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作品数:1542被引量:2818H指数:17
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相关作者:吴骊珠孟庆元佟振合张强刘娜更多>>
相关机构:中国科学院清华大学华东理工大学中国科学院大学更多>>
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Developing indium-oxide based catalysts for efficient hydrogenation of carbon dioxide to methanol:a mini-review
《Frontiers of Chemical Science and Engineering》2025年第3期29-50,共22页Yuxin Wang Na Yang Zeshan Wang Dong Tian Hua Wang Kongzhai Li 
supported by the National Natural Science Foundation of China(Grant Nos.U2202251,52466006 and 52174279);Yunnan Fundamental Research Projects(Grant Nos.202301AU070027 and 202401AT070388);Major R&D Special Project of Yunnan Province“Research and Application of Catalytic Conversion of CO_(2) to High Value Chemicals”(Grant No.202302AG050005);Applied Basic Research Program of Yunnan Province for Distinguished Young Scholars(Grant No.202201AV070004);Central Guiding Local Science and Technology Development Fund(Grant No.202207AA110001);the analyze test fund of Kunming University of Science and Technology(Grant No.2023T20210207).
While the use of fossil fuels has contributed to the progress and development of human society,the huge amount of CO_(2)is emitted,which has led to the deterioration of the ecological environment.Converting CO_(2)into...
关键词:indium oxide HYDROGENATION carbon dioxide METHANOL CATALYSIS 
Unveiling the mechanism of selective CO_(2)hydrogenation to CO on amorphous black TiO_(X)in thermal and photo-assisted thermal catalysis:The role of defects in amorphous structure and light irradiation
《Nano Research》2025年第3期106-122,共17页Mohammad Fereidooni Mohammad Yazdanpanah Victor Márquez C.V.Paz Martin Salazar Villanueva Supareak Praserthdam Piyasan Praserthdam 
supported by the Second Century Fund(C2F)of Chulalongkorn University,Thailand.
Developing catalysts capable of efficiently utilizing both visible and near-infrared wavelengths of the solar spectrum for CO_(2)hydrogenation has led to growing interest in reduced TiO_(2)materials.Achieving efficien...
关键词:oxygen vacancy AMORPHOUS catalytic CO_(2)hydrogenation hydrogen mobility photo-thermal reaction mechanism analysis 
Enhanced methanol production from photothermal CO_(2) reduction via multilevel interface design
《Nano Research》2025年第2期235-241,共7页Hongmin Wang Bo Shang Chungseok Choi Sungho Jeon Yuanzuo Gao Tyler Wang Nia J.Harmon Mengxia Liu Eric A.Stach Hailiang Wang 
Photothermal CO_(2) hydrogenation is a promising route to produce methanol as a sustainable liquid solar fuel.However,most existing catalysts require a combination of solar irradiation and additional heat input to ach...
关键词:photothermal catalysis CO_(2)hydrogenation methanol production solar fuel multilevel interface Cu/ZnO/Al_(2)O_(3)(CZA)catalyst 
Revolutionizing photothermal CO_(2)hydrogenation with ceria-based catalysts
《Nano Research》2025年第1期30-49,共20页Zhaorui Zhang Xiao Han Junhong Zhang Yunyun Dong Jinsheng Zhao Qian Xu Ningqiang Zhang 
supported by the National Natural Science Foundation of China(Nos.22172069 and 22106085).
In the context of achieving carbon neutrality,CO_(2)catalytic conversion technologies are effective in reducing atmospheric CO_(2)concentrations while simultaneously producing renewable products.This approach is seen ...
关键词:CO_(2)neutrality HYDROGENATION photothermal catalysis CERIA C1 chemistry 
Earth-Abundant Nickel-Catalyzed Asymmetric Hydrogenation
《Chinese Journal of Chemistry》2024年第23期3135-3156,共22页Peng Wang Zhao-Lin He Zi-Fei Xia Jun Wei Xiu-Qin Dong 
financial support from National Natural Science Foundation of China(22071187,22271226);Natural Science Foundation of Hubei Province(2021CFA069);National Youth Talent Support Program。
Transition metal-catalyzed asymmetric hydrogenation is an efficient and direct synthetic method to access chiral compounds,which features simplicity,easy working-up process,and high atomic economy.It typically relies ...
关键词:Transition metal Nickel HYDROGENATION ENANTIOSELECTIVITY Asymmetric catalysis Earth-abundant metal 
Ate complexes in organic synthesis:From ate reagents to ate catalysts
《Green Synthesis and Catalysis》2024年第3期141-152,共12页Yang'en You Congcong Yin Liren Xu Gen-Qiang Chen Xumu Zhang 
the Shenzhen Science and Technology Innovation Committee(No.KQTD20150717103157174);Stable Support Plan Program of Shenzhen Natural Science Fund(Program Contract No.20200925161222002);Key-Area Research and Development Program of Guangdong Province(No.2020B010188001);Innovative Team of Universities in Guangdong Province(No.2020KCXTD016);National Natural Science Foundation of China(No.21991113);the National Natural Science Foundation of China(Nos.21901107 and 22171129);Shenzhen Science and Technology Innovation Committee(No.JCYJ20210324104202007)for financial support.
The realm of application of organometallic catalysis to organic synthesis has witnessed a transformative shift in recent years,owing much to the evolution of ate complexes from mere reagents to versatile catalysts.Ate...
关键词:Ate complexes Ate catalysis ANIONIC HYDROGENATION CROSS-COUPLING 
Siliceous mesocellular foam supported Cu catalysts for promoting non-thermal plasma activated CO_(2) hydrogenation toward methanol synthesis
《Frontiers of Chemical Science and Engineering》2024年第7期55-65,共11页Yi Chen Shaowei Chen Yan Shao Cui Quan Ningbo Gao Xiaolei Fan Huanhao Chen 
funding from the International Science and Technology Cooperation Project of Innovative Supporting Plan from Jiangsu Provincial Department of Science and Technology(Grant No.BZ2022040);the National Natural Science Foundation of China(Grant No.22278204);the Jiangsu Specially-Appointed Professors Program.This Project was also partially supported by Ningbo Natural Science Foundation(Project ID 2023J245);the special innovation project fund(Grant No.XMGL-KJZX-202204,52376207,52276211)from the Institute of Wenzhou,Zhejiang University.
Electrified non-thermal plasma (NTP) catalytic hydrogenation is the promising alternative to the thermal counterparts, being able to be operated under mