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1. Direct OC-CHO coupling towards highly C2+ products selective electroreduction over stable Cu0/Cu2+ interface

Author

Xin Yu Zhang, Zhen Xin Lou, Jiacheng Chen, Yuanwei Liu, Xuefeng Wu, Jia Yue Zhao, Hai Yang Yuan, Minghui Zhu, Sheng Dai, Hai Feng Wang, Chenghua Sun, Peng Fei Liu, and Hua Gui Yang

Subjects
Science
Abstract

Abstract Electroreduction of CO2 to valuable multicarbon (C2+) products is a highly attractive way to utilize and divert emitted CO2. However, a major fraction of C2+ selectivity is confined to less than 90% by the difficulty of coupling C-C bonds efficiently. Herein, we identify the stable Cu0/Cu2+ interfaces derived from copper phosphate-based (CuPO) electrocatalysts, which can facilitate C2+ production with a low-energy pathway of OC-CHO coupling verified by in situ spectra studies and theoretical calculations. The CuPO precatalyst shows a high Faradaic efficiency (FE) of 69.7% towards C2H4 in an H-cell, and exhibits a significant FEC2+ of 90.9% under industrially relevant current density (j = −350 mA cm−2) in a flow cell configuration. The stable Cu0/Cu2+ interface breaks new ground for the structural design of electrocatalysts and the construction of synergistic active sites to improve the activity and selectivity of valuable C2+ products.

Published
2023
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2. Scalable synthesis of coordinatively unsaturated metal-nitrogen sites for large-scale CO2 electrolysis

Author

Ji Wei Sun, Xuefeng Wu, Peng Fei Liu, Jiacheng Chen, Yuanwei Liu, Zhen Xin Lou, Jia Yue Zhao, Hai Yang Yuan, Aiping Chen, Xue Lu Wang, Minghui Zhu, Sheng Dai, and Hua Gui Yang

Subjects
Science
Abstract

Abstract Practical electrochemical CO2-to-CO conversion requires a non-precious catalyst to react at high selectivity and high rate. Atomically dispersed, coordinatively unsaturated metal-nitrogen sites have shown great performance in CO2 electroreduction; however, their controllable and large-scale fabrication still remains a challenge. Herein, we report a general method to fabricate coordinatively unsaturated metal-nitrogen sites doped within carbon nanotubes, among which cobalt single-atom catalysts can mediate efficient CO2-to-CO formation in a membrane flow configuration, achieving a current density of 200 mA cm−2 with CO selectivity of 95.4% and high full-cell energy efficiency of 54.1%, outperforming most of CO2-to-CO conversion electrolyzers. By expanding the cell area to 100 cm2, this catalyst sustains a high-current electrolysis at 10 A with 86.8% CO selectivity and the single-pass conversion can reach 40.4% at a high CO2 flow rate of 150 sccm. This fabrication method can be scaled up with negligible decay in CO2-to-CO activity. In situ spectroscopy and theoretical results reveal the crucial role of coordinatively unsaturated metal-nitrogen sites, which facilitate CO2 adsorption and key *COOH intermediate formation.

Published
2023
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3. Rational Design of Hydrogen Evolution Reaction Electrocatalysts for Commercial Alkaline Water Electrolysis

Author

Hao Guan Xu, Xin Yu Zhang, Yeliang Ding, Huai Qin Fu, Rui Wang, Fangxin Mao, Peng Fei Liu, and Hua Gui Yang

Subjects
alkaline water electrolyzers, high current density, hydrogen evolution reactions, mass transfer, stability, Physics, QC1-999, Chemistry, QD1-999
Abstract

With the further exploitation of renewable energy sources, electrochemical hydrogen evolution reaction (HER) is considered a key technology to solve environmental problems and achieve global carbon neutrality. Currently, alkaline water electrolyzers (AWEs) have been revitalized as a traditional electrolytic water production industry, yet they face great challenges in achieving new technological breakthroughs due to the catalytic properties of electrode materials. In alkaline media, besides the slow kinetics of oxygen evolution reaction, the sluggish HER needing water dissociation and the mass transfer problems at high current densities are among the major factors limiting the development of alkaline water electrolysis for industrial applications. Therefore, it is of great importance to design HER electrocatalysts with high activity and stability at high current densities (>500 mA cm−2) for industrial applications at the “Research and Development level” (R&D level). Herein, a brief overview of the development of AWEs at the industrial scale is presented, and some mainstream recognized catalysis mechanisms for HER in alkaline electrolytes are summarized. Based on the requirements of industrial application and theoretical guidance, the activation strategies of HER electrocatalysts are also summarized. This review will propose new insights into the future development of alkaline water electrolysis.

