nanoporous Pd films with a high electrochemical surface area exhibit a high bifunctional performance toward both CO2 reduction and formic acid oxidation. Accordingly, the assembled LCOB achieves a high working potential plateau of 2.61 V whereas the charge potential is significantly lowered to 2.87 V, delivering the highest energy efficiency of 91%. The present work demonstrates a brand‐new aqueous LCOB with HCOOH as the discharge product for utilizing CO2 as power source. [ABSTRACT FROM AUTHOR]

Published

2021

40. Effect of Halogen‐Doping on Properties of Bismuth Iodide (BiI3) Optical Absorption Layer.

Author

Wu, Hao, Huang, Xianli, Lv, Jun, Sheng, Lei, Gao, Bin, Jiang, Cheng, Wang, Tao, and He, Jianping

Subjects

LIGHT absorption, BISMUTH, X-ray photoelectron spectroscopy, SCANNING electron microscopes, SEMICONDUCTOR materials, PHOTOSENSITIZERS

Abstract

Bismuth tri‐iodide (BiI3), a promising lead‐free photoelectric semiconductor material, is suitable for photovoltaic applications. Herein, the effect of halogen doping with bromine (Br) and chlorine (Cl) compounds on the morphology and photovoltaic performances of BiI3 thin films is investigated. BiI3−xXx films doped with halogens are prepared by vacuum thermal evaporation. Scanning electron microscope (SEM) shows that with the increase in doping ratio, the morphology of the thin film changes significantly, which is conducive to the contact with the cavity conduction layer. The bandgap increases from ≈1.75 to 1.78 eV (BiI2.91Cl0.09) and 2.06 eV (BiI2.91Br0.09) after doping. X‐ray photoelectron spectroscopy (XPS) shows that the band position of the two doped films increases, which is more conducive to the realization of band matching. The films with higher properties are obtained by doping halogens, and the maximum (BiI2.91X0.09) photocurrent is twice of the minimum (BiI2.97X0.03). The maximum photocurrent obtained by photocurrent I–T test is 0.043 Ma cm−2 (BiI2.91Cl0.09) and 0.047 mA cm−2 (BiI2.91Br0.09). [ABSTRACT FROM AUTHOR]

Published

2021

41. Beta-caryophyllene protects against alcoholic steatohepatitis by attenuating inflammation and metabolic dysregulation in mice

Author

Varga, Zoltan V, Matyas, Csaba, Erdelyi, Katalin, Cinar, Resat, Nieri, Daniela, Chicca, Andrea, Nemeth, Balazs Tamas, Paloczi, Janos, Lajtos, Tamas, Corey, Lukas, Hasko, Gyorgy, Gao, Bin, Kunos, George, Gertsch, Jürg, and Pacher, Pal

Subjects

570 Life sciences, biology, 610 Medicine & health

Abstract

BACKGROUND AND AIMS Beta-caryophyllene (BCP) is a plant-derived FDA approved food additive with anti-inflammatory properties. Some of its beneficial effects in vivo reported to involve activation of cannabinoid 2 receptors (CB2) that are predominantly expressed in immune cells. Herein, we evaluated the translational potential of BCP using a well-established model of chronic and binge alcohol-induced liver injury. METHODS In this study we investigated the effects of BCP on liver injury induced by chronic plus binge alcohol feeding in mice in vivo by using biochemical assays, real-time PCR and histology analyses. Serum and hepatic BCP levels were also determined by GC/MS. RESULTS Chronic treatment with BCP attenuated the chronic and binge alcohol-induced liver injury and inflammation by attenuating the pro-inflammatory phenotypic `M1` switch of Kupffer cells and by decreasing the expression of vascular adhesion molecules ICAM-1, E-Selectin and P-Selectin, as well as the neutrophil infiltration. It also beneficially influenced hepatic metabolic dysregulation (steatosis, protein hyperacetylation, and PPAR-ɑ signaling). The above mentioned protective effects of BCP against alcohol-induced liver injury were attenuated in CB2 knockout mice, indicating that the beneficial effects of this natural product in liver injury involve CB2 receptor activation. Following acute or chronic administration BCP was detectable both in the serum and liver tissue homogenates but not in the brain. CONCLUSIONS Given the safety of BCP in humans this food additive has a high translational potential in treating or preventing hepatic injury associated with oxidative stress, inflammation and steatosis.

