Your search keyword '"Guo, Fan"' showing total 270 results

101. A three-dimensional π-electron acceptor, tri-phenyl-o-carborane, bearing a rigid conformation with end-on phenyl units.

Author

Jin, Guo Fan, Hwang, Jo-Hyun, Lee, Jong-Dae, Wee, Kyung-Ryang, Suh, Il-Hwan, and Kang, Sang Ook

Subjects

*ELECTROPHILES, *CARBORANES, *PHENYL compounds, *CARBON, *SINGLE crystals, *CARBON-carbon bonds

Abstract

Electron accepting capability is greatly improved for B-phenylated tri-phenyl-o-carborane (1) through a favorable electronic interaction between the two adjoining phenyl-π* and cage carbon-σ* orbitals. [ABSTRACT FROM AUTHOR]

Published

2013

102. RNA helicase A as co-factor for DNA viruses during replication.

Author

Guo, Fan and Xing, Li

Subjects

*EPSTEIN-Barr virus, *RNA helicase, *DNA viruses, *KAPOSI'S sarcoma-associated herpesvirus, *VIRAL replication, *VIRAL proteins, *DNA replication

Abstract

• RHA is involved in a variety of biological processes. • RHA associates with DNA viruses including HAdV, HCMV, MYXV, EBV, KSHV, and HBV. • CREB-mediated transcriptional activity is inhibited by EBV SM or KSHV vPK. • RHA participates in replication of HBV via multiple mechanisms. RNA helicase A (RHA) is a ubiquitously expressed DExH-box helicase enzyme that is involved in a wide range of biological processes including transcription, translation, and RNA processing. A number of RNA viruses recruit RHA to the viral RNA to facilitate virus replication. DNA viruses contain a DNA genome and replicate using a DNA-dependent DNA polymerase. RHA has also been reported to associate with some DNA viruses during replication, in which the enzyme acts on the viral RNA or protein products. As shown for Epstein-Barr virus and Kaposi's sarcoma-associated herpesvirus, RHA has potential to allow the virus to control a switch in cellular gene expression to modulate the antiviral response. While the study of the interaction of RHA with DNA viruses is still at an early stage, preliminary evidence indicates that the underlying molecular mechanisms are diverse. We now review the current status of this emerging field. [ABSTRACT FROM AUTHOR]

Published

2021

103. Hybrid kernel approach to Gaussian process modeling with colored noises.

Author

Li, Zhenxing, Guo, Fan, Chen, Lei, Hao, Kuangrong, and Huang, Biao

Subjects

*GAUSSIAN processes, *KERNEL (Mathematics), *KRIGING, *PARTICLE swarm optimization, *NOISE, *TIME series analysis, *PARAMETRIC modeling

Abstract

• Traditional Gaussian Process Regression models typically assume independent identically distributed noises for all observations. However, applications with colored noises/disturbances frequently arise in modeling of complex processes. • We modeled the colored noise by an ARMA time series model and determined its covariance for subsequent Gaussian Process modeling. • A novel approach based on hybrid kernels is proposed, thereby avoiding parametric modeling of the colored noises. • A synthetic data, a simulated example and a polyester polymerization process were used to demonstrate the effectiveness of the proposed approach. Traditional Gaussian Process Regression (TGPR) models typically assume independent identically distributed (i.i.d.) noises for all observations. However, applications with colored noises/disturbances frequently arise in modeling of complex processes. In this work, first, we consider to model noise by an ARMA time series model and determine its covariance for subsequent Gaussian Process (GP) modeling. Then a novel approach based on hybrid kernels is proposed, thereby avoiding parametric modeling of the colored noises. Moreover, all hyper-parameters are estimated simultaneously by using a particle swarm optimization (PSO) algorithm. Finally, a synthetic data, a simulated example, as well as a polyester polymerization process are used to demonstrate the effectiveness of the proposed approach. [ABSTRACT FROM AUTHOR]

Published

2020

104. Pharmacological inhibition of fatty acid-binding protein 4 alleviated kidney inflammation and fibrosis in hyperuricemic nephropathy.

Author

Shi, Min, Guo, Fan, Liao, Dan, Huang, Rongshuang, Feng, Yuying, Zeng, Xiaoxi, Ma, Liang, and Fu, Ping

Subjects

*FATTY acid-binding proteins, *RENAL fibrosis, *INFLAMMATION, *INFLAMMATORY mediators, *CARRIER proteins

Abstract

Hyperuricemia is an independent risk factor for chronic kidney disease (CKD). Excessive uric acid (UA) level in the blood leads to hyperuricemic nephropathy (HN), which is characterized by glomerular hypertension, arteriolosclerosis and tubulointerstitial fibrosis. Fatty acid binding protein 4 (FABP4) is a potential mediator of inflammatory responses which contributes to renal interstitial fibrosis. However, the roles of FABP4 in HN remains unknown. In the study, a mouse model of HN induced by feeding a mixture of adenine and potassium oxonate, severe kidney injury and interstitial fibrosis, as well as the increased kidney-expressed FABP4 protein level were evident, accompanied by the activation of inflammatory responses. Oral administration of BMS309403, a highly selective FABP4 inhibitor, improved renal dysfunction, inhibited the mRNA level of KIM-1 and NGAL, as well as reduced the expression of proinflammatory cytokines and fibrotic proteins in the injured kidneys. BMS309403 treatment also inhibited the FABP4 activity and further suppressed the activation of JAK2-STAT3 and NF-kB P65 signaling pathways in the hyperuricemia-injured kidneys and UA-stimulated human tubular epithelial (HK-2) cells, respectively. In summary, our study for the first time demonstrated that FABP4 played a crucial role in kidney inflammation and fibrosis via the regulation of JAK2-STAT3 and NF-kB P65 pathways in HN mice. The results suggested that FABP4 inhibition might be a promising therapeutic strategy for HN. Image 1 • Hyperuricemia is an independent risk factor for kidney inflammation and fibrosis. • FABP4 inhibition suppressed kidney inflammation and fibrosis in hyperuricemic mice. • FABP4 regulated JAK2-STAT3 and NF-κB signaling in kidneys of hyperuricemic mice. • FABP4 inhibition might be a therapeutic for hyperuricemic nephropathy. [ABSTRACT FROM AUTHOR]

Published

2020

105. A mutual information-based Variational Autoencoder for robust JIT soft sensing with abnormal observations.

Author

Guo, Fan and Huang, Biao

Subjects

*KRIGING, *DEEP learning, *EXPECTATION-maximization algorithms, *MANUFACTURING processes, *ALGORITHMS

Abstract

Considering industrial process with high-dimensional, intrinsic nonlinearities and possibly abnormal observations, a robust deep learning soft sensor model is developed under the just-in-time learning framework. As an unsupervised deep learning approach, Variational Autoencoder (VAE) has been successfully applied to soft sensing problems owing to its ability to describe the latent representations by probability distributions. In this work, to construct high performance soft sensor model, mutual information (MI) is first introduced for input variable selection. By further incorporating MI as weights on variable of the traditional VAE model, a MI-based output-relevant VAE is developed. For each new sample that arrives, by utilizing Symmetric Kullback-Leibler (SKL) divergence, its relevance with historical samples is determined. Based on the SKL divergence, the input samples that are most relevant to the query sample can be collected. The selected historical input samples and corresponding output samples are employed to build a Gaussian process regression (GPR) local model. Expectation maximation (EM) algorithm is utilized to deal with the nonlinearity and abnormal output observations in GPR local model simultaneously for robustness of the soft sensors. Numerical simulations and a benchmark process are employed to validate the effectiveness of the proposed soft sensor, which demonstrates its superior performance over traditional approaches. • A MI-based output-relevant VAE is presented by incorporating MI as weights on variable of the traditional VAE model. • The selected historical samples through SKL divergence are employed to build a GPR local model. • The abnormal output observations in GPR local model for robustness of the soft sensors is dealt with the EM algorithm. • Numerical simulations and a benchmark process are employed to validate the effectiveness of the proposed soft sensor. [ABSTRACT FROM AUTHOR]

Published

2020

106. Activation of GPR120 by TUG891 ameliorated cisplatin-induced acute kidney injury via repressing ER stress and apoptosis.

Author

Huang, Zhuo, Guo, Fan, Xia, Zijing, Liang, Yan, Lei, Song, Tan, Zhouke, Ma, Liang, and Fu, Ping

Subjects

*ACUTE kidney failure, *G protein coupled receptors, *CISPLATIN, *EPITHELIAL cells

Abstract

Diagram of TUG891 in Cisplatin-induced AKI. TUG891 modulated the activities of PERK pathway of unfolded protein response, and consequently remitting apoptosis, ER stress and inflammation in cisplatin-induced AKI. • The GPR120 expression is downregulated in the kidneys of cisplatin-induced AKI. • TUG891, a synthetic GPR120 agonist, protected against cisplatin-induced AKI. • Activation of GPR120 by TUG891 inhibited ER stress and apoptosis in cisplatin injured kidneys. Activation of G protein-coupled receptor 120 (GPR120) could inhibit apoptosis and inflammation in cerebral ischemic injury and liver ischemia-reperfusion injury. However, whether GPR120 agonism exerted potential for cisplatin-induced acute kidney injury and the involved mechanisms remained unknown. In our study, pharmacological activation of GPR120 by TUG891 treatment remarkably reduced the elevated serum creatinine level and attenuated tubular injury. Cisplatin triggered ATF6, PERK and IRE1 pathways of unfolded protein response (UPR) of ER stress in the injured kidney tissue, as well as the downstream molecules eIF2α, ATF4 and XBP1. Protein of ER stress-mediated apoptosis, CHOP, was overexpressed in the cisplatin group. Oral application of TUG891 displayed effective inhibition of ER stress and apoptosis. TUG891 treatment significantly decreased the TUNEL positive cells and the flow cytometry of HK-2 cells delineated the similar results that the apoptosis rates were considerably reduced in the TUG891 group compared to cisplatin group. Collectively, activation of GPR120 by TUG891 exhibited renal protection against cisplatin-induced AKI via suppressing ER-associated apoptosis in tubular epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2020

107. A deep learning just-in-time modeling approach for soft sensor based on variational autoencoder.

Author

Guo, Fan, Xie, Ruimin, and Huang, Biao

Subjects

*KRIGING, *NONLINEAR regression, *MANUFACTURING processes, *GAUSSIAN distribution, *DEEP learning

Abstract

This paper presents a variational autoencoder-based just-in-time (JIT) learning framework for soft sensor modeling. Just-in-Time learning is often applied for soft sensor modeling in industrial processes. However, traditional just-in-time learning methods measure the similarity based on Euclidean distance, which has not taken into consideration the uncertainty in variables. To improve traditional just-in-time learning methods, in the proposed approach, the variational autoencoder is employed to extract features from input data set containing noise. Each feature variable is expressed by a Gaussian distribution. Then, by using the distribution of each feature variable, Kullback-Leibler divergence is employed to evaluate the similarity between the historical samples and a query sample. Furthermore, historical samples that are most similar to the query samples based on the values of the Kullback-Leibler divergence are selected for modeling. Finally, Gaussian process regression as a nonlinear regression model, is used to model the relationship between the selected input samples and the corresponding output samples, and then make a prediction. A numerical example as well as application on a practical debutanizer industrial process demonstrates the effectiveness of the proposed method. • Variational autoencoder is employed to extract the distribution of each feature variable. • Kullback-Leibler divergence is employed to evaluate the similarity between the historical samples and a query sample. • Gaussian process regression is used to build model based on the selected samples, and then make a prediction. • The effectiveness of the proposed method is demonstrated through a numerical example and an industrial process. [ABSTRACT FROM AUTHOR]

Published

2020

108. Flavonoid fisetin alleviates kidney inflammation and apoptosis via inhibiting Src-mediated NF-κB p65 and MAPK signaling pathways in septic AKI mice.