Published
2023
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4. Operando Converting BiOCl into Bi2O2(CO3) x Cl y for Efficient Electrocatalytic Reduction of Carbon Dioxide to Formate

Author

Huai Qin Fu, Junxian Liu, Nicholas M. Bedford, Yun Wang, Joshua Wright, Peng Fei Liu, Chun Fang Wen, Liang Wang, Huajie Yin, Dongchen Qi, Porun Liu, Hua Gui Yang, and Huijun Zhao

Subjects
Carbon dioxide reduction, Chloride-containing bismuth subcarbonate, Cathodic potential-promoted anion-exchange, Stability, Technology
Abstract

Abstract Bismuth-based materials (e.g., metallic, oxides and subcarbonate) are emerged as promising electrocatalysts for converting CO2 to formate. However, Bio-based electrocatalysts possess high overpotentials, while bismuth oxides and subcarbonate encounter stability issues. This work is designated to exemplify that the operando synthesis can be an effective means to enhance the stability of electrocatalysts under operando CO2RR conditions. A synthetic approach is developed to electrochemically convert BiOCl into Cl-containing subcarbonate (Bi2O2(CO3) x Cl y ) under operando CO2RR conditions. The systematic operando spectroscopic studies depict that BiOCl is converted to Bi2O2(CO3) x Cl y via a cathodic potential-promoted anion-exchange process. The operando synthesized Bi2O2(CO3) x Cl y can tolerate − 1.0 V versus RHE, while for the wet-chemistry synthesized pure Bi2O2CO3, the formation of metallic Bio occurs at − 0.6 V versus RHE. At − 0.8 V versus RHE, Bi2O2(CO3) x Cl y can readily attain a FEHCOO- of 97.9%, much higher than that of the pure Bi2O2CO3 (81.3%). DFT calculations indicate that differing from the pure Bi2O2CO3-catalyzed CO2RR, where formate is formed via a *OCHO intermediate step that requires a high energy input energy of 2.69 eV to proceed, the formation of HCOO− over Bi2O2(CO3) x Cl y has proceeded via a *COOH intermediate step that only requires low energy input of 2.56 eV.

Published
2022
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5. A Machine Learning Framework for Diagnosing and Predicting the Severity of Coronary Artery Disease

Author

Aikeliyaer Ainiwaer, Wen Qing Hou, Kaisaierjiang Kadier, Rena Rehemuding, Peng Fei Liu, Halimulati Maimaiti, Lian Qin, Xiang Ma, and Jian Guo Dai

Subjects
machine learning, coronary artery disease, syntax score, gensini score, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Background: Although machine learning (ML)-based prediction of coronary artery disease (CAD) has gained increasing attention, assessment of the severity of suspected CAD in symptomatic patients remains challenging. Methods: The training set for this study consisted of 284 retrospective participants, while the test set included 116 prospectively enrolled participants from whom we collected 53 baseline variables and coronary angiography results. The data was pre-processed with outlier processing and One-Hot coding. In the first stage, we constructed a ML model that used baseline information to predict the presence of CAD with a dichotomous model. In the second stage, baseline information was used to construct ML regression models for predicting the severity of CAD. The non-CAD population was included, and two different scores were used as output variables. Finally, statistical analysis and SHAP plot visualization methods were employed to explore the relationship between baseline information and CAD. Results: The study included 269 CAD patients and 131 healthy controls. The eXtreme Gradient Boosting (XGBoost) model exhibited the best performance amongst the different models for predicting CAD, with an area under the receiver operating characteristic curve of 0.728 (95% CI 0.623–0.824). The main correlates were left ventricular ejection fraction, homocysteine, and hemoglobin (p < 0.001). The XGBoost model performed best for predicting the SYNTAX score, with the main correlates being brain natriuretic peptide (BNP), left ventricular ejection fraction, and glycated hemoglobin (p < 0.001). The main relevant features in the model predictive for the GENSINI score were BNP, high density lipoprotein, and homocysteine (p < 0.001). Conclusions: This data-driven approach provides a foundation for the risk stratification and severity assessment of CAD. Clinical Trial Registration: The study was registered in www.clinicaltrials.gov protocol registration system (number NCT05018715).

Published
2023
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6. Thromboelastography-guided blood transfusion during cytoreductive surgery combined with hyperthermic intraperitoneal chemotherapy: study protocol for a prospective randomised controlled trial

Author

Peng Fei Liu, Shaoheng Wang, and Linfeng Chen

Subjects
Medicine
Abstract

Introduction Cytoreductive surgery combined with hyperthermic intraperitoneal chemotherapy (CRS/HIPEC) is a well-established treatment for peritoneal cancer (PC). However, this kind of combination therapy is associated with a high incidence of complications. Moreover, relative studies have indicated that traditional laboratory testing is insufficient to demonstrate the overall haemostatic physiology of CRS/HIPEC. Thromboelastography (TEG), administered by monitoring dynamic changes in haemostasis, has been shown to contribute to reducing transfusion requirements and improving survival. However, there is no evidence to verify whether TEG can be applied to guide transfusion strategies during CRS/HIPEC. Therefore, we aim to investigate whether TEG-guided blood product transfusion (TEG-BT) therapy is superior to traditional blood product transfusion (T-BT) therapy for guiding perioperative blood transfusion treatment and improving the prognosis of patients undergoing CRS/HIPEC.Methods and analysis The TEG-BT versus T-BT study is a single-centre, randomised, blinded outcome assessment clinical trial of 162 patients with PC, aged 18–64 years and undergoing CRS/HIPEC. Participants will be randomly allocated to receive TEG-BT or T-BT. The primary outcome will be the evaluation of perioperative blood transfusion, which refers to the total amount of blood transfusion given from the time patients enter the operating room up to 72 hours postoperatively. The secondary outcomes will include the transfusion volume during surgery, total amount of intraoperative infusion, amount of blood lost during the operation, total blood transfusion between 0 and 72 hours after surgery, lowest haemoglobin level within 72 hours after surgery, intensive care unit duration, overall length of stay, total cost of hospitalisation and adverse events. Data will be analysed according to the intention-to-treat principle.Ethics and dissemination The study protocol has been approved by the Scientific Research Ethics Committee of Beijing Shijitan Hospital Affiliated with Capital Medical University (Approval Number: sjtkyll-lx-2020-3). The results will be published in peer-reviewed journals.Trial registration number Chinese Clinical Trial Registry (ChiCTR2000028835).

Published
2020
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7. Prevalence of acute liver injury and hypertransaminemia in patients with COVID-19: a protocol for a systematic review

Author

Yongxing Xu, Gang Li, Yi Tian Yang, and Peng Fei Liu

Subjects
Medicine
Abstract

Introduction COVID-19 has spread rapidly in China and around the world. Published studies have revealed that some patients with COVID-19 had abnormal liver function in laboratory tests. However, the results were inconsistent and the analysis of epidemiological data stratified by the severity of COVID-19 was not available in previous meta-analyses. Furthermore, these meta-analyses were suspected of overestimating the incidence of liver injury in patients with COVID-19 because some studies considered transaminase elevation as liver injury, which might partially result from cardiac and muscle injury. This systematic review aims to enrol published literatures related to COVID-19 without language restriction, analyse the data based on the severity of the COVID-19 and explore the impact of varied definitions of liver injury on the incidence of liver injury.Methods and analysis We have conducted a preliminary search on PubMed and Excerpta Medica Database on 13 April 2020, for the studies published after December 2019 on the prevalence of acute liver injury and hypertransaminemia in patients with COVID-19. Two reviewers will independently screen studies, extract data and assess the risk of bias. We will estimate the pooled incidence of hypertransaminemia and acute liver injury in patients with COVID-19 by using the random-effects model. The I² test will be used to identify the extent of heterogeneity. Publication bias will be assessed by funnel plot and performing the Begg’s and Egger’s test if adequate studies are available. We will perform a risk of bias assessment using the Joanna Briggs Institute’s critical appraisal checklist.Ethics and dissemination Since this study will be based on the published data, it does not require ethical approval. The final results of this study will be published in a peer-reviewed journal.PROSPERO registration number CRD42020179462.

Published
2020
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8. Atomically isolated nickel species anchored on graphitized carbon for efficient hydrogen evolution electrocatalysis

Author

Lili Fan, Peng Fei Liu, Xuecheng Yan, Lin Gu, Zhen Zhong Yang, Hua Gui Yang, Shilun Qiu, and Xiangdong Yao

Subjects
Science
Abstract

There is tremendous ongoing effort in the development of electrocatalysts for hydrogen evolution. Here, the authors report that single nickel atoms dispersed on graphitic supports are formed by carbonization of metal-organic frameworks and that they are highly active hydrogen evolution catalysts.

Published
2016
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9. Investigation of copper-induced intestinal damage and proteome alterations in Takifugu rubripes: Potential health risks and environmental toxicology detection

Author

Yu-qing Xia, Yi Yang, Ying Liu, Cheng-hua Li, and Peng-fei Liu

Subjects
Copper, Takifugu rubripes, Cuproptosis, Environmental toxicology, Immune response, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350
Abstract