Published

2018

42. Quantifying and Adjusting Plasmon‐Driven Nano‐Localized Temperature Field around Gold Nanorods for Nucleic Acids Amplification.

Author

You, Minli, Jia, Pengpeng, He, Xiaocong, Wang, Zheyu, Feng, Shangsheng, Ren, Yulin, Li, Zedong, Cao, Lei, Gao, Bin, Yao, Chunyan, Singamaneni, Srikanth, and Xu, Feng

Subjects

NUCLEIC acids, NANORODS, PRECIOUS metals, SURFACE temperature, THERMOCYCLING, ULTRASONIC effects, POLARITONS

Abstract

Fast nucleic acid (NA) amplification has found widespread biomedical applications, where high thermocycling rate is the key. The plasmon‐driven nano‐localized thermocycling around the gold nanorods (AuNRs) is a promising alternative, as the significantly reduced reaction volume enables a rapid temperature response. However, quantifying and adjusting the nano‐localized temperature field remains challenging for now. Herein, a simple method is developed to quantify and adjust the nano‐localized temperature field around AuNRs by combining experimental measurement and numerical simulation. An indirect method to measure the surface temperature of AuNRs is first developed by utilizing the temperature‐dependent stability of Authiol bond. Meanwhile, the relationship of AuNRs′ surface temperature with the AuNRs concentration and laser intensity, is also studied. In combination with thermal diffusion simulation, the nano‐localized temperature field under the laser irradiation is obtained. The results show that the restricted reaction volume (≈aL level) enables ultrafast thermocycling rate (>104 °C s−1). At last, a duplex‐specific nuclease (DSN)‐mediated isothermal amplification is successfully demonstrated within the nano‐localized temperature field. It is envisioned that the developed method for quantifying and adjusting the nano‐localized temperature field around AuNRs is adaptive for various noble metal nanostructures and will facilitate the development of the biochemical reaction in the nano‐localized environment. [ABSTRACT FROM AUTHOR]

Published

2021

43. Self‐Assembled Urchin‐Like CuWO4/WO3 Heterojunction Nanoarrays as Photoanodes for Photoelectrochemical Water Splitting.

Author

Wang, Tao, Fan, Xiaoli, Gao, Bin, Jiang, Cheng, Li, Yang, Li, Peng, Zhang, Songtao, Huang, Xianli, and He, Jianping

Subjects

HETEROJUNCTIONS, PHOTOCATHODES, CHEMICAL stability, OXIDATION of water, LIGHT absorption, SURFACE area, TUNGSTEN oxides

Abstract

With attractive visible‐light response and chemical stability, CuWO4 has emerged to be a promising candidate as a photoanode for photoelectrochemical (PEC) water oxidation. In this work, we report a one‐step hydrothermal method to prepare CuWO4‐based films directly grown on a conductive glass substrate from a stable precursor solution. By controlling the reaction duration, CuWO4/WO3 heterojunctions with urchin‐like nanoarray morphology are obtained. The CuWO4/WO3 film obtained with an optimized hydrothermal reaction time exhibits an onset potential of 0.6 V and a photocurrent density of 0.48 mA cm−2 at 1.23 V vs. RHE, which is almost five times that of bare CuWO4. The superior structure of the urchin‐like array with large surface area, optimizing film thickness for adequate light absorption and formation of heterojunctions for efficient charge separation conjointly, contributes to the improved performance as well as robust stability. [ABSTRACT FROM AUTHOR]

Published

2021

44. Amino acids are sensitive glucagon receptor‐specific biomarkers for glucagon‐like peptide‐1 receptor/glucagon receptor dual agonists.

Author

Li, Wenyu, Kirchner, Thomas, Ho, George, Bonilla, Fany, D'Aquino, Katharine, Littrell, James, Zhang, Rui, Jian, Wenying, Qiu, Xi, Zheng, Songmao, Gao, Bin, Wong, Peggy, Leonard, James N., and Camacho, Raul C.

