HYDROGENASE

作品数:36被引量:19H指数:3
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相关领域:理学生物学更多>>
相关作者:温敏吴骊珠佟振合金朝晖陈大发更多>>
相关机构:哈尔滨工业大学中国科学院天津大学河北工业大学更多>>
相关期刊:《Aggregate》《Chinese Journal of Catalysis》《Journal of Agricultural Science and Technology(A)》《Chinese Journal of Chemistry》更多>>
相关基金:国家自然科学基金国家重点基础研究发展计划国家高技术研究发展计划中国博士后科学基金更多>>
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Heterobimetallic[NiCo]integration in a hydrogenase mimic for boosting light-driven hydrogen evolution in CaTiO_(3)
《Nano Research》2024年第8期6888-6894,共7页Kang Li Juanji Hong Ningning Song Zhanjun Guo Minmin Liang 
supported by the National Key R&D Program of China(No.2022YFA1205801);the National Natural Science Foundation of China(Nos.T2225026,82172087,82071308,and 52202344);Beijing Institute of Technology Research Fund Program for Young Scholars.
Light-drive hydrogen production using titanium-based perovskite is one sustainable way to reduce current reliance on fossil fuels,but its wide applications are still limited by high electron−hole recombination and slu...
关键词:hydrogen evolution reaction hydrogenase-mimic nanozyme PHOTOCATALYST WATER-SPLITTING 
Enzymatic C1 reduction using hydrogen in cofactor regeneration
《Frontiers of Chemical Science and Engineering》2024年第7期33-40,共8页Ruishuang Sun Chenqi Cao Qingyun Wang Hui Cao Ulrich Schwaneberg Yu Ji Luo Liu Haijun Xu 
funded by the National Key Research and Development Program of China(Grant No.2022YFC2105900);the National Natural Science Foundation of China(Grant Nos.22378015 and 52073022).
Carbon dioxide fixation presents a potential solution for mitigating the greenhouse gas issue.During carbon dioxide fixation,C1 compound reduction requires a high energy supply.Thermodynamic calculations suggest that ...
关键词:[NiFe]-hydrogenase SH formolase NADH regeneration C1 compound reduction thermodynamic calculation 
Elucidating microbial iron corrosion mechanisms with a hydrogenase-deficient strain of Desulfovibrio vulgaris
《mLife》2024年第2期269-276,共8页Di Wang Toshiyuki Ueki Peiyu Ma Dake Xu Derek R.Lovley 
supported by the grants from the National Key Research and Development Program of China(No.2020YFA0907300);the National Natural Science Foundation of China(Nos.U2006219 and 52301080).
Sulfate-reducing microorganisms extensively contribute to the corrosion of ferrous metal infrastructure.There is substantial debate over their corrosion mechanisms.We investigated Fe^(0) corrosion with Desulfovibrio v...
关键词:electrobiocorrosion electron transfer hydrogen transfer microbial corrosion sulfate-reducing microbes 
A functional hydrogenase mimic that catalyzes robust H_(2) evolution spontaneously in aqueous environment被引量:1
《Nano Research》2024年第5期3942-3949,共8页Ningning Song Zhanjun Guo Shuo Wang Yongli Li Yunpeng Liu Meishuai Zou Minmin Liang 
supported by the National Natural Science Foundation of China(Nos.T2225026,82172087,22025604,82071308,52202344);the National Key R&D Program of China(No.2022YFA120012501);Beijing Institute of Technology Research Fund Program for Young Scholars.
Although great progress has been made in improving hydrogen production,highly efficient catalysts,which are able to produce hydrogen in a fast and steady way at ambient temperature and pressure,are still in large dema...
关键词:hydrogenase mimic nanozyme hydrogen evolution reaction aluminum activation WATER-SPLITTING 
Biomimetic Fe_(7)S_(8)/Carbon electrocatalyst from[FeFe]-Hydrogenase for improving pH-Universal electrocatalytic hydrogen production Special Collection:Aggregation-Induced Processes and Functions
《Aggregate》2024年第1期451-459,共9页Dohun Kim Subramani Surendran Sejin Im Jaehyoung Lim Kyoungsuk Jin Ki Tae Nam Uk Sim 
Outsourced R&D Project of Korea Electric Power Corporation(KEPCO),Grant/Award Number:R23XO04;National Research Foundation of Korea(NRF);Korean government(MSIT),Grant/Award Numbers:NRF-2021M3H4A6A01045764,2020M3H4A3106313,2021R1C1C1004264,2021R1A4A1032114;Korea Institute for Advancement of Technology(KIAT);Ministry of Trade,Industry,and Energy(MOTIE),Korea,Grant/Award Number:P0025273;Korea Institute of Energy Technology Evaluation and Planning(KETEP)and the Ministry of Trade,Industry&Energy(MOTIE)of the Republic of Korea,Grant/Award Number:20224000000320;KENTECH Research Grant;Korea Institute of Energy Technology,Republic of Korea,Grant/Award Number:KRG2022-01-016;Regional Innovation Strategy(RIS)through the National Research Foundation of Korea(NRF);Ministry of Education(MOE),Grant/Award Number:2021RIS-002。
Efficient and cost-effective electrocatalysts that can operate across a wide range of pH conditions are essential for green hydrogen production.Inspired by biological systems,Fe_(7)S_(8)nanoparticles incorporated on p...