Copper is one of the predominant water pollutants. Excessive exposure to copper can cause harm to animal health, affecting the central nervous system and causing blood abnormalities. Cuproptosis is a novel form of cell death that differs from previous programmed cell death methods. However, the impact of copper on the intestines remains unclear. Therefore, we investigated the effects of different concentrations of copper exposure on the intestinal proteome of Takifugu rubripes (T. rubripes). Relevant biomarkers were used to detect cuproptosis. We revealed the crosstalk relationship between cuproptosis and self-rescue at different concentrations, and discussed the feasibility of using potential cuproptosis indicators as anti-infection factors. We observed intestinal damage in the three copper exposure groups, especially in T. rubripes treated with 100 and 500 μg/L copper, with shedding and breakage of intestinal villus and fuzzy and loose structure of intestinal mucosa. The presence of copper stress not only causes cuproptosis but also oxidative damage caused by reactive oxygen species (ROS). The results of quantitative proteomics by TMT showed that compared to the 50 and 100 μg/L copper exposure groups, the expression of glutaminase, pyruvate kinase, and skin mucus lectin in the 500 μg/L group was significantly increased. The positive mediators COX5A and CTNNB1, as well as the negative mediators CD4 and FDXR, were found to be differentially expressed. Using the protein expression trends of cuproptosis indicator factors FDX1 and DLAT to indicate the concentration of copper ions in the environment. In addition, we found a new effect of promoting ferroptosis: providing additional copper ions can activate the phenomenon of ferroptosis. Our results expand our understanding of the potential health risks of copper in T. rubripes. At the same time, it is of great significance for the process of copper poisoning and the development of new environmental toxicology detection reagents.

Published
2024
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10. Metatranscriptome of human lung microbial communities in a cohort of mechanically ventilated COVID-19 Omicron patients

Author

Lin Wang, Jia-Bao Cao, Bin-Bin Xia, Yue-Juan Li, Xuan Zhang, Guo-Xin Mo, Rui-Juan Wang, Si-Qi Guo, Yu-Qing Zhang, Kun Xiao, Guang-Fa Zhu, Peng-Fei Liu, Li-Cheng Song, Xi-Hui Ma, Ping-Chao Xiang, Jiang Wang, Yu-Hong Liu, Fei Xie, Xu-Dong Zhang, Xiang-Xin Li, Wan-Lu Sun, Yan Cao, Kai-Fei Wang, Wen-Hui Zhang, Wei-Chao Zhao, Peng Yan, Ji-Chao Chen, Yu-Wei Yang, Zhong-Kuo Yu, Jing-Si Tang, Li Xiao, Jie-Min Zhou, Li-Xin Xie, and Jun Wang

Subjects
Medicine, Biology (General), QH301-705.5
Abstract

Abstract The Omicron variant of the severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2) infected a substantial proportion of Chinese population, and understanding the factors underlying the severity of the disease and fatality is valuable for future prevention and clinical treatment. We recruited 64 patients with invasive ventilation for COVID-19 and performed metatranscriptomic sequencing to profile host transcriptomic profiles, plus viral, bacterial, and fungal content, as well as virulence factors and examined their relationships to 28-day mortality were examined. In addition, the bronchoalveolar lavage fluid (BALF) samples from invasive ventilated hospital/community-acquired pneumonia patients (HAP/CAP) sampled in 2019 were included for comparison. Genomic analysis revealed that all Omicron strains belong to BA.5 and BF.7 sub-lineages, with no difference in 28-day mortality between them. Compared to HAP/CAP cohort, invasive ventilated COVID-19 patients have distinct host transcriptomic and microbial signatures in the lower respiratory tract; and in the COVID-19 non-survivors, we found significantly lower gene expressions in pathways related viral processes and positive regulation of protein localization to plasma membrane, higher abundance of opportunistic pathogens including bacterial Alloprevotella, Caulobacter, Escherichia-Shigella, Ralstonia and fungal Aspergillus sydowii and Penicillium rubens. Correlational analysis further revealed significant associations between host immune responses and microbial compositions, besides synergy within viral, bacterial, and fungal pathogens. Our study presents the relationships of lower respiratory tract microbiome and transcriptome in invasive ventilated COVID-19 patients, providing the basis for future clinical treatment and reduction of fatality.

Published
2023
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11. Combined metabolomics and proteomics to reveal beneficial mechanisms of Dendrobium fimbriatum against gastric mucosal injury

Author

Jing Sun, Peng-Fei Liu, Jia-Ni Liu, Cong Lu, Li-Tao Tong, Yong-Quan Wang, Jia-Meng Liu, Bei Fan, and Feng-Zhong Wang

Subjects
Dendrobium fimbriatum, gastric mucosal injury, metabolomics, proteomics, pathway, Therapeutics. Pharmacology, RM1-950
Abstract

As a dietary and medicinal plant, Dendrobium fimbriatum (DF) is widely utilized in China for improving stomach disease for centuries. However, the underlying mechanisms against gastric mucosal injury have not been fully disclosed. Here, metabolomics and proteomics were integrated to clarify the in-depth molecular mechanisms using cyclophosphamide-induced gastric mucosal injury model in mice. As a result, three metabolic pathways, such as creatine metabolism, arginine and proline metabolism, and pyrimidine metabolism were hit contributing to DF protective benefits. Additionally, γ-L-glutamyl-putrescine, cytosine, and thymine might be the eligible biomarkers to reflect gastric mucosal injury tatus, and DF anti-gastric mucosal injury effects were mediated by the so-called target proteins such as Ckm, Arg1, Ctps2, Pycr3, and Cmpk2. This finding provided meaningful information for the molecular mechanisms of DF and also offered a promising strategy to clarify the therapeutic mechanisms of functional foods.