Subjects

GLUCAGON receptors, AMINO acids, BIOMARKERS, GLUCAGON-like peptide-1 receptor, KRA, KNOCKOUT mice

Abstract

Aim: The aim of this study was to evaluate amino acids as glucagon receptor (GCGR)‐specific biomarkers in rodents and cynomolgus monkeys in the presence of agonism of both glucagon‐like peptide‐1 receptor (GLP1R) and GCGR with a variety of dual agonist compounds. Materials and methods: Primary hepatocytes, rodents (normal, diet‐induced obese and GLP1R knockout) and cynomolgus monkeys were treated with insulin (hepatocytes only), glucagon (hepatocytes and cynomolgus monkeys), the GLP1R agonist, dulaglutide, or a variety of dual agonists with varying GCGR potencies. Results: A long‐acting dual agonist, Compound 2, significantly decreased amino acids in both wild‐type and GLP1R knockout mice in the absence of changes in food intake, body weight, glucose or insulin, and increased expression of hepatic amino acid transporters. Dulaglutide, or a variant of Compound 2 lacking GCGR agonism, had no effect on amino acids. A third variant with ~31‐fold less GCGR potency than Compound 2 significantly decreased amino acids, albeit to a significantly lesser extent than Compound 2. Dulaglutide (with saline infusion) had no effect on amino acids, but an infusion of glucagon dose‐dependently decreased amino acids on the background of GLP1R engagement (dulaglutide) in cynomolgus monkeys, as did Compound 2. Conclusions: These results show that amino acids are sensitive and translatable GCGR‐specific biomarkers. [ABSTRACT FROM AUTHOR]

Published

2020

45. High‐Uniformity Threshold Switching HfO2‐Based Selectors with Patterned Ag Nanodots.

Author

Li, Yujia, Tang, Jianshi, Gao, Bin, Sun, Wen, Hua, Qilin, Zhang, Wenbin, Li, Xinyi, Zhang, Wanrong, Qian, He, and Wu, Huaqiang

Subjects

NANODOTS, BIT error rate, NONVOLATILE memory, THRESHOLD energy, THIN films

Abstract

High‐performance selector devices are essential for emerging nonvolatile memories to implement high‐density memory storage and large‐scale neuromorphic computing. Device uniformity is one of the key challenges which limit the practical applications of threshold switching selectors. Here, high‐uniformity threshold switching HfO2‐based selectors are fabricated by using e‐beam lithography to pattern controllable Ag nanodots (NDs) with high order and uniform size in the cross‐point region. The selectors exhibit excellent bidirectional threshold switching performance, including low leakage current (<1 pA), high on/off ratio (>108), high endurance (>108 cycles), and fast switching speed (≈75 ns). The patterned Ag NDs in the selector help control the number of Ag atoms diffusing into HfO2 and confine the positions to form reproducible filaments. According to the statistical analysis, the Ag NDs selectors show much smaller cycle‐to‐cycle and device‐to‐device variations (CV < 10%) compared to control samples with nonpatterned Ag thin film. Furthermore, when integrating the Ag NDs selector with resistive switching memory in one‐selector‐one‐resistor (1S1R) structure, the reduced selector variation helps significantly reduce the bit error rate in 1S1R crossbar array. The high‐uniformity Ag NDs selectors offer great potential in the fabrication of large‐scale 1S1R crossbar arrays for future memory and neuromorphic computing applications. [ABSTRACT FROM AUTHOR]

Published

2020

46. Greater macrovascular and microvascular morbidity from type 2 diabetes in northern compared with southern China: A cross‐sectional study.

Author

Wang, Li, Xing, Ying, Yu, Xinwen, Ming, Jie, Liu, Xiangyang, Li, Xiaomiao, Fu, Jianfang, Zhou, Jie, Gao, Bin, Hu, Dayi, Pan, Changyu, Ji, Linong, and Ji, Qiuhe

Subjects

TYPE 2 diabetes, CHINESE people, DIABETIC nephropathies, DIABETES complications, BLOOD lipids, BODY mass index, DIABETIC retinopathy

Abstract

Aims/Introduction: There are substantial differences in genes, diet, culture and environment between the northern and southern Chinese populations, which might influence treatment strategy and screening policy. We studied the differences in type 2 diabetes and diabetic complications between northern and southern China. Materials and Methods: We carried out a cross‐sectional survey using data from the China Cardiometabolic Registries on blood pressure, blood lipids and blood glucose in 25,398 Chinese type 2 diabetes patients. Macrovascular, microvascular and other complications were collected by self‐report or medical records, and then divided into the northern and southern groups by the boundary of the Yangtze River. Results: Northern patients were younger, and had heavier weight, greater body mass index and waist circumference, higher blood pressure, higher total cholesterol, higher low‐density lipoprotein cholesterol, and higher hemoglobin A1C. The prevalence of cardiovascular, cerebrovascular and macrovascular complications were 1.76‐fold, 1.24‐fold and 1.47‐fold more in northern than that in southern Chinese patients. In addition, the prevalence of diabetic nephropathy, retinopathy, neuropathy and microvascular complications in northern Chinese patients also increased. When stratified by age, the difference in both cardiovascular disease and ischemic stroke morbidity became significant, even in the 35–44 years age group. Conclusions: More macrovascular and microvascular complications were found in northern compared with southern patients, and the largest difference also appeared in the younger age groups <55 years, which might be meaningful to a screening and treatment strategy according to geographic differences. [ABSTRACT FROM AUTHOR]

Published

2020

47. Cross‐Linked Polyphosphazene Hollow Nanosphere‐Derived N/P‐Doped Porous Carbon with Single Nonprecious Metal Atoms for the Oxygen Reduction Reaction.

Author

Wei, Xuan, Zheng, Diao, Zhao, Ming, Chen, Hongzhong, Fan, Xun, Gao, Bin, Gu, Long, Guo, Yi, Qin, Jianbin, Wei, Jing, Zhao, Yanli, and Zhang, Guangcheng

Subjects

POROUS metals, ATOMS, TANNINS, METALS, TRANSITION metals, CARBON

Abstract

Heteroatom‐doped polymers or carbon nanospheres have attracted broad research interest. However, rational synthesis of these nanospheres with controllable properties is still a great challenge. Herein, we develop a template‐free approach to construct cross‐linked polyphosphazene nanospheres with tunable hollow structures. As comonomers, hexachlorocyclotriphosphazene provides N and P atoms, tannic acid can coordinate with metal ions, and the replaceable third comonomer can endow the materials with various properties. After carbonization, N/P‐doped mesoporous carbon nanospheres were obtained with small particle size (≈50 nm) and high surface area (411.60 m2 g−1). Structural characterization confirmed uniform dispersion of the single atom transition metal sites (i.e. Co‐N2P2) with N and P dual coordination. Electrochemical measurements and theoretical simulations revealed the oxygen reduction reaction performance. This work provides a solution for fabricating diverse heteroatom‐containing polymer nanospheres and their derived single metal atom doped carbon catalysts. [ABSTRACT FROM AUTHOR]

Published

2020

48. The Cycle Characteristics of Slurries in Chemical Mechanical Polishing (CMP) of Fused Silica.

Author

Kang, Chengxi, Gao, Bin, Guo, Dan, Luo, Haimei, and Pan, Guoshun

Subjects

*SLURRY, *FUSED silica, *X-ray photoelectron spectroscopy, *GRINDING & polishing, *SIZE reduction of materials, *SURFACE roughness

Abstract

The role of the polishing slurry is crucial in chemical mechanical polishing (CMP) of fused silica (FS). Researching on cycle characteristics of slurry contributes to exploring the deterioration mechanism and prolonging the service time. In this paper, cycle characteristics of colloidal silica slurry and ceria slurry applied in CMP of FS were investigated when the two slurries were recycled for 53 and 42 hours, respectively. The changes of the material removal rate (MRR) and surface roughness (Rq) of FS were analyzed, and the material removal mechanism of both slurries had been discussed. Scanning electron microscopy (SEM) and X‐ray photoelectron spectroscopy (XPS) were employed to interpret the changes of the slurry characteristics. The results indicate that with the increase of recycling time, decrease of pH value and increase of solid content are two common factors which affected MRR improvement for both two kinds of slurries. For colloidal silica slurry, the Rq value fluctuates probably due to unchanged sizes and deformed shapes of SiO2. For ceria slurry, the Rq value increases probably due to the size reduction of ceria particles. [ABSTRACT FROM AUTHOR]

Published

2020

49. A Self‐Terminated Operation Scheme for High‐Parallel and Energy‐Efficient Forming of RRAM Array.

Author

Feng, Yulin, Huang, Peng, Zhang, Yizhou, Shen, Wensheng, Xu, Weijie, Xiang, Yachen, Ding, Xiangxiang, Zhao, Yudi, Gao, Bin, Wu, Huaqiang, Qian, He, Liu, Lifeng, Liu, Xiaoyan, and Kang, Jinfeng

Subjects

NONVOLATILE random-access memory, RANDOM access memory, ENERGY consumption

Abstract

By introducing a capacitor in series (CST), a self‐terminated (ST) operation scheme is proposed to achieve high‐parallel forming of resistive random access memory (RRAM) array with reduced time and energy consumption. Once the RRAM cell is switched to the low‐resistance state, the current is automatically cut off by the capacitor, which can significantly improve the parallelism and energy efficiency. The wire capacitance of interconnect (Cwire) can be utilized as CST, which means there is no addition circuit or process expense for the proposed ST scheme. After successful experimental verification of the proposed ST operation scheme in 1 kb RRAM array, the performance of 1 Gb RRAM memory is evaluated, which shows × 103 improvement in forming time (from 0.6 h to 0.84 s) and × 104 improvement in energy consumption. Moreover, by experimentally leveraging the operation scheme for array forming, the operation current is reduced in subsequent switching process without deteriorating the device reliability, which demonstrates the feasibility of the proposed ST operation scheme and its potential in low power applications. [ABSTRACT FROM AUTHOR]

Published

2020

50. Three‐component non‐invasive risk score for undiagnosed diabetes in Chinese people: Development, validation and longitudinal evaluation.

Author

Woo, Yu Cho, Gao, Bin, Lee, Chi Ho, Fong, Carol Ho‐yi, Lui, David Tak‐wai, Ming, Jie, Wang, Li, Yeung, Kristy Man‐yi, Cheung, Bernard Man‐yung, Lam, Tai Hing, Janus, Edward, Ji, Qiuhe, and Lam, Karen Siu‐ling

Subjects

*CHINESE people, *GLUCOSE tolerance tests, *RECEIVER operating characteristic curves, *DIABETES, *BODY mass index

Abstract

Aims/Introduction: To develop a new non‐invasive risk score for undiagnosed diabetes in Chinese people, and to evaluate the incident diabetes risk in those with high‐risk scores, but no diabetes on initial testing. Materials and Methods: A total of 2,609 participants with no known diabetes (aged 25–74 years) who underwent oral glucose tolerance tests in Hong Kong (HK) were investigated for independent risk factors of diabetes to develop a categorization point scoring system, the Non‐invasive Diabetes Score (NDS). This NDS was validated in a cross‐sectional study of 2,746 participants in Shaanxi, China. HK participants tested to not have diabetes at baseline were assessed for subsequent incident diabetes rates. Results: In the HK cohort, hypertension, age and body mass index were the key independent risk factors selected to develop the NDS, with ≥28 out of 50 NDS points considered as high risk. The area under the receiver operating characteristic curve for undiagnosed diabetes was 0.818 and 0.720 for the HK and Shaanxi cohort, respectively. The negative predictive value was 97.4% (HK) and 95.8% (Shaanxi); the number needed to screen to identify one case of diabetes was five (HK) and 11 (Shaanxi), respectively. Among those that tested non‐diabetes at baseline, individuals with NDS ≥28 had a threefold risk of incident diabetes during the subsequent 20.9 years, compared with those with NDS <28 (P < 0.001), with a steeper rise in incident diabetes observed in those with NDS at higher tertiles. Conclusions: This new three‐component risk score is a user‐friendly tool for diabetes screening, and might inform the subsequent testing interval for high‐risk non‐diabetes individuals. [ABSTRACT FROM AUTHOR]

Published

2020