Author

Ren, Qian, Guo, Fan, Tao, Sibei, Huang, Rongshuang, Ma, Liang, and Fu, Ping

Subjects

*INTENSIVE care patients, *KIDNEYS, *BLOOD urea nitrogen, *ACUTE kidney failure, *APOPTOSIS

Abstract

Schematic diagram of fisetin in LPS-induced septic AKI. Fisetin modulated the activities of TLR4/Src-mediated NF-κB p65 and MAPK pathways, thus alleviating kidney inflammation and apoptosis in LPS-induced septic AKI. • Fisetin is a polyphenolic flavonoid in many fruits and vegetables. • Fisetin alleviated kidney injury against LPS-induced septic AKI. • Fisetin inhibited LPS-induced kidney inflammation and apoptosis. • Fisetin inhibited renal Src-mediated NF-κB and MAPK signalling pathways in LPS-induced septic AKI. Sepsis is defined as end-organ dysfunction resulting from the host's inflammatory response to infection. One of the most common sepsis-injured organs is the kidneys, resulting in acute kidney injury (AKI) that contributes to the high morbidity and mortality, especially patients in the intensive care unit. Fisetin, a naturally occurring flavonoid, has been reported to protect against the rat of lipopolysaccharide (LPS)-induced acute lung injury. However, the effect of fisetin on septic AKI remains unknown. The current study proposed to systematically investigate the renoprotective effects and the underlying mechanisms of fisetin in septic AKI mice. The model of septic AKI was established on male C57BL/6 J mice by a single intraperitoneal injection of LPS (10 mg/kg). Fisetin was administrated by gavage at 100 mg/kg for 3 consecutive days before LPS injection and the mice were sacrificed at 16 h after LPS injection. The serum and kidney samples were evaluated for biochemical analysis, histopathological examinations as well as inflammation and apoptosis related gene/protein expression. Pretreatment with fisetin significantly alleviated the elevated levels of serum creatinine and blood urea nitrogen in LPS-treated mice. Consistently, LPS induced renal damage as implied by histopathological score and the increased injury markers NGAL and KIM-1, which was attenuated by fisetin. Meanwhile, LPS injection triggered proinflammatory cytokine production and inflammation related proteins in the kidneys. However, fisetin inhibited renal expression of IL-6, IL-1β, TNF-α, HMGB1, iNOS and COX-2 to improve inflammatory response. Furthermore, fisetin effectively reduced the number of TUNEL positive apoptotic cells and suppressed apoptotic protein of Bcl-2, BAX and cleaved caspase-3 in the kidneys of LPS-induced septic AKI. Mechanistically, LPS stimulated the expression of TLR4 and the phosphorylation of NF-κB p65, MAPK (p38, ERK1/2 and JNK), Src and AKT in the injured kidneys, while fisetin notably suppressed the corresponding protein expression. Fisetin alleviated kidney inflammation and apoptosis to protect against LPS-induced septic AKI mice via inhibiting Src-mediated NF-κB p65 and MAPK signaling pathways [ABSTRACT FROM AUTHOR]

Published

2020

109. Failure behavior of dielectric films for peaking capacitor subjected to surface flashover under nanosecond pulses.

Author

Chen, Zhiqiang, Sun, Jinru, Dong, Ziyi, Ren, Jiaxin, Jia, Wei, Guo, Fan, Xie, Linshen, Wu, Wei, and Yao, Xueling

Subjects

*DIELECTRIC films, *FLASHOVER, *SURFACE charges, *BREAKDOWN voltage, *POLYMER films, *AIR pressure

Abstract

The flashover failure and damage of polypropylene (PP) and polyester (PET) films under nanosecond current pulses were experimentally investigated. A nanosecond pulse current test platform was established to study the flashover characteristics, performance degradation, and structural damage of dielectric films under repeated nanosecond current pulses. The accumulation and emission of surface charge influenced by field distortion and trap distribution were analyzed to clarify the mechanism by which the flashover voltage increases linearly with gas pressure at low pressure and saturates at high pressure. The significant effects of pulse energy, gas pressure, and discharge gap on film damage behavior were investigated. The damage pattern of PP and PET films includes surface deformation, reduced flash-voltage tolerance, molecular chain breakage, and group shedding. The damage of PP films is manifested as fine furrows, while PET corresponds to mountainous bumps. With the increasing number of discharges, the breakdown voltage of PP films decreased significantly, while the flash tolerance performance of PET films was more stable. Under the conditions of high pulse current amplitude, small discharge gap, and low air pressure, the damage degree of the film intensifies, which is characterized by severe destruction to the molecular structure and a significant decrease in flashover withstand voltage. Polymer films, flashover, nanosecond current pulses; performance degradation; microstructural damage. [ABSTRACT FROM AUTHOR]

Published

2023

110. Particle Acceleration by Magnetic Reconnection in Geospace.

Author

Oka, Mitsuo, Birn, Joachim, Egedal, Jan, Guo, Fan, Ergun, Robert E., Turner, Drew L., Khotyaintsev, Yuri, Hwang, Kyoung-Joo, Cohen, Ian J., and Drake, James F.

Subjects

*MAGNETIC reconnection, *PARTICLE acceleration, *MAGNETIC particles, *PARTICLE motion, *SOLAR wind, *MAGNETOSPHERE

Abstract

Particles are accelerated to very high, non-thermal energies during explosive energy-release phenomena in space, solar, and astrophysical plasma environments. While it has been established that magnetic reconnection plays an important role in the dynamics of Earth's magnetosphere, it remains unclear how magnetic reconnection can further explain particle acceleration to non-thermal energies. Here we review recent progress in our understanding of particle acceleration by magnetic reconnection in Earth's magnetosphere. With improved resolutions, recent spacecraft missions have enabled detailed studies of particle acceleration at various structures such as the diffusion region, separatrix, jets, magnetic islands (flux ropes), and dipolarization front. With the guiding-center approximation of particle motion, many studies have discussed the relative importance of the parallel electric field as well as the Fermi and betatron effects. However, in order to fully understand the particle acceleration mechanism and further compare with particle acceleration in solar and astrophysical plasma environments, there is a need for further investigation of, for example, energy partition and the precise role of turbulence. [ABSTRACT FROM AUTHOR]

Published

2023

111. Development of a 3 MV coaxial peaking capacitor for large-scale electromagnetic pulse simulator.

Author

Chen, Zhi-Qiang, Jia, Wei, Wu, Wei, Mei, Kai-Sheng, Guo, Fan, Cheng, Le, Wang, Yi, Xie, Lin-Shen, Wu, Gang, Wang, Ge-Fei, Shi, Yue-Wu, and Wang, Wei

Subjects

*ELECTROMAGNETIC pulses, *CAPACITORS, *FLASHOVER, *DIELECTRIC films, *ELECTRIC fields, *SURFACE morphology, *SURFACE analysis

Abstract

Coaxial peaking capacitor is a key component in high-altitude electromagnetic pulse (EMP) simulators with fast front pulse output. It poses significant technical and engineering challenges in limiting radiation field amplitude and test space. This paper presents the design and testing of a 180 pF, 3 MV coaxial peaking capacitor with improved insulation performance. In the insulation design, the length of the dielectric film is extended to reduce the background electric field on the flashover path. The electric field threshold obtained from image diagnosis is used as a reference. During capacitor testing, the insulation characteristics are diagnosed using both direct and indirect methods. The voltage measured by a D-dot probe, the output waveform of the Marx generator in the primary source, and the radiation field waveform are analyzed to understand the flashover characteristics of the capacitor and to improve the reliability of the test results. The experimental results demonstrate that the peaking capacitor can operate stably at 3.0 MV. If flashover occurring on the dropping edge of the pulse is permitted, the operating voltage can be greater than 3.7 MV without significantly affecting the radiation field waveform. The analysis on the surface flashover morphology of the peaking capacitor reveals that the flashover mainly occurs at the dropping edge of the capacitor's waveform, indicating that the damage to the film is not serious. This research significantly increases the working voltage of coaxial peaking capacitors and contributes to the development of high-altitude EMP simulation technology. [ABSTRACT FROM AUTHOR]

Published

2023

112. Biodegradable cellulose/curcumin films with Janus structure for food packaging and freshness monitoring.

Author

Wang, Weiquan, Liu, Xuewen, Guo, Fan, Yu, Yuxuan, Lu, Jinqing, Li, Yiling, Cheng, Qiaoyun, Peng, Jinping, and Yu, Goubin

Subjects

*PACKAGING materials, *FOOD packaging, *BIODEGRADABLE materials, *CURCUMIN, *PLASTICS, *SMART materials, *CELLULOSE

Abstract

The development of renewable, hydrophobic, and biodegradable intelligent packaging materials as an alternative to petroleum-based plastic products has become a new research focus in recent years, but remains a challenge. Herein, regenerated cellulose/curcumin composite films were fabricated by dispersing hydrophobic curcumin uniformly in a hydrophilic cellulose matrix using an aqueous alkali/urea solvent based on the pH-driven principle of curcumin. In addition, a unilateral hydrophobic modification was carried out using chemical vapor deposition of methyltrichlorosilane to obtain Janus structure. The composite films exhibited high transparency in the visible light spectrum, excellent antioxidation, thermal stability, mechanical strength, gas barrier properties, and antibacterial activity. Furthermore, the films demonstrated the capability to lower the overall levels of volatile basic nitrogen in stored fish. The color of the films shifted from a pale yellow to a reddish-brown over time during storage. The composite films can be completely degraded after approximately 98 days in soil with an average environmental temperature of 29 °C. This work provided a facile strategy to prepare biodegradable cellulose/curcumin films with Janus structure as packaging materials which could preserve the freshness of food products while offering visual monitor of their freshness in real-time. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

113. Disrupted structural covariance network in first episode schizophrenia patients: Evidence from a large sample MRI-based morphometric study.

Author

Zhang, Xiao, Liu, Wenming, Guo, Fan, Li, Chen, Wang, Xingrui, Wang, Huaning, Yin, Hong, and Zhu, Yuanqiang

Subjects

*GRAY matter (Nerve tissue), *PEOPLE with schizophrenia, *ANALYSIS of covariance, *COGNITION disorders, *PREFRONTAL cortex

Abstract

Background: Recent progress in neuroscience research has provided evidence that schizophrenia is a disease that involves dysconnectivity of brain networks. Widespread gray matter loss was commonly observed but how these gray matter abnormalities are characterized at the large-scale network-level in schizophrenia, especially patients with first-episode (FE-SCZ) remains unclear.Methods: In this study, gray matter structural network aberrations were investigated by applying structural covariance network analysis to 193 first episode schizophrenia patients and 178 age and gender-matched healthy controls (HCs). The mean gray matter volume in seed regions relating to eight specific networks (visual, auditory, sensorimotor, speech, semantic, default-mode, executive control, and salience) were extracted, and voxel-wise analyses of covariance were conducted to compare the association between whole-brain gray matter volume and each seed region for FE-SCZ and HCs.Results: The auditory network was less extended in FE-SCZ compared with HCs, with a significant decrease in the structural association between the Hesch's gyrus and the middle frontal gyrus and the superior frontal gyrus. Hyperconnectivity was observed in executive control network with a significant increase in the structural association between the dorsal lateral prefrontal cortex and the superior frontal gyrus and supplementary motor area.Conclusion: Our research shows that seed based structural covariance analysis can well characterize multiple large-scale networks, the observed changes might underly the hallucinations and cognitive impairments observed in FE-SCZ. Given that these patients were experiencing their first episode of schizophrenia, our findings suggest that such structural network deficits are present at an early stage in this disorder. [ABSTRACT FROM AUTHOR]

Published

2020

114. Exploring the Acceleration Mechanisms for Particle Injection and Power-law Formation during Transrelativistic Magnetic Reconnection.

Author

Kilian, Patrick, Li, Xiaocan, Guo, Fan, and Li, Hui

Subjects

*MAGNETIC reconnection, *PARTICLE acceleration, *ELECTRIC field effects, *ELECTRIC fields, *MAGNETIC fields

Abstract

Magnetic reconnection in the relativistic and transrelativistic regimes is able to accelerate particles to hard power-law energy spectra f ∝ γ−p (approaching p = 1). The underlying acceleration mechanism that determines the spectral shape is currently a topic of intense investigation. By means of fully kinetic plasma simulations, we carry out a study of particle acceleration during magnetic reconnection in the transrelativistic regime of a proton–electron plasma. While earlier work in this parameter regime has focused on the effects of electric field parallel to the local magnetic field on the particle injection (from thermal energy to the lower-energy bound of the power-law spectrum), here we examine the roles of both parallel and perpendicular electric fields to gain a more complete understanding on the injection process and further development of a power-law spectrum. We show that the parallel electric field does contribute significantly to particle injection, and is more important in the initial phase of magnetic reconnection. However, as the simulation proceeds, the acceleration by the perpendicular electric field becomes more important for particle injection and completely dominates the acceleration responsible for the high-energy power-law spectrum. This holds robustly, in particular for longer reconnection times and larger systems, i.e., in simulations that are more indicative of the processes in astrophysical sources. [ABSTRACT FROM AUTHOR]

Published

2020

115. Synergistic Effect of CdS and NH2‐UiO‐66 on Photocatalytic Reduction of CO2 under Visible Light Irradiation.

Author

Xie, Xia‐Fei, Dao, Xiao‐Yao, Guo, Fan, Zhang, Xiao‐Yu, Wang, Fang‐Ming, and Sun, Wei‐Yin

Subjects

*PHOTOREDUCTION, *VISIBLE spectra, *PHOTOCATALYSIS, *CARBON dioxide reduction, *CHARGE exchange, *ENERGY shortages, *GLOBAL warming

Abstract

Photocatalytic reduction of CO2 has drawn much attention as a promising way that can effectively alleviate the issue of global warming and energy crisis. In this work, we fabricated a series of CdS/NH2‐UiO‐66 composites with varied CdS amounts and tested their capacity for photocatalytic reduction of CO2. The reactions were performed in a solvent‐free system and displayed excellent selectivity for CO production without liquid phase products. When the content of CdS in the composite is up to 40 %, the hybrid catalyst produces 105.41 μmol/g within 6 h, exhibiting remarkable photocatalytic performance, which is much higher than that catalyzed by mechanically mixed CdS and NH2‐UiO‐66. The brilliant catalytic performance of the composite catalyst is attributed to the formation of heterostructure between the well‐dispersed CdS and NH2‐UiO‐66, which promotes the enhancement of electron transfer during photocatalysis. [ABSTRACT FROM AUTHOR]

Published

2020

116. Flashover characteristics of polypropylene films in SF6 using nanosecond pulses.

Author

Chen, Zhiqiang, Jia, Wei, Guo, Fan, Ji, Shengchang, Xie, Linshen, and Wu, Wei

Subjects

*POLYPROPYLENE films, *FLASHOVER, *SPACE charge, *SURFACE charges, *INDUCTIVE effect, *SPATIAL behavior

Abstract

The surface flashover characteristics of BOPP (biaxial-oriented polypropylene) films in SF 6 under nanosecond-pulsed voltages are experimentally investigated in this research by using finger electrodes and using the front-edge flashover method. The test factors include the gas pressure, electrode distance, pulse voltage steepness, pulse polarity and applied field direction. The flashover voltage first increases with gas pressure and then saturates at a certain value, such as 0.4 MPa for a 9 mm gap. The more serious the field distortion is, the lower the saturation gas pressure. The increase in the pulse voltage steepness enhances the flashover voltage in general, but a frap phenomenon of the flashover voltage occurs, and the flashover voltages under pulses with steeper fronts are lower at some pressures. Generally, the negative flashover voltage is higher than a positive voltage by using finger-cuboid electrodes, especially at high pressures. The flashover voltage on the film surface with a normal electrical field component is higher than that with a parallel component at low pressures and lower at high pressures. Moreover, a qualitative avalanche model based on the accumulation and emission of surface charges on the films and the field distortion effect of space charge behaviors is employed to explain the above experimental results. [ABSTRACT FROM AUTHOR]

Published

2020

117. 2-methylquinazoline derivative F7 as a potent and selective HDAC6 inhibitor protected against rhabdomyolysis-induced acute kidney injury.

Author

Liu, Jing, Cui, Xue, Guo, Fan, Li, Xinrui, Li, Lingzhi, Pan, Jing, Tao, Sibei, Huang, Rongshuang, Feng, Yanhuan, Ma, Liang, and Fu, Ping

Subjects

*ACUTE kidney failure, *PROXIMAL kidney tubules, *NICOTINAMIDE, *EPITHELIAL cells, *TUBULINS, *HISTONE acetylation

Abstract

Histone deacetylases 6 (HDAC6) has been reported to be involved in the pathogenesis of rhabdomyolysis-induced acute kidney injury (AKI). Selective inhibition of HDAC6 activity might be a potential treatment for AKI. In our lab, N-hydroxy-6-(4-(methyl(2-methylquinazolin-4-yl)amino)phenoxy)nicotinamide (F7) has been synthesized and inhibited HDAC6 activity with the IC50 of 5.8 nM. However, whether F7 possessed favorable renoprotection against rhabdomyolysis-induced AKI and the involved mechanisms remained unclear. In the study, glycerol-injected mice developed severe AKI symptoms as indicated by acute renal dysfunction and pathological changes, accompanied by the overexpression of HDAC6 in tubular epithelial cells. Pretreatment with F7 at a dose of 40 mg/kg/d for 3 days significantly attenuated serum creatinine, serum urea, renal tubular damage and suppressed renal inflammatory responses. Mechanistically, F7 enhanced the acetylation of histone H3 and α-tubulin to reduce HDAC6 activity. Glycerol-induced AKI triggered multiple signal mediators of NF-κB pathway as well as the elevation of ERK1/2 protein and p38 phosphorylation. Glycerol also induced the high expression of proinflammatory cytokine IL-1β and IL-6 in kidney and human renal proximal tubule HK-2 cells. Treatment of F7 notably improved above-mentioned inflammatory responses in the injured kidney tissue and HK-2 cell. Overall, these data highlighted that 2-methylquinazoline derivative F7 inhibited renal HDAC6 activity and inflammatory responses to protect against rhabdomyolysis-induced AKI. [ABSTRACT FROM AUTHOR]

Published

2019

118. Variation and Saturated Phenomena of Polypropylene Film Flashover Voltage Under Different SF6 Pressures.

Author

Chen, Zhiqiang, Jia, Wei, Guo, Fan, Li, Junna, Wu, Wei, and Ji, Shengchang

Subjects

*POLYPROPYLENE films, *FLASHOVER, *PRESSURE, *ELECTRIC potential, *ELECTROMAGNETIC pulses, *SURFACE charges

Abstract

In the practical operation of an electromagnetic pulse (EMP) simulator, the flashover phenomenon on the edge of polypropylene dielectrics dominates the insulation failure mode of a peaking capacitor. To analyze the characteristics of polypropylene film flashover voltage under high-pressure SF6, an experimental platform was established, and the pulse generator could output a pulse with a rise time of approximately 27 ns. The experiments were performed on finger electrodes, and the SF6 pressure was set from 0.1 to 1.0 MPa. The experimental results show that the relationship of flashover voltage and gas pressure could be divided into two regions: in low-pressure regions, the flashover voltage increases with the gas pressure linearly and in high-pressure regions, the growth of flashover voltage gradually slows down and approaches a saturation value. As the gap distance increases, the saturation point of gas pressure decreases, and even when close to 0.4 MPa, with a 9-mm gap distance, this unconventional phenomenon cannot be ignored, particularly in practical EMP simulators. When the high surface resistivity and the charge trap distribution on the polypropylene film are considered, the accumulation and emission of surface charges on the film might be the primary reason for the saturated phenomena. [ABSTRACT FROM AUTHOR]

Published

2019

119. Smartphone-Enabled Fluorescence and Colorimetric Platform for the On-Site Detection of Hg 2+ and Cl − Based on the Au/Cu/Ti 3 C 2 Nanosheets.

Author

Chen, Keyan, Fu, Shiqi, Jin, Chenyu, Guo, Fan, He, Yu, Ren, Qi, and Wang, Xuesheng

Subjects

*COPPER, *FLUORESCENCE, *COLORIMETRIC analysis, *GOLD nanoparticles, *MERCURY, *NANOSTRUCTURED materials, *COPPER-titanium alloys, *COPPER chlorides

Abstract

Smartphone-assisted fluorescence and colorimetric methods for the on-site detection of Hg2+ and Cl− were established based on the oxidase-like activity of the Au–Hg alloy on the surface of Au/Cu/Ti3C2 NSs. The Au nanoparticles (NPs) were constructed via in-situ growth on the surface of Cu/Ti3C2 NSs and characterized by different characterization techniques. After the addition of Hg2+, the formation of Hg–Au alloys could promote the oxidization of o-phenylenediamine (OPD) to generate a new fluorescence emission peak of 2,3-diaminopenazine (ADP) at 570 nm. Therefore, a turn-on fluorescence method for the detection of Hg2+ was established. As the addition of Cl− can influence the fluorescence of ADP, the fluorescence intensity was constantly quenched to achieve the continuous quantitative detection of Cl−. Therefore, a turn-off fluorescence method for the detection of Cl− was established. This method had good linear ranges for the detection of Hg2+ and Cl− in 8.0–200.0 nM and 5.0–350.0 µM, with a detection limit of 0.8 nM and 27 nM, respectively. Depending on the color change with the detection of Hg2+ and Cl−, a convenient on-site colorimetric method for an analysis of Hg2+ and Cl− was achieved by using digital images combined with smartphones (color recognizers). The digital picture sensor could analyze RGB values in concentrations of Hg2+ or Cl− via a smartphone app. In summary, the proposed Au/Cu/Ti3C2 NSs-based method provided a novel and more comprehensive application for environmental monitoring. [ABSTRACT FROM AUTHOR]

Published

2023

120. Development and Research of a Medium Vertical Dipole Electromagnetic Pulse Simulator.

Author

Jia, Wei, Mei, Kaisheng, Cheng, Le, Wu, Wei, Chen, Zhiqiang, Guo, Fan, Wang, Yi, Shi, Ling, Wang, Wei, Shi, Yuewu, Zhu, Xiangqin, Wu, Gang, and Li, Yaoyao

Subjects

*ELECTROMAGNETIC pulses, *ELECTROMAGNETIC radiation, *ANTENNAS (Electronics), *RESEARCH & development, *ELECTROMAGNETIC fields

Abstract

In this paper, the design of a self-developed EMP simulator with a 5 m height and an inverted conducting mono-cone antenna with a cone half-angle of 32° is introduced. The experimental region of the simulator is a circular area of 25 m in diameter around the cone vertex. Two feeding modes, feed-in over the ground and feed-in under the ground, are realized by two different high-voltage pulse sources. It can be concluded through radiation field testing that the radiation field waveform generated by the simulator has a rise time of 2–3 ns and a half-width of about 25 ns, meeting the specifications of the EMP experimental waveform in the IEC61000-2-9 standard. Meanwhile, the differences between the engineering implementation of the simulator and its ideal structure during the design process can lead to some distortion issues in the antenna radiation characteristics and the electromagnetic radiation field it generates. The radiation field waveform and the distribution of the EMP field generated by the simulator under different feeding methods, antenna wire quantities, antenna end processing methods, and different antenna resistive loading were studied, and the changes in the radiation field waveform and field distribution with different angles and distances of the monitoring point were analyzed. Based on the measurement results, the radiation characteristics of the antenna and the factors that affect the waveform of the field were studied and analyzed. Through the aforementioned work, a comprehensive understanding of the performance, radiation characteristics, and engineering factors affecting the electromagnetic environment generated by the simulator has been obtained. On this basis, the parameters of the antenna wire quantity, antenna end processing method, and test point position of the designed simulator were reconfirmed and optimized. In summary, this work has important reference significance for mastering the development technology of such simulators, understanding their antenna radiation characteristics, and conducting EMP-related assessments and effect experiments in the future. [ABSTRACT FROM AUTHOR]

Published

2023

121. An aggregation of human embryonic and trophoblast stem cells reveals the role of trophectoderm on epiblast differentiation.

Author

Wu, Xulun, Zhao, Wentao, Wu, Hao, Zhang, Qiancheng, Wang, Yiming, Yu, Kunyuan, Zhai, Jinglei, Mo, Fan, Wang, Meijiao, Li, Shiwen, Zhu, Xili, Liang, Xiaoyan, Hu, Baoyang, Liu, Guang‐Hui, Wu, Jun, Wang, Hongmei, Guo, Fan, and Yu, Leqian

Subjects

*HUMAN embryonic stem cells, *TROPHOBLAST, *EPIBLAST, *GASTRULATION, *FETAL tissues, *HUMAN stem cells, *HUMAN embryos

Abstract

The interactions between extra‐embryonic tissues and embryonic tissues are crucial to ensure proper early embryo development. However, the understanding of the crosstalk between the embryonic tissues and extra‐embryonic tissues is lacking, mainly due to ethical restrictions, difficulties in obtaining natural human embryos, and lack of appropriate in vitro models. Here by aggregating human embryonic stem cells (hESCs) with human trophoblast stem cells (hTSCs), we revealed the hESCs robustly self‐organized into a unique asymmetric structure which the primitive streak (PS) like cells exclusively distributed at the distal end to the TS‐compartment, and morphologically flattened cells, presumed to be the extra‐embryonic mesoderm cells (EXMC) like cells, were induced at the proximal end to hTSCs. Our study revealed two potential roles of extra‐embryonic trophectoderm in regulating the proper PS formation during gastrulation and EXMCs induction from the human epiblast. [ABSTRACT FROM AUTHOR]

Published

2023

122. Different functional group modified zirconium frameworks for the photocatalytic reduction of carbon dioxide.

Author

Wei, Yuan-Ping, Liu, Yi, Guo, Fan, Dao, Xiao-Yao, and Sun, Wei-Yin

Subjects

*CARBON dioxide reduction, *PHOTOREDUCTION, *FUNCTIONAL groups, *ZIRCONIUM, *METAL-organic frameworks, *CARBON dioxide

Abstract

Conversion of carbon dioxide (CO2) into useful chemicals is an important and urgent task from the energy and environment perspective. Herein, through a post-synthetic modification (PSM) approach, we synthesized three new metal–organic frameworks (MOFs) UiO-68-PSMs with different functional groups, namely, UiO-68-F, UiO-68-CH3 and UiO-68-OCH3, for the photocatalytic reduction of CO2. By introducing electron-withdrawing and electron-donating groups, UiO-68-PSMs showed different performance for the selective photocatalytic reduction of CO2 to CO because of change in charge separation and band gap of UiO caused by the presence of different functional groups. [ABSTRACT FROM AUTHOR]

Published

2019

123. Controlled synthesis of NbO-type metal-organic framework nano/microcrystals with superior capacity and selectivity for dye adsorption from aqueous solution.

Author

Qi, Zhao-Peng, Kang, Yan-Shang, Guo, Fan, and Sun, Wei-Yin

Subjects

*AQUEOUS solutions, *MICROCRYSTALLINE polymers, *METAL organic chemical vapor deposition, *METHYLENE blue, *HEMATITE

Abstract

Abstract NbO-type MOF nano/microcrystals were facilely achieved by tuning the volume ratio of DMF and H 2 O mixed solvent under solvothermal conditions. It was found that NOTT-102 rhombohedral sample obtained with DMF:H 2 O volume ratio of 15:5 has the largest BET surface area (3006 m2 g−1), compared to the samples with the DMF:H 2 O volume ratio of 12:8 (2263 m2 g−1) and 20:0 (1962 m2 g−1) as well as the bulk NOTT-102, namely [Cu 2 (QPTC)] (H 4 QPTC = [1,1':4′,1″:4″,1‴-quaterphenyl]-3,3‴,5,5‴-tetracarboxylic acid), crystals (2942 m2 g−1). Furthermore, dye adsorption results indicate that NOTT-102 rhombohedral sample exhibits superior adsorption capacity (850 mg g−1) and adsorption selectivity for methylene blue (MB) in contrast to methyl orange, rhodamine B, and acid chrome blue K dyes, which may be one of the promising candidates for potential application in removal of organic dyes from aqueous solution. Graphical abstract Image 1 Highlights • NbO-type MOF nano/microcrystals were facilely achieved by tuning the volume ratio of DMF and H 2 O. • NOTT-102 rhombohedral sample has the largest BET surface area compared to the other NOTT-102 nano/microcrystals. • NOTT-102 rhombohedral sample exhibits excellent adsorption capacity and selectivity for MB. [ABSTRACT FROM AUTHOR]

Published

2019

124. Analysis of ohmic losses in Tesla transformers utilizing the open magnetic-core.

Author

He, Shi, Li, Jun-na, Guo, Fan, Chen, Zhi-qiang, Chen, Wei-qing, and Qiu, Ai-ci

Subjects

*TESLA coils, *CAPACITORS

Abstract

For typical Tesla transformers with open magnetic-core, a novel coaxial design of the primary side using a mechanically controlled spark gap is introduced to obtain a more compact configuration. The primary winding has several alternative ports to vary the current distribution by changing the position of the capacitor component, and the entire primary circuit is built inside the outer cylinder. For this new primary configuration, we estimate the series parameters and ohmic losses: Polypropylene film capacitors and combined metallized film capacitors are used in the verification tests, and the former capacitor exhibits a lower parasitic resistance below 10 mΩ. The ohmic losses caused by the windings and spark gap are also considered. The results of the experiments show that the voltage gain has an 8.2% drop when the parasitic resistance of C1 increased from 10 mΩ to 24 mΩ, and we deduce that the contact resistance of this primary structure can be limited to below 10 mΩ according to the circuit analysis results and the verification test. [ABSTRACT FROM AUTHOR]

Published

2018

125. Particle-in-cell simulations of cathode plasma evolution in small-gap magnetically insulated transmission lines.

Author

Luo, Wei, Zhang, Jianwei, Li, Yongdong, Wang, Hongguang, Liu, Chunliang, Guo, Fan, and Zou, Wenkang

Subjects

*MONTE Carlo method, *ELECTRIC lines, *CATHODES, *PLASMA dynamics, *PLASMA instabilities, *ION mobility

Abstract

The formation and evolution of the cathode plasma in small-gap magnetically insulated transmission lines (MITLs) may lead to enormous current loss and even gap closure. This issue has been investigated through particle-in-cell/Monte Carlo collision simulations. Based on gas desorption from the cathode, the plasma is formed at the cathode when the emitted electrons collide with the desorbed gas contaminants. The expansion velocity and the electron and ion density distributions of the cathode plasma were analyzed. Rapid expansion of the plasma occurs when plasma instability increases due to a transverse magnetic mode in the MITL. Factors affecting the expansion velocity such as voltage amplitude and rate of gas desorption were examined. The simulation results indicated that a relatively high desorption rate of neutral gas resulted in a higher expansion velocity for the cathode plasma. This work extends our knowledge and understanding of cathode plasma dynamics in high-current MITLs. [ABSTRACT FROM AUTHOR]

Published

2019

126. A tool for nuclear imaging of the SARS-CoV-2 entry receptor: molecular model and preclinical development of ACE2-selective radiopeptides.

Author

Beyer, Darja, Vaccarin, Christian, Deupi, Xavier, Mapanao, Ana Katrina, Cohrs, Susan, Sozzi-Guo, Fan, Grundler, Pascal V., van der Meulen, Nicholas P., Wang, Jinling, Tanriver, Matthias, Bode, Jeffrey W., Schibli, Roger, and Müller, Cristina

Subjects

*ANGIOTENSIN converting enzyme, *ANGIOTENSIN receptors, *SARS-CoV-2, *ANIMAL models in research, *PEPTIDES, *COMPUTED tomography, *CHELATING agents, *DIAGNOSTIC imaging

Abstract

Purpose: The angiotensin converting enzyme-2 (ACE2)—entry receptor of SARS-CoV-2—and its homologue, the angiotensin-converting enzyme (ACE), play a pivotal role in maintaining cardiovascular homeostasis. Potential changes in ACE2 expression levels and dynamics after SARS-CoV-2 infection have been barely investigated. The aim of this study was to develop an ACE2-targeting imaging agent as a noninvasive imaging tool to determine ACE2 regulation. Methods: DOTA-DX600, NODAGA-DX600 and HBED-CC-DX600 were obtained through custom synthesis and labeled with gallium-67 (T1/2 = 3.26 d) as a surrogate radioisotope for gallium-68 (T1/2 = 68 min). ACE2- and ACE-transfected HEK cells were used for the in vitro evaluation of these radiopeptides. The in vivo tissue distribution profiles of the radiopeptides were assessed in HEK-ACE2 and HEK-ACE xenografted mice and imaging studies were performed using SPECT/CT. Results: The highest molar activity was obtained for [67Ga]Ga-HBED-CC-DX600 (60 MBq/nmol), whereas the labeling efficiency of the other peptides was considerably lower (20 MBq/nmol). The radiopeptides were stable over 24 h in saline (> 99% intact peptide). All radiopeptides showed uptake in HEK-ACE2 cells (36–43%) with moderate ACE2-binding affinity (KD value: 83–113 nM), but no uptake in HEK-ACE cells (< 0.1%) was observed. Accumulation of the radiopeptides was observed in HEK-ACE2 xenografts (11–16% IA/g) at 3 h after injection, but only background signals were seen in HEK-ACE xenografts (< 0.5% IA/g). Renal retention was still high 3 h after injection of [67Ga]Ga-DOTA-DX600 and [67Ga]Ga-NODAGA-DX600 (~ 24% IA/g), but much lower for [67Ga]Ga-HBED-CC-DX600 (7.2 ± 2.2% IA/g). SPECT/CT imaging studies confirmed the most favorable target-to-nontarget ratio for [67Ga]Ga-HBED-CC-DX600. Conclusions: This study demonstrated ACE2 selectivity for all radiopeptides. [67Ga]Ga-HBED-CC-DX600 was revealed as the most promising candidate due to its favorable tissue distribution profile. Importantly, the HBED-CC chelator enabled 67Ga-labeling at high molar activity, which would be essential to obtain images with high signal-to-background contrast to detect (patho)physiological ACE2 expression levels in patients. [ABSTRACT FROM AUTHOR]

Published

2023

127. Flexible Large-Area Graphene Films of 50–600 nm Thickness with High Carrier Mobility.

Author

Luo, Shiyu, Peng, Li, Xie, Yangsu, Cao, Xiaoxue, Wang, Xiao, Liu, Xiaoting, Chen, Tingting, Han, Zhanpo, Fan, Peidong, Sun, Haiyan, Shen, Ying, Guo, Fan, Xia, Yuxing, Li, Kaiwen, Ming, Xin, and Gao, Chao

Subjects

*CHARGE carrier mobility, *GRAPHENE, *SILICON diodes, *NANOFILMS, *POLYACRYLONITRILES, *GRAPHENE oxide

Abstract

Highlights: Large-area production of self-standing graphene nanofilm (~ 20 cm) through a clean 'substrate replacement' strategy. Realizing highly crystalline graphene nanofilms without micro-gasbags by introducing polymers. The graphene nanofilms demonstrate a solid light–matter interaction (photoelectric conversion in the mid-infrared and electromagnetic interference (EMI) shielding in X-band) with performance beyond state-of-the-art graphene/silicon diodes and EMI materials. Bulk graphene nanofilms feature fast electronic and phonon transport in combination with strong light–matter interaction and thus have great potential for versatile applications, spanning from photonic, electronic, and optoelectronic devices to charge-stripping and electromagnetic shielding, etc. However, large-area flexible close-stacked graphene nanofilms with a wide thickness range have yet to be reported. Here, we report a polyacrylonitrile-assisted 'substrate replacement' strategy to fabricate large-area free-standing graphene oxide/polyacrylonitrile nanofilms (lateral size ~ 20 cm). Linear polyacrylonitrile chains-derived nanochannels promote the escape of gases and enable macro-assembled graphene nanofilms (nMAGs) of 50–600 nm thickness following heat treatment at 3,000 °C. The uniform nMAGs exhibit 802–1,540 cm2 V−1 s−1 carrier mobility, 4.3–4.7 ps carrier lifetime, and > 1,581 W m−1 K−1 thermal conductivity (nMAG-assembled 10 µm-thick films, mMAGs). nMAGs are highly flexible and show no structure damage even after 1.0 × 105 cycles of folding–unfolding. Furthermore, nMAGs broaden the detection region of graphene/silicon heterojunction from near-infrared to mid-infrared and demonstrate higher absolute electromagnetic interference (EMI) shielding effectiveness than state-of-the-art EMI materials of the same thickness. These results are expected to lead to the broad applications of such bulk nanofilms, especially as micro/nanoelectronic and optoelectronic platforms. [ABSTRACT FROM AUTHOR]

Published

2023

128. Erratum: "Theoretical model for magnetically insulated flow with both negative and positive ions" [J. Appl. Phys. 126, 043301 (2019)].

Author

Luo, Wei, Qiang, Lanpeng, Zhang, Jianwei, Li, Yongdong, Wang, Hongguang, Liu, Chunliang, Guo, Fan, Zou, Wenkang, and Ma, Tianchi

Subjects

*ANIONS, *CATIONS

Published

2023

129. ChemInform Abstract: Photoinduced C-S Bond Cleavage of Thioglycosides and Glycosylation.

Author

Mao, Run‐Ze, Guo, Fan, Xiong, De‐Cai, Li, Qin, Duan, Jinyou, and Ye, Xin‐Shan

Subjects

*GLYCOSIDES, *SACCHARIDES, *ULTRAVIOLET radiation, *AMINO acids

Abstract

Activation of thioglycosides upon UV irradiation followed by cupric triflate oxidation leads to the in situ formation of an oxacarbenium ion which is able to undergo glycosylation reactions with a wide variety of substrates such as sugars, amino acids, terpenes, and sterols. [ABSTRACT FROM AUTHOR]

Published

2016

130. Therapeutic window of globular adiponectin against cerebral ischemia in diabetic mice: the role of dynamic alteration of adiponectin/adiponectin receptor expression.

Author

Song, Wenying, Guo, Fan, Zhong, Haixing, Liu, Lixin, Yang, Rui, Wang, Qiang, and Xiong, Lize

Subjects

*ADIPONECTIN, *PEPTIDE hormones, *CEREBRAL ischemia, *SMALL interfering RNA, *GENETICS, *THERAPEUTICS

Abstract

Recent studies have demonstrated that adiponectin (APN) attenuates cerebral ischemic/reperfusion via globular adiponectin (gAD). However, the therapeutic role of gAD in cerebral ischemic injury in type 1 diabetes mellitus (T1DM) remains unclear. Our results showed that gAD improved neurological scores and reduced the infarct volumes in the 8-week T1DM (T1DM-8W) mice, but not in the 2-week T1DM (T1DM-2W) mice. Moreover, the ischemic penumbra APN levels increased and peaked in T1DM-2W mice, and reduced to normal in T1DM-8W mice, while the APN receptor 1 (AdipoR1) expression change was the opposite. Administration of rosiglitazone in T1DM-2W mice up-regulated the expression of AdipoR1 and restored the neuroprotection of gAD, while intracerebroventricular injection of AdipoR1 small interfering RNA (siRNA) in T1DM-8W mice reversed it. Furthermore, the expression of p-PERK, p-IRE1 and GRP78 were increased whereas the expressions of CHOP and cleaved caspase-12 as well as the number of apoptotic neurons were decreased after gAD treatment in T1DM-8W mice. These beneficial effects of gAD were reversed by pretreatment with AdipoR1 siRNA. These results demonstrated a dynamic dysfunction of APN/AdipoR1 accompanying T1DM progression. Interventions bolstering AdipoR1 expression during early stages and gAD supplementation during advanced stages may potentially reduce the cerebral ischemic injury in diabetic patients. [ABSTRACT FROM AUTHOR]

Published

2015

131. Theoretical model for magnetically insulated flow with both negative and positive ions.

Author

Luo, Wei, Qiang, Lanpeng, Zhang, Jianwei, Li, Yongdong, Wang, Hongguang, Liu, Chunliang, Guo, Fan, Zou, Wenkang, and Ma, Tianchi

Subjects

*CATIONS, *ANIONS, *ENERGY dissipation, *ELECTRIC lines, *SPACE charge, *SODIUM ions, *CATHODES

Abstract

Negative and positive ions crossing the anode-cathode gap of a magnetically insulated transmission line (MITL) can cause non-negligible current loss and energy deposition on the electrodes, which may lead to the formation of anode plasma and the growth of cathode plasma. Furthermore, gap closure could occur due to the expansion of cathode plasma and anode plasma. In this paper, a model for magnetic insulation of both negative ion flow and positive ion flow is developed. The operating voltage V of the MITL is expressed as a function of the total current I0 and the boundary current Ib. The total current and the boundary current of the MITL are derived at saturated and self-limited flows, respectively. In addition, particle-in-cell simulations are implemented for the validation of the theoretical model. The thickness and density of the magnetically insulated ion layers are analyzed, and an empirical expression for space charge factor g is obtained through simulation results. This work extends the understanding of magnetically insulated ion flow in MITLs. [ABSTRACT FROM AUTHOR]

Published

2019

132. Magnetic insulation in a curved vacuum transmission line.

Author

Luo, Wei, Li, Yongdong, Wang, Hongguang, Liu, Chunliang, Guo, Fan, Zhang, Lei, Gu, Yu, and Zhang, Jianwei

Subjects

*THERMAL insulation, *ELECTRIC lines, *AZIMUTHAL projection (Cartography), *MAP projection, *ELECTRIC currents

Abstract

The curved structure of a coaxial magnetically insulated transmission line (MITL) causes it to generate a nonuniform azimuthal magnetic field, which can disturb the electron flow and lead to a higher current loss when compared with a straight MITL. In this paper, the current loss mechanism and nonuniformity of the azimuthal magnetic field inherent to curved MITLs are investigated using theoretical analysis and particle-in-cell simulations. Results show that the critical current for magnetic insulation of the curved MITL increases with nonuniformity of the azimuthal magnetic field. The magnitude of the azimuthal magnetic field of the curved MITL can be described by a cosine distribution, lower in the outer region and higher in the inner region of the curved MITL. Nonuniformity of the azimuthal magnetic field decreases as electron current increases. Finally, an empirical expression relating to the structural parameters of curved MITLs is obtained for nonuniformity of the azimuthal magnetic field, which can be used to estimate the critical current for magnetic insulation in curved MITLs. This work extends the understanding of magnetic insulation in curved coaxial transmission lines. [ABSTRACT FROM AUTHOR]

Published

2019

133. Brittle mechanical characteristics of hard rock exposed to moisture.

Author

Chen, Guoqing, Li, Tianbin, Guo, Fan, and Wang, Yanke

Subjects

*ROCK bursts, *BRITTLENESS, *GROUNDWATER

Abstract

Rich groundwater content can produce a complex geological environment for underground tunnels. Therefore, the brittle mechanical characteristics of hard rock exposed by tunnelling in a moist environment are of great significance. Uniaxial tests and acoustic emission (AE) analysis of sandstone with respect to different moisture conditions are described in this paper. Moisture-controlled trends of the stress-strain relationship, mechanical parameter variation, maximum instantaneous AE energy, cumulative AE energy and macro crack behaviour were analysed in detail. In addition, X-ray diffraction and scanning electron microscopy were performed to analyse the fracture surfaces of rock at the microscale. Sandstone particles were found to be more likely to slip past each other at high moisture contents, resulting in increased plastic deformation and dissipation of internal energy. Increasing moisture reduces the brittleness of hard rock and the probability of rock burst. The results reveal the mechanical mechanisms cause moisture to affect brittle hard rock and can contribute to the improvement of the design and construction of deep tunnels. [ABSTRACT FROM AUTHOR]

Published

2017

134. EPDM/GO composite insulation for anti-migration of plasticizers.

Author

Lu, Zhehong, Hu, Yubing, Zhang, Bohan, Zhang, Guangpu, Guo, Fan, and Jiang, Wei

Subjects

*PLASTICIZERS, *GRAPHENE oxide, *PROPELLANTS, *THERMAL stability, *ACTIVATION energy, *DIFFUSION coefficients

Abstract

To prevent the migration of energetic plasticizers in propellants, Graphene oxide (GO) was added as filler to the ethylene propylene diene monomer (EPDM) insulation composite by mechanical mixing. Then, the anti-migration performance was analyzed by investigating the diffusion of dioctyl sebacate using immersion tests at different temperatures. The diffusion coefficient is in the range of 10–14-10–12 m2/s, and the migration activation energy is about 60 kJ/mol. Compared with pure EPDM, the anti-migration effects of EPDM/GO-5 are increased by 15.68%, 9.23%, 8.81%, and 5.69% at 25 °C, 40 °C, 60 °C, and 80 °C, respectively. Moreover, the composite shows a 58% increase in tensile strength and a 132% improvement in the elongation at break by the addition of 5 phr filler of GO. Meanwhile, the thermal stability of the EPDM insulation is also improved with the addition of GO. [ABSTRACT FROM AUTHOR]

Published

2022

135. Density functional theory studies on direct and oxygen assisted activation of C–H bond for dry reforming of methane over Rh–Ni catalyst.

Author

Tang, Lei, Huang, Xin, Ran, Jingyu, Guo, Fan, Niu, Juntian, Qiu, Huayu, Ou, Zhiliang, Yan, Yunfei, Yang, Zhongqing, and Qin, Changlei

Subjects

*STEAM reforming, *DENSITY functional theory, *GREENHOUSE gas mitigation, *ADHESION, *CATALYSTS, *ACTIVATION energy, *RHODIUM catalysts, *METHANE

Abstract

Dry reforming of methane (DRM) with CO 2 to syngas can not only reduce the greenhouse gas emissions, but also enrich energy resources. In this study, the performances of the direct and oxygen assisted activation of C–H bond for DRM reaction by Ni(111), Rh/Ni(111) and Rh 6 /Ni(111) were studied based on density functional theory calculations. Doping of Rh to Ni weakened the adsorption strength of the intermediate on the catalyst surface and promoted the activation of C–H bond. The energy barriers of direct dissociation of CH 3 ∗ → CH 2 ∗ + H∗ and CH 2 ∗ → CH∗ + H∗ are much lower than these of oxygen assisted dissociation of CH 3 ∗ + O∗ → CH 3 O∗ and CH 2 ∗ + O∗ → CH 2 O∗ for all the three catalysts, and the optimal reaction path of DRM reaction is CH 4 ∗ → CH 3 ∗ → CH 2 ∗ → CH∗. After formation of CH∗, direct dissociation of CH∗ → C∗ is easier to happen on Ni(111) surface compared to Rh/Ni(111) and Rh 6 /Ni(111) surfaces. However, CH∗ favores the oxygen assisted dissociation of CH∗ + O∗ → CHO∗, which prevents the resistance to carbon depositions. [Display omitted] • C–H activation for DRM reaction over Rh–Ni catalyst was well-established by DFT calculations. • Doping of Rh to Ni weakened the adsorption strength and promoted the activation of C–H bond. • Direct dissociation of CH x ∗(x = 1–3) had lower energy barriers than O∗ assisted dissociation. • Rh–Ni catalysts significantly prevented carbon depositions compared to the Ni catalyst. [ABSTRACT FROM AUTHOR]

Published

2022

136. Study on the Influential Mechanism of Fluorination on the Flashover Voltage of Polypropylene Film Under Nanosecond Pulse Voltage.

Author

Lv, Zepeng, Li, Haipeng, Song, Jianhong, Chen, Zhiqiang, Jia, Wei, Guo, Fan, Wu, Kai, and Cheng, Yonghong

Subjects

*POLYPROPYLENE films, *FLUORINATION, *SURFACE conductivity, *VOLTAGE, *ELECTRIC fields, *FLASHOVER

Abstract

A polypropylene (PP) film is usually employed as the main insulation of the peaking capacitor, which is important in an electromagnetic pulse simulator to generate high-amplitude nanosecond pulse. The flashover voltage of PP films under nanosecond pulse limits the highest working voltage of a peaking capacitor. Surface fluorination was employed to increase the flashover voltage of PP. The flashover voltages of PP samples with different fluorination times (0, 4, and 6 h) were tested in an oven with nanosecond pulse voltage. The results showed that the flashover voltage of the PP film with 6-h surface fluorination was increased about 15% than the untreated film in the air. To clarify the influential mechanism, the physicochemical properties of PP film samples were tested and characterized. The results of thermally stimulated depolarization current (TSDC) showed that the trap density of the PP film increased obviously after fluorination treatment. With the increase in treatment time, the trap depth and density were increased obviously. The surface conductivity of PP films slightly decreased with the increase in fluorination time. The mechanism of surface fluorination on the influence of the flashover performance of the PP film under nanosecond pulse is discussed. It is concluded that surface fluorination significantly increases the carbon–fluorine (C–F) bond of the PP film, resulting in the increase in the depth and density of the surface trap, and then, a large amount of homocharges trapped in the surface trap reduces the electric field near the electrode. [ABSTRACT FROM AUTHOR]

Published

2022

137. PARTICLE ACCELERATION AT A FLARE TERMINATION SHOCK: EFFECT OF LARGE-SCALE MAGNETIC TURBULENCE.

Author

Guo, Fan and Giacalone, Joe

Subjects

*CHARGED particle accelerators, *SOLAR flares, *KINETIC energy, *ION cyclotron resonance spectrometry, *PARTICLE acceleration

Abstract

We investigate the acceleration of charged particles (both electrons and protons) at collisionless shocks predicted to exist in the vicinity of solar flares. The existence of standing termination shocks has been examined by flare models and numerical simulations. We study electron energization by numerically integrating the equations of motion of a large number of test-particle electrons in the time-dependent two-dimensional electric and magnetic fields generated from hybrid simulations (kinetic ions and fluid electron) using parameters typical of the solar flare plasma environment. The shock is produced by injecting plasma flow toward a rigid piston. Large-scale magnetic fluctuations—known to exist in plasmas and known to have important effects on the nonthermal electron acceleration at shocks—are also included in our simulations. For the parameters characteristic of the flaring region, our calculations suggest that the termination shock formed in the reconnection outflow region (above post-flare loops) could accelerate electrons to a kinetic energy of a few MeV within 100 ion cyclotron periods, which is of the order of a millisecond. Given a sufficient turbulence amplitude level (δB2/B20 ∼ 0.3), about 10% of thermal test-particle electrons are accelerated to more than 15 keV. We find that protons are also accelerated, but not to as high energy in the available time and the energy spectra are considerably steeper than that of the electrons for the parameters used in our simulations. Our results are qualitatively consistent with the observed hard X-ray emissions in solar flares. [ABSTRACT FROM AUTHOR]

Published

2012

138. A Model of Double Coronal Hard X-Ray Sources in Solar Flares.

Author

Kong, Xiangliang, Ye, Jing, Chen, Bin, Guo, Fan, Shen, Chengcai, Li, Xiaocan, Yu, Sijie, Chen, Yao, and Giacalone, Joe

Subjects

*HARD X-rays, *SOLAR flares, *TRANSPORT equation, *ELECTRON transport, *PARTICLE acceleration, *MAGNETIC fields, *MAGNETIC reconnection

Abstract

A number of double coronal X-ray sources have been observed during solar flares by RHESSI, where the two sources reside at different sides of the inferred reconnection site. However, where and how these X-ray-emitting electrons are accelerated remains unclear. Here we present the first model of the double coronal hard X-ray (HXR) sources, where electrons are accelerated by a pair of termination shocks driven by bidirectional fast reconnection outflows. We model the acceleration and transport of electrons in the flare region by numerically solving the Parker transport equation using velocity and magnetic fields from the macroscopic magnetohydrodynamic simulation of a flux rope eruption. We show that electrons can be efficiently accelerated by the termination shocks and high-energy electrons mainly concentrate around the two shocks. The synthetic HXR emission images display two distinct sources extending to >100 keV below and above the reconnection region, with the upper source much fainter than the lower one. The HXR energy spectra of the two coronal sources show similar spectral slopes, consistent with the observations. Our simulation results suggest that the flare termination shock can be a promising particle acceleration mechanism in explaining the double-source nonthermal emissions in solar flares. [ABSTRACT FROM AUTHOR]

Published

2022

139. Optical Diagnosis of Preionization Mechanisms and Breakdown Characteristics in a Nanosecond Switch.

Author

Wang, Tianchi, Li, Junna, Wang, Haiyang, Chen, Zhiqiang, Guo, Fan, Cheng, Le, Mei, Kaisheng, Huang, Tao, Jia, Wei, Xie, Linshen, Du, Yingchao, and Chen, Wei

Subjects

*ELECTRIC breakdown, *STRAY currents, *ELECTRIC fields, *BREAKDOWN voltage, *ELECTRIC potential measurement, *DIAGNOSIS

Abstract

Megavolt-class pulsed gas switches play an important role in large pulsers as transfer switches. This article analyzes the breakdown process and characteristics of a megavolt self-triggered preionized switch under 100-ns pulses based on the optical diagnosis. It is discovered that the triggering spark illumination targeting the main cathode or anode can separately preionize the main gap. The discharge channel is likely to first form between trigger electrodes and the main anode. Based on the above deduction, the streamer velocity is calculated to be $0.54 \times 10^{6}$ – $2.34 \times 10^{6}$ m/s, proportional to the electric field. Also, parameters of the empirical formula for calculating the gas heating time are amended. Influence mechanisms of the switch jitter are also studied. Under pulsed preionization mode, the trigger gap breaks down when the main gap electric field is high enough, and the switch jitter is mainly determined by the self-triggering jitter. Nonetheless, the self-triggering jitter can be partly offset during the breakdown process if the changing rate of mean reduced electric field $d(E/p)$ / dt at the self-triggering time is higher than 1.0 $1.0\left(\mathrm{kV} \cdot \mathrm{ns}^{-1} \cdot \mathrm{cm}^{-1} \cdot \mathrm{MPa}^{-1}\right)$. Under sustaining preionization mode, the trigger gap breaks down prematurely, and the continuous arcing driven by switch leak current preionizes the main gap. Therefore, the influence of the self-triggering jitter on the switch jitter can be eliminated. [ABSTRACT FROM AUTHOR]

Published

2022

140. Numerical Simulation of the Positive Streamer Propagation in N₂ Under Nanosecond Pulse Voltage.

Author

Zhong, Lipeng, Deng, Yongchao, Chen, Zhiqiang, Wang, Feng, Chen, She, Sun, Qiuqin, Jia, Wei, and Guo, Fan

Subjects

*VOLTAGE, *COMPUTER simulation, *HIGH voltages, *ELECTRIC potential, *BACK orders

Abstract

Numerical simulation of discharge mechanism under nanosecond pulse voltage assists in the insulation performance optimization of N2-insulated switches that are widely used in the pulse power devices. This article presents a fluid dynamic model for the positive streamer propagation in N2 based on a needle-plate discharge system. The effects of the operating conditions, such as voltage amplitude, rising edge, gap width, and needle radius, are studied. Simulating results indicate that the streamer might be evoked only when the maximum electric field exceeds the critical value that is closely influenced by the needle radius and gap width, e.g., $1.3\times 10^{7}$ V/m based on a needle-to-plate electrode configuration with a 0.4-mm tip radius and 5-mm gap. The maximum electric field occurs at the head of streamer and it drops suddenly by nearly two orders of magnitude in the back of the head, which makes the streamer moves forward rapidly. Certainly, it needs a high enough voltage to ensure continuous propagation of the streamer, for example, more than 20 kV needed as the tip radius and gap set to 0.4 and 5 mm, and the electric field strength and migration speed increase with the increasing voltage amplitude. The radius of the discharge region is smaller when the rising edge time increases from 10 to 40 ns. However, if the rising edge time is too low (e.g., 2 ns), the streamer will cease before it propagates to the plate electrode and the radius of the discharge region shrink at the same time. In addition, the peak electric field and the averaged electron energy at the same position away from the needle decrease slightly with the gap width. Finally, there is an obvious decrease of the initial peak electric field as the needle radius increases. [ABSTRACT FROM AUTHOR]

Published

2022

141. Experimental study on the brittle failure of the locking section in a large-scale rock slide.

Author

Huang, Runqiu, Chen, Guoqing, Guo, Fan, Zhang, Guofeng, and Zhang, Yan

Subjects

*ACOUSTIC emission, *STRAIN gages, *MICROMETERS, *ROCKSLIDES, *STRAINS & stresses (Mechanics)

Abstract

A locking section is a conceptual model employed to analyze large-scale rock slides, of which the role was commonly found governing the mechanism of such mass movements. The physical experimental study presented herein is designed to study the failure mechanism of the locking section by measuring its basic characteristics. Dataset on the magnitude of the energy release, stress state, and displacement near and within the locking section are obtained by acoustic emission sensor, strain gauge, and micrometer gauge. The study captured the continued stress and energy accumulation at the locking section under increasing loads and the final brittle shear failure, which depicts the comprehensive deformation and failure processes occurred at the locking section. The concurrence of the locking section failure is the abrupt intensive energy release that results in the occurrence of the high-speed rock sliding. In conclusion, the experiment aims at investigating the initiation mechanism of large-scale rock slides governed by a locking section. [ABSTRACT FROM AUTHOR]

Published

2016

142. Facile fabrication of MIL-103(Eu) porous coordination polymer nanostructures and their sorption and sensing properties.

Author

Liu, Qing, Yang, Ji-Min, Guo, Fan, Jin, Li-Na, and Sun, Wei-Yin

Subjects

*COORDINATION polymers synthesis, *NANOROD synthesis, *EUROPIUM compounds, *GAS absorption & adsorption, *POROUS polymers, *CHEMICAL derivatives, *BENZOIC acid, *X-ray diffraction, *CHEMICAL detectors

Abstract

Nano/microscale lanthanide porous coordination polymer MIL-103(Eu) [Eu(BTB)] (H3BTB = 4,4′,4′′-benzene-1,3,5-triyl-tribenzoic acid) crystals have been fabricated at room temperature by a facile, convenient and environmentally friendly method. The structures of the products were confirmed by powder X-ray diffraction, and the crystal morphologies, including microrods, nanorods and nanospheres, were characterized by scanning electron microscopy. It is found that the addition of sodium acetate and the concentration of the reactants have an important impact on the morphology and size of the MIL-103(Eu) crystals. Gas adsorption measurements reveal that the products show high specific surface areas among the rare earth based coordination polymers and the MIL-103(Eu) nanorods can selectively adsorb CO2 over N2 under ambient conditions. Furthermore, all the products exhibit red emission corresponding to the 5D0→7F2 transition of the Eu(iii) ion, and MIL-103(Eu) nanorods display sensitive and selective sensing for Cu(ii) ions and acetone molecules in solution. [ABSTRACT FROM AUTHOR]

Published

2016

143. Prediction of Breakdown Field Strength for Large-Area and Multilayer Film Dielectrics.

Author

Chen, Zhiqiang, Jia, Wei, Cheng, Le, Fu, Meiyan, Xie, Linshen, Guo, Fan, Wu, Wei, Wang, Haoqing, and Ji, Shengchang

Subjects

*ELECTRIC breakdown, *POLYMER films, *DIELECTRIC strength, *WEIBULL distribution, *THIN films, *PREDICTION models

Abstract

The polymer film dielectric has been widely used in high voltage equipment for bulk insulation owing to the excellent insulation performance. Martin’s empirical formula for bulk breakdown is frequently used to predict the breakdown field strength of multilayer thin film with different electrode areas. In this article, based on the academic consensus that the cumulative breakdown probability of single-layer film obeys the Weibull distribution, the relationship between the cumulative breakdown probability of film dielectric under different electrode areas and the applied electrical field is deduced. Moreover, the relationship between the cumulative breakdown probability of film dielectric with various numbers of film layers and the applied electrical field is obtained and simplified. On these bases, combined with the experimental results of the average breakdown field of film dielectric with smaller electrode areas and fewer layers, a prediction model of the average breakdown field strength of film dielectric with different electrode areas and film layers is established. To obtain the solution of the prediction model concerning the number of film layer, an effective approximate solution method is proposed to solve the calculation problem with ultralarge and ultrasmall data, which significantly reduces the complexity of the solution process. A coaxial film capacitor is developed and tested to verify the prediction model with the “Chenguang” accelerator. The experimental breakdown field strength of 54 layers of 15 $\mu \text{m}$ biaxially oriented polypropylene (BOPP) film with an electrode area of 218.1 cm2 is 355.6 V/ $\mu \text{m}$ , which is comparable to the predicted result of 374 V/ $\mu \text{m}$. The prediction model presented in this article is of certain reference significance for the insulation design of film dielectrics. [ABSTRACT FROM AUTHOR]

Published

2022

144. Flashover Voltage of Epoxy FRP Insulators with Different Surface Roughness and Groove under Nanosecond Pulses in SF 6.

Author

Chen, Zhiqiang, Wang, Chengcheng, Jia, Wei, Cheng, Le, Guo, Fan, Xie, Linshen, Wu, Wei, and Chen, Wei

Subjects

*FLASHOVER, *SURFACE roughness, *SECONDARY electron emission, *ELECTRON impact ionization, *ELECTROMAGNETIC pulses, *EPOXY resins, *VOLTAGE

Abstract

In order to further improve the insulation performance of fiber reinforce plastic (FRP) materials used in electromagnetic pulse (EMP) simulators, the flashover characteristics of FRP materials with different surface roughness and groove, i.e., those who are easily achieved and have a prominent effect, are investigated in 0.1 MPa SF6 under nanosecond pulse voltage with a rise time of 20–30 ns. The experimental results show that surfaces with different roughness have no significant influence on the flashover voltages of the FRP insulators, and both the convex grooves made of FRP and the convex grooves with nylon rings inlaid to form projections can improve the surface flashover voltage of epoxy FRP insulators under nanosecond pulse, in which the effect of the former surface is more obvious. For the insulators with convex grooves made of FRP, it is found that the root of the FRP protrusions breaks down after a number of shots with the occurrence of carbonization channels and spots, which is nonexistent for the nylon projections. Combined with the test results of surface characteristics, the surface roughness and the secondary electron emission yield (SEEY) are not key factors of flashover characteristics in SF6 under nanosecond pulse, arguably due to the fact that the energy needed for an incident electron to ionize an SF6 molecule is lower than that to excite two secondary electrons. Hence, the flashover performance cannot be improved by adjusting the surface roughness, and the flashover channel is principally governed by the macroscopic distribution of electrical field which can be changed by the convex groove. Breakdown phenomena of FRP protrusions indicate that the bulk insulation performance of resin FRP is weaker compared to pure resin because of its composite structure, as well as the impurities and voids introduced in the manufacturing process. The results are instructive for the design of FRP insulation structures in the compact EMP simulator. [ABSTRACT FROM AUTHOR]

Published

2022

145. Electronic Alteration on Oligothiophenes by o-Carborane: Electron Acceptor Character of o-Carborane in Oligothiophene Frameworks with Dicyano-Vinyl End-On Group.