Published
2022
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12. PBN-PVT projections modulate negative affective states in mice

Author

Ya-Bing Zhu, Yan Wang, Xiao-Xiao Hua, Ling Xu, Ming-Zhe Liu, Rui Zhang, Peng-Fei Liu, Jin-Bao Li, Ling Zhang, and Di Mu

Subjects
parabrachial nucleus, thalamic paraventricular nucleus, affective states, anxiety, aversion, Medicine, Science, Biology (General), QH301-705.5
Abstract

Long-lasting negative affections dampen enthusiasm for life, and dealing with negative affective states is essential for individual survival. The parabrachial nucleus (PBN) and thalamic paraventricular nucleus (PVT) are critical for modulating affective states in mice. However, the functional roles of PBN-PVT projections in modulating affective states remain elusive. Here, we show that PBN neurons send dense projection fibers to the PVT and form direct excitatory synapses with PVT neurons. Activation of the PBN-PVT pathway induces robust behaviors associated with negative affective states without affecting nociceptive behaviors. Inhibition of the PBN-PVT pathway reduces aversion-like and fear-like behaviors. Furthermore, the PVT neurons innervated by the PBN are activated by aversive stimulation, and activation of PBN-PVT projections enhances the neuronal activity of PVT neurons in response to the aversive stimulus. Consistently, activation of PVT neurons that received PBN-PVT projections induces anxiety-like behaviors. Thus, our study indicates that PBN-PVT projections modulate negative affective states in mice.

Published
2022
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13. Clinical study of modified reposition surgery in the treatment of traumatic cyclodialysis

Author

Peng-Fei Liu

Subjects
modified, traumatic, cyclodialysis, reposition, suture, Ophthalmology, RE1-994
Abstract

AIM: To evaluate the therapeutical effects of modified reposition surgery in the treatment of traumatic cyclodialysis, and to explore a better surgical method for traumatic cyclodialysis. METHODS: Totally 33 cases diagnosed of traumatic cyclodialysis were brought into observation. After accurately dialysis location of ciliary body through ultrasonic biological microscope, all cases received modified ciliary body reposition surgery. The period of follow-up was three to six months after surgery. The observation items included ciliary body status, intraocular pressure, visual acuity and complications and so on.RESULTS:Among them, 30 cases were completely reposition during 1wk after surgery, 3 cases were found partial cyclodialysis, and then after half a month the three cases above got desirable outcome. Twenty cases were observed high intraocular pressure after surgery, 17 cases of which had high intraocular pressure returned to normal in 3d, 1 case of which had high intraocular pressure returned to normal in 1wk. 2 cases of which had high intraocular pressure were out of control through medicine, finally received anti-glaucoma surgery in 1 case, and the other one case underwent ciliary body laser photocoagulation and the high intraocular pressure was effectively controlled. Postoperative visual acuity was improved to some extent. There was no anterior segment ischemia or corneal macro astigmatism in all cases. CONCLUSION:The modified reposition surgery in treating traumatic cyclodialysis is a simple, safe, effective, less iatrogenic injuries and fewer complications. It is worthy of clinical application.

Published
2020
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14. A Biallelic Mutation in CCDC103 Impairs Sperm Motility due to the Absence of Dynein Arms.

Author

Yi Yu, Jin-De Zhu, Peng-Fei Liu, Ming-Wei Zhan, Bang-Xu Zheng, Yu-Qi Lai, Ke-Rong Wu, and Xue-Jun Shang

Subjects
SPERM motility, CILIARY motility disorders, INFERTILITY, DYNEIN, INTRACYTOPLASMIC sperm injection, MALE infertility, GENETIC mutation
Abstract

Primary ciliary dyskinesia (PCD) is a rare genetic condition characterized by destructive respiratory disease and laterality abnormalities due to randomized left–right body asymmetry. In men, PCD is also often associated with infertility due to immotile sperm owing to a malfunction of the sperm flagella. Pathogenic mutations have been found in more than 50 genes. Nonetheless, not all patients with PCD experience infertility. Therefore, to better understand the impact of PCD-associated mutations on male fertility, it is necessary to clarify the role of these genes in spermatogenesis. The CCDC103 p.His154Pro mutation has a high prevalence in PCD. Here, we present the identification and functional analysis of a biallelic mutation in CCDC103 identified in a familial case of PCD associated with male infertility. The biallelic CCDC103 mutations, NM_213607:c.161_162del(p.His55Serfs ∗9) and NM_213607:c.461A>C (p.His154Pro), were identified by whole-exome sequencing. Sanger sequencing validation was performed on all available family members, and the mutation was recessively separated with an infertility phenotype. The c.161_162del mutation breaks the reading frame of the protein and, therefore, is predicted to produce a nonfunctional protein. The tertiary structure of CCDC103-mutated protein indicated a significant conformational change that likely affected protein function. Transmission electron microscopy of spermatozoa showed that both the mid and principal regions of the flagellum lacked dynein arms, which was confirmed via immunofluorescence staining. Using the method of laser-assisted immotile sperm selection combined with intracytoplasmic sperm injection, the patient’s wife has a successful clinical pregnancy. These results extend the phenotype spectrum of the CCDC103 mutation in PCD. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Robust Superhydrophobic Brass Mesh with Electrodeposited Hydroxyapatite Coating for Versatile Applications