关键词:biomimetic electrocatalyst hydrogen production renewable energy 
Oxide-supported metal catalysts for anaerobic NAD+regeneration with concurrent hydrogen production
《Chinese Chemical Letters》2024年第2期263-267,共5页Jianwei Li Joseph W.H.Burnett Claudia Martinez Macias Russell F.Howe Xiaodong Wang 
supported by the EPSRC New Horizons grants(Nos.EP/V048635/1 and EP/X018172/1);We are also grateful for support from the UK Catalysis Hub funded by EPSRC grant reference EP/R026645/1.
We report SiO_(2)-supported monometallic Pt,Pd,Au,Ni,Cu and Co catalysts for proton-driven NAD+regeneration,co-producing H_(2).All metals are fully selective to NAD+where the order of turnover frequencies(Pt>Pd>Cu>Au,...
关键词:NAD+regeneration Heterogeneous catalyst Hydrogenase mimic Hydrogen binding energy Hydrogen production 
Peptide self‐assembly as a strategy for facile immobilization of redox enzymes on carbon electrodes
《Carbon Energy》2023年第11期15-30,共16页Itzhak Grinberg Oren Ben‐Zvi Lihi Adler‐Abramovich Iftach Yacoby 
Ministry of Energy,Israel,Grant/Award Numbers:219‐11‐120,222‐11‐065;Israel Science Foundation,Grant/Award Number:GA 2185/17。
Redox-enzyme‐mediated electrochemical processes such as hydrogen production,nitrogen fixation,and CO_(2) reduction are at the forefront of the green chemistry revolution.To scale up,the inefficient two‐dimensional(2...
关键词:3D electrode enzymes encapsulation H2 production HYDROGENASE peptide hydrogel 
Hydrogenase as the basis for green hydrogen production and utilization被引量:2
《Journal of Energy Chemistry》2023年第10期348-362,I0011,共16页Haishuo Ji Lei Wan Yanxin Gao Ping Du Wenjin Li Hang Luo Jiarui Ning Yingying Zhao Huangwei Wang Lixin Zhang Liyun Zhang 
supported by the National Key Research and Development Program of China (Nos. 2020YFA0907300, 2020YFA0907800);the National Natural Science Foundation of China (No. 22077069);the Natural Science Foundation of Tianjin (Nos. 19JCZDJC33400 and 21JCYBJC00310);the Fundamental Research Funds for the Central Universities, Nankai University (No. 63201111)。
Hydrogenase is a paradigm of highly efficient biocatalyst for H_(2) production and utilization evolved in nature. A dilemma is that despite the high activity and efficiency expected for hydrogenases as promising catal...
关键词:HYDROGENASE Biological H_(2)energy Oxygen tolerance Artificial photosynthesis Biofuel cells 
Prospects for engineering Ralstonia eutropha and Zymomonas mobilis for the autotrophic production of 2,3-butanediol from CO_(2)and H_(2)
《Engineering Microbiology》2023年第2期33-38,共6页Hui Wei Wei Wang Yat-Chen Chou Michael E.Himmel Xiaowen Chen Yannick J.Bomble Min Zhang 
This work was authored by Alliance for Sustainable Energy,LLC,the Manager and Operator of the National Renewable Energy Laboratory for the U.S.Department of Energy(DOE)under Contract No.DE-AC36-08GO28308;Funding provided by U.S.Department of Energy Office of Energy Efficiency and Renewable Energy,Bioenergy Technologies Of-fice(BETO);Funding for YJB was provided by the Center for Bioenergy Innovation(CBI),a U.S.Department of Energy Bioenergy Research Cen-ter supported by the Office of Biological and Environmental Research in the DOE Office of Science.
The decarbonization of the chemical industry and a shift toward circular economies because of high global CO_(2) emissions make CO_(2) an attractive feedstock for manufacturing chemicals.Moreover,H_(2) is a low-cost a...
关键词:Ralstonia eutropha Zymomonas mobilis BUTANEDIOL CO_(2)fixation CO_(2)sequestration Metabolic engineering HYDROGENASE Rubisco 
Desulfovibrio vulgaris as a model microbe for the study of corrosion under sulfate-reducing conditions被引量:2
《mLife》2022年第1期13-20,共8页Toshiyuki Ueki Derek R.Lovley 
Corrosion of iron-containing metals under sulfate-reducing conditions is an economically important problem.Microbial strains now known as Desulfovibrio vulgaris served as the model microbes in many of the foundational...
关键词:CORROSION DESULFOVIBRIO electron shuttle extracellular electron transfer Fe0 oxidation HYDROGENASE hydrogen uptake sulfate reduction sulfide 
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