Author

So-Yoen Kim, Ah-Rang Lee, Guo Fan Jin, Yang-Jin Cho, Ho-Jin Son, Won-Sik Han, and Sang Ook Kang

Subjects

*OLIGOTHIOPHENES, *CARBORANE synthesis, *ELECTROPHILES, *VINYL polymers, *CONFORMATIONAL analysis

Abstract

We studied electronic change in oligothiophenes by employing o-carborane into a molecular array in which one or both end(s) were substituted by electron-withdrawing dicyano-vinyl group(s). Depending on mono- or bis-substitution at the o-carborane, a series of linear A1-D-A2 (1a-1c) or V-shaped A1-D-A2-D-A1 (2a-2c) oligothiophene chain structures of variable length were prepared; A1, D, and A2, represent dicyano-vinyl, oligothiophenyl, and o-carboranyl groups, respectively. Among this series, 2a shows strong electron-acceptor capability of o-carborane comparable to that of the dicyano-vinyl substituent, which can be elaborated by a conformational effect driven by cage σ*-π* interaction. As a result, electronic communications between o-carborane and dicyano-vinyl groups are successfully achieved in 2a. [ABSTRACT FROM AUTHOR]

Published

2015

146. Repertoires of Autophagy in the Pathogenesis of Ocular Diseases.

Author

Li, Yu-jie, Jiang, Qin, Cao, Guo-fan, Yao, Jin, and Yan, Biao

Subjects

*AUTOPHAGY, *EYE diseases, *CYTOPLASM, *NEURODEGENERATION, *LYSOSOMES, *COMMUNICABLE diseases

Abstract

Autophagy is an important intracellular degradative process that delivers cytoplasmic proteins to lysosome for degradation. Dysfunction of autophagy is implicated in several human diseases, such as neurodegenerative diseases, infectious diseases, and cancers. Autophagy-related proteins are constitutively expressed in the eye. Increasing studies have revealed that abnormal autophagy is an important pathological feature of several ocular diseases. Pharmacological manipulation of autophagy may provide an alternative therapeutic target for some ocular diseases. In this manuscript, we reviewed the relevant progress about the role of autophagy in the pathogenesis of ocular diseases. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2015

147. Effects of sulfamethoxazole/trimethoprim on corncob-supported solid-phase denitrification and removal performance: Microbial community, biotransformation pathways, and antibiotic resistance genes.

Author

Zhang, Yanjie, Ling, Yu, Li, Congyu, Wang, Haiyan, Dong, Weiyang, Wang, Huan, Yan, Guokai, Guo, Fan, and Wei, Youfang

Subjects

*DENITRIFICATION, *DRUG resistance in bacteria, *MICROBIAL communities, *SCISSION (Chemistry), *BIOCONVERSION, *SULFAMETHOXAZOLE, *NITROGEN cycle

Abstract

[Display omitted] • 0.05 and 2 mg/L sulfamethoxazole/trimethoprim could not inhibit nitrogen removal. • The genes related electron donor behaviours were not significantly affected. • The degradation pathways of sulfamethoxazole/trimethoprim were proposed. • The toxicity of intermediates tended to be lower than that of parent compounds. • The abundances and potential risks of antibiotic resistance genes were discussed. The widespread use of antibiotics inevitably results in their discharge into the water environment from the wastewater treatment plant (WWTP) effluents. Corncob-supported solid-phase denitrification (CC-SPD) has been identified as a promising technology for nitrogen removal of WWTP effluents. The effects of sulfamethoxazole (SMX)/trimethoprim (TMP) on nitrogen removal in up-flow CC-SPD reactors and the influencing mechanisms are studied at microbial and genetic levels, and the antibiotic removal performance, degradation pathways, and antibiotic resistant genes (ARGs) are also extensively investigated. Long-term experimental results indicated that 0.05 and 2 mg/L SMX/TMP, either individually or in combination, had no inhibition on nitrogen removal performance in CC-SPD reactors. The NO 3 – -N removal capacity was approximately 125.60–142.91 mg NO 3 – -N /g CC. Although the microbial community structure evolved to adapt to the 0.05 mg/L SMX/TMP, the relative abundances (RAs) of denitrification genes and genes related to electron donor behaviours did not significantly alter. Furthermore, SMX, with a higher removal efficiency of 42.17%, was more easily degradable compared to TMP, and the degradation products of SMX were more readily mineralized. Additionally, microorganisms degrade antibiotics through processes such as ring opening, hydrogenation, and bond cleavage, with the toxicity of intermediates often being lower than that of parent compounds. Moreover, 0.05 mg/L SMX/TMP did not significantly change the RAs of ARGs and movable genetic elements (MGEs). This study provides important basis for the antibiotic risk prevention in WWTP effluents and the practical application of SPD technology. [ABSTRACT FROM AUTHOR]

Published

2024

148. Discovery of indol-6-yl-pyrrolo[2,3-c]pyridin-7-one derivatives as bromodomain-containing protein 4 (BRD4) inhibitors for the treatment of kidney fibrosis.

Author

Tao, Sibei, Tao, Shaohua, Guo, Fan, Zhang, Lidan, Zhao, Lifeng, Fu, Ping, and Ma, Liang

Subjects

*RENAL fibrosis, *CHRONIC kidney failure, *URETERIC obstruction, *LABORATORY mice, *KIDNEY injuries

Abstract

Uncovering new therapeutics for kidney fibrosis hold promise for chronic kidney disease (CKD). Considerable studies confirmed that BRD4 inhibition ameliorated kidney injury and fibrosis. In the study, we synthesized a series of indol-6-yl-pyrrolo[2,3- c ]pyridin-7-one derivatives and biologically evaluated against BRD4 for structure-activity relationship (SAR). Notably, compound 3r (ZLD2218) exhibited the most potent inhibitory activity against BRD4, with the IC 50 value of 107 nM, which was comparative to 92 nM of positive control JQ-1. Importantly, at the dose of 15 and 30 mg/kg/d for consecutive 8 days, ZLD2218 alleviated kidney injury and fibrosis in unilateral ureteral obstruction (UUO) mice, with the 30 mg/kg/d being competitive to 100 mg/kd/d of JQ1. Mechanically, ZLD2218 inhibited BRD4 expression and further suppressed fibrotic signaling in the kidneys of UUO mice and TGF-β1-stimulated TCMK-1 cells. Furthermore, ZLD2218 at the dose of 30 mg/kg/d for 8 days to C57BL/6J mice did not affect liver, kidney function and organ pathological changes. Collectively, compound 3r (ZLD2218) might be a promising lead compound of BRD4 inhibitor for the treatment of kidney fibrosis. [Display omitted] • BRD4 was upregulated in fibrotic kidneys of mice after UUO surgery. • ZLD2218 was synthesized and evaluated as a BRD4 inhibitor with the IC 50 of 107 nM. • ZLD2218 alleviated kidney injury and fibrosis of UUO mice. • BRD4 inhibition by ZLD2218 might be a therapeutic for kidney injury and fibrosis. [ABSTRACT FROM AUTHOR]

Published

2022

149. Generation of rat forebrain tissues in mice.

Author

Huang, Jia, He, Bingbing, Yang, Xiali, Long, Xin, Wei, Yinghui, Li, Leijie, Tang, Min, Gao, Yanxia, Fang, Yuan, Ying, Wenqin, Wang, Zikang, Li, Chao, Zhou, Yingsi, Li, Shuaishuai, Shi, Linyu, Choi, Seungwon, Zhou, Haibo, Guo, Fan, Yang, Hui, and Wu, Jun

Subjects

*PROSENCEPHALON, *RATS, *MICE, *TISSUES, *NEURAL development

Abstract

Interspecies blastocyst complementation (IBC) provides a unique platform to study development and holds the potential to overcome worldwide organ shortages. Despite recent successes, brain tissue has not been achieved through IBC. Here, we developed an optimized IBC strategy based on C-CRISPR, which facilitated rapid screening of candidate genes and identified that Hesx1 deficiency supported the generation of rat forebrain tissue in mice via IBC. Xenogeneic rat forebrain tissues in adult mice were structurally and functionally intact. Cross-species comparative analyses revealed that rat forebrain tissues developed at the same pace as the mouse host but maintained rat-like transcriptome profiles. The chimeric rate of rat cells gradually decreased as development progressed, suggesting xenogeneic barriers during mid-to-late pre-natal development. Interspecies forebrain complementation opens the door for studying evolutionarily conserved and divergent mechanisms underlying brain development and cognitive function. The C-CRISPR-based IBC strategy holds great potential to broaden the study and application of interspecies organogenesis. [Display omitted] • C-CRISPR enables quick candidate gene screening aiding blastocyst complementation • Mouse and rat ESCs can both complement Hesx1 −/− forebrain agenesis in mice • Reconstituted rat forebrains in mice exhibit normal structure and function • Rat forebrains in mice develop at mouse rates with rat-specific gene expression An optimized screening platform streamlined the identification of mutations that supported the generation of rat forebrain tissue in mice via interspecies blastocyst complementation. [ABSTRACT FROM AUTHOR]

Published

2024

150. Ligand structure optimization leads to efficient acid-resist Am(III)/Eu(III) separation in n-octanol.

Author

Liu, Yaoyang, Bao, Mingjie, Wang, Ludi, Kang, Yu, Dou, Yangcheng, Qin, Jiaojiao, Guo, Fan, Hao, Huaixin, Wang, Zhipeng, Tang, Xiaoyan, Chen, Jing, Wang, Li, and Xu, Chao

Abstract

[Display omitted] • Calculation-guided structure optimization was used to redesign Lns/Ans separation ligand. • Phenanthroline diamide ligands were prepared to reduce the rotation barriers for coordination. • Record high separation factors of SF Eu(III)/Am(III) were reported in n -octanol in high acidity. • Well-balanced extraction/stripping/recycling were demonstrated. Liquid-liquid extraction is the most wildly adopted industrial Lns/Ans separation approach which takes advantages of the subtle atomic size differences for Lns and Ans. Preorganized ligand architecture with coordination configuration locking strategy has been proven to be very efficient to enhance the separation factors by size exclusive effect from the preset ligand cavity while drawbacks such as sophisticated ligand synthesis, unbalanced extraction/stripping performances and limited solubility in environmental benign solvents prevent the economic practicability. In the current contribution, calculation-guided ligand structure optimization was utilized to optimize the hard/soft tetradentate phenanthroline diamide ligands. Reducing the number of alkyl chains around the binding sites from amide to imide led to less rotation energy barriers, eventually boosted both metal distributions and separation factors. Additionally, the formation of hydrogen bonds in the imine ligands enhanced their solubility in industrial-friendly solvent, such as n -octanol, leading to superior extraction performances. Finally, balanced extraction, stripping and recycling of the reported ligands were demonstrated to unravel the potential to be integrated into current industrial plants. The ligand design philosophy as discussed in this work could inspire the searching for new environment-friendly high-performance lipophilic ligand to close the current nuclear fuel cycle. [ABSTRACT FROM AUTHOR]

Published

2024