Author

Yu-Ping Zhang, Shi-Ming Zhang, Peng-Fei Liu, De-Liang Chen, Yuan Chen, Meng-Jun Chen, and Chang-Hua Zhao

Subjects
hydroxyapatite, superhydrophobic surface, anti-corrosion, critical-micelle-concentration, Organic chemistry, QD241-441
Abstract

A robust superhydrophobic brass mesh was fabricated based on a low-energy surface and a roughness on the nano/micro-meter scale. It was carried out by the forming of hydroxyapatite (HP) coatings on its surface through a constant current electro-deposition process, followed by immersion in fluoroalkylsilane solution. Surface morphology, composition and wetting behavior were investigated by field-emission scanning electron microscopy (SEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), high speed camera, and contact angle goniometer. Under optimal conditions, the resulting brass mesh exhibited superhydrophobicity, excellent anti-corrosion (η = 91.2%), and anti-scaling properties. While the surfactant liquid droplets of tetradecyl trimethyl ammonium bromide (TTAB) with different concentration were dropped on the superhydrophobic surface, maximum droplet rebounding heights and different contact angles (CAs) were observed and measured from side-view imaging. The plots of surfactant-concentration−maximum bounding height/CA were constructed to determine its critical-micelle-concentration (CMC) value. Close CMC results of 1.91 and 2.32 mM based on the determination of maximum rebounding height and CAs were obtained. Compared with its theoretical value of 2.1 mM, the relative errors are 9% and 10%, respectively. This indicated that the novel application based on the maximum rebounding height could be an alternative approach for the CMC determination of other surfactants.

Published
2022
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20. Improving the intrinsic conductivity of δ-MnO2 by indium doping for high-performance neutral aqueous sodium-ion supercapacitors with commercial-level mass-loading

Author

Borui Li, Yanfang Chu, Bin Xie, Yuchen Sun, Lin Zhang, Hongmei Zhao, Lei Zhao, Peng-Fei Liu, and Junjie He

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Indium is introduced to δ-MnO2 for the first time. The conductivity of δ-MnO2 can be doubled and a high specific capacity can be achieved at a commercial-level mass loading.

Published
2023

21. Rational nitrogen alloying in nickel–molybdenum nitride can mediate efficient and durable alkaline hydrogen evolution

Author

Jia Yue Zhao, Zhen Xin Lou, Liang Yao Xue, Yeliang Ding, Xiaoxia Li, Xuefeng Wu, Yuanwei Liu, Hai Yang Yuan, Hai Feng Wang, Peng Fei Liu, Sheng Dai, and Hua Gui Yang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

A controlled amount of nitrogen is introduced into the NiMo alloy to obtain a bimetallic nitride with improved activity and stability, resulting in a stability of over 50 h at a current density of 1.0 A cm−2 under 2.17 V in an anion membrane flow cell.

Published
2023

25. Musculoskeletal Pain during the Menopausal Transition: A Systematic Review and Meta-Analysis

Author

Chang-bo Lu, Peng-fei Liu, Yong-sheng Zhou, Fan-cheng Meng, Tian-yun Qiao, Xiao-jiang Yang, Xu-yang Li, Qian Xue, Hui Xu, Ya Liu, Yong Han, and Yang Zhang

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Musculoskeletal pain (MSP) is one of the most severe complaints in women undergoing menopause. The prevalence of MSP varied when taking the menopausal state and age factor into consideration. This study investigated the prevalence of MSP in perimenopausal women and its association with menopausal state. The MEDLINE, Embase, Web of Science, and PubMed databases were searched from inception to July 2020, and 16 studies were retrieved for the current meta-analysis. The primary outcome measure was the MSP Odds Ratio (OR). The estimated overall prevalence of MSP among perimenopausal women was 71% (4144 out of 5836, 95% confidence interval (CI): 64%-78%). Perimenopausal women demonstrated a higher risk for MSP than premenopausal ones (OR: 1.63, 95% CI: 1.35-1.96, P=0.008, I2=59.7%), but similar to that in postmenopausal ones (OR: 1.07, 95% CI: 0.95–1.20, P=0.316, I2=13.4%). The postmenopausal women were at a higher risk of moderate/severe MSP than the premenopausal ones (OR: 1.45, 95% CI: 1.21-1.75, P=0.302, I2=16.5%) or the perimenopausal ones (OR: 1.40, 95% CI: 1.09–1.79, P=0.106, I2=55.4%). In conclusion, the perimenopause is a state during which women are particularly predisposed to develop MSP. As to moderate to severe degrees of MSP, the odds increase linearly with age, from premenopause to peri- and then to postmenopause.

Published
2020
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29. Interface-confined intermediate phase in TiO2 enables efficient photocatalysis.

Author

Qiu-Shi Huang, Yang Zhang, Peng Fei Liu, Hua Gui Yang, Xie Zhang, and Su-Huai Wei

Subjects
PHOTOCATALYSIS, HYDROGEN evolution reactions, PHASE transitions, TITANIUM dioxide, BAND gaps
Abstract

As a prototypical photocatalyst, TiO2 has been extensively studied. An interesting yet puzzling experimental fact was that P25—a mixture of anatase and rutile TiO2— outperforms the individual phases; the origin of this mysterious fact, however, remains elusive. Employing rigorous first-principles calculations, here we uncover a metastable intermediate structure (MIS), which is formed due to confinement at the anatase/rutile interface. The MIS has a high conduction-band minimum level and thus substantially enhances the overpotential of the hydrogen evolution reaction. Also, the corresponding band alignment at the interface leads to efficient separation of electrons and holes. The interfacial confinement additionally creates a wide distribution of the band gap in the vicinity of the interface, which in turn improves optical absorption. These factors all contribute to the enhanced photocatalytic efficiency in P25. Our insights provide a rationale to the puzzling superior photocatalytic performance of P25 and enable a strategy to achieve highly efficient photocatalysis via interface engineering. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Hydrogen Spillover-Bridged Volmer/Tafel Processes Enabling Ampere-Level Current Density Alkaline Hydrogen Evolution Reaction under Low Overpotential

Author

Huai Qin Fu, Min Zhou, Peng Fei Liu, Porun Liu, Huajie Yin, Kai Zhi Sun, Hua Gui Yang, Mohammad Al-Mamun, Peijun Hu, Hai-Feng Wang, and Huijun Zhao

Subjects
Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis
Abstract

Water-alkaline electrolysis holds a great promise for industry-scale hydrogen production but is hindered by the lack of enabling hydrogen evolution reaction electrocatalysts to operate at ampere-level current densities under low overpotentials. Here, we report the use of hydrogen spillover-bridged water dissociation/hydrogen formation processes occurring at the synergistically hybridized Ni

Published
2022

39. Synergistic defect engineering for improving n-type NbFeSb thermoelectric performance through high-throughput computations

Author

Jingyu Li, Jianbo Zhu, Zhuoyang Ti, Wenya Zhai, Liuming Wei, Chi Zhang, Peng-Fei Liu, and Yongsheng Zhang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Synergistic defect engineering for improving electrical and thermal performance of n-type NbFeSb helps achieve the matched n- and p-type legs for thermoelectric applications.

Published
2022

40. Selective methane electrosynthesis enabled by a hydrophobic carbon coated copper core–shell architecture

Author

Minhui Zhu, Yuan Wei Liu, Xue Feng Wu, Peng Fei Liu, Wen Jing Li, Hai Yang Yuan, Sheng Dai, Xin Yu Zhang, Zheng Jiang, Jiacheng Chen, Hua Gui Yang, and Haifeng Wang

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, Protonation, Electrosynthesis, Pollution, Methane, Catalysis, chemistry.chemical_compound, Nuclear Energy and Engineering, Chemical engineering, chemistry, Environmental Chemistry, Selectivity, Partial current, Faraday efficiency, Electrochemical reduction of carbon dioxide
Abstract

The electrosynthesis of valuable chemicals via carbon dioxide reduction reaction (CO2RR) has provided a promising way to address global energy and sustainability problems. However, the selectivity and activity of deep-reduction products (DRPs) still remain as big challenges. Here, a copper–carbon-based catalyst with a hydrophobic core–shell architecture has been constructed and was found to exhibit excellent DRPs of methane generation with a faradaic efficiency of 81 ± 3% in a neutral medium and a maximum partial current density of −434 mA cm−2 in a flow cell configuration, which is among the best of CO2-to-CH4 electrocatalysts. Density functional theory calculations suggest that the hydrophobic structure decreasing the water coverage on the catalyst surface can promote the protonation of the *CO intermediate and block CO production, further favoring the generation of methane. These results provide a new insight into the electrosynthesis of DRPs via constructing a hydrophobic core–shell architecture for tuning the surface water coverage.

Published
2022

41. Superconductivity and topological states in hexagonal TaC and NbC

Author

Xiang-Gui Li, Jian-Guo Si, Lan-Ting Shi, Peng-Fei Liu, Ping Zhang, and Bao-Tian Wang

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

Materials with superconductivity and a nontrivial band structure near the Fermi level are promising candidates in realizing topological superconductivity. Using first-principles calculations, we systematically investigated the stability, mechanical properties, superconductivity, electronic structures, and topological states of hexagonal TaC and NbC. The results show that they are stable and have excellent mechanical properties. We predicted that these two carbides are strong electron-phonon coupling superconductors with superconducting transition temperatures of 14.8 and 17.1 K, respectively. Strong coupling is mainly dominated by in-plane Ta/Nb atomic vibrations and in-plane Ta/Nb-d

Published
2022

42. Superconductivity in Mo–P compounds under pressure and in double-Weyl semimetal Hex-MoP2

Author

Xin-Hai Tu, Tao Bo, Peng-Fei Liu, Wen Yin, Ning Hao, and Bao-Tian Wang

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

In this work, we predict five new global stable Mo–P weak phonon-mediated superconductors in the pressure range of 0–300 GPa via the CALYPSO code and in a metastable double-Weyl semimetal hex-MoP2.

Published
2022

44. Porous ZnIn2S4 with confined sulfur vacancies for highly efficient visible-light-driven photocatalytic H2 production

Author

Wen Li Jia, Xuefeng Wu, Yuanwei Liu, Jia Yue Zhao, Yang Zhang, Peng Fei Liu, Qilin Cheng, and Hua Gui Yang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

A porous ZnIn2S4 photocatalyst rich in sulfur vacancies shortens the charge transfer pathway, rapidly capturing the photogenerated electrons, which enhances the separation and migration ability of photoexcited charge carriers, thus enhancing photocatalytic H2 evolution.

Published
2022

45. Electrochemical conversion of CO2 to syngas with a stable H2/CO ratio in a wide potential range over ligand-engineered metal–organic frameworks

Author

Lin Cao, Xuefeng Wu, Yuanwei Liu, Fangxin Mao, Yingli Shi, Jiayu Li, Minghui Zhu, Sheng Dai, Aiping Chen, Peng Fei Liu, and Hua Gui Yang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Zn-BTC survived reconstruction with the possession of slightly reduced Zn2+ and carboxyl groups at negative potential, resulting in a steady H2/CO ratio (∼1 : 2) in a wide potential window (−0.96 to −1.96 V vs. RHE).

Published
2022

46. Low thermal conductivity and high performance anisotropic thermoelectric properties of XSe (X = Cu, Ag, Au) monolayers

Author

Qing-Yu Xie, Jiang-Jiang Ma, Qing-Yi Liu, Peng-Fei Liu, Pei Zhang, Kai-Wang Zhang, and Bao-Tian Wang

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

Combining density functional theory (DFT) and semi-classic Boltzmann transport theory, we report the thermoelectric (TE) performance of a family of two-dimensional (2D) group IB-selenides XSe (X = Cu, Ag, Au). The results show that these monolayers exhibit small and anisotropic phonon velocities (0.98-3.84 km s

Published
2022

47. A case report of CAT gene and HNF1β gene variations in a patient with early-onset diabetes

Author

Tao Cui, Hai-Bing Ju, Peng-Fei Liu, Yun-Jun Ma, and Fu-Xian Zhang

Subjects
General Immunology and Microbiology, General Neuroscience, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology
Abstract

Complex forms of diabetes are the ultimate common pathway involving multiple genetic variations and multiple environmental factors. Type 2 diabetes (T2DM) is classified as complex diabetes. Varying degrees of insulin deficiency and tissue insulin resistance are two key links to T2DM. The islet β cell dysfunction plays a crucial role in the pathogenesis of T2DM. The decompensation of the islet β cell to insulin resistance is a common mechanism leading to the pathogenesis of T2DM. Available data show that genetic factors mainly affect cell function. At present, a number of susceptibility genes related to T2DM have been reported at home and abroad. In this study, the diabetes-related genes in the case of early-onset diabetes with a significant family history were examined, and our results showed the presence of the intron mutations of catalase (CAT) gene and hepatocyte nuclear factor 1β (HNF1β) gene. The patient enrolled in this study was observed and analyzed, thus, increasing further understanding of the genes associated with diabetes and exploring the pathogenesis of diabetes from the molecular level. This is significant for guiding the prevention, treatment, and prognosis evaluation of diabetes.

Published
2022

50. A copper coordination polymer precatalyst with asymmetric building units for selective CO2-to-C2H4 electrolysis

Author

Chun Fang Wen, Min Zhou, Xuefeng Wu, Yuanwei Liu, Fangxin Mao, Huai Qin Fu, Yingli Shi, Sheng Dai, Minghui Zhu, Shuang Yang, Hai Feng Wang, Peng Fei Liu, and Hua Gui Yang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

A Cu-BTC-CP precatalyst with asymmetric building units, which in situ reconstructs to low-coordinated Cu during the CO2RR, delivers an ethylene faradaic efficiency of 65.2 ± 3% at 350 mA cm−2 in a flow cell.

Published
2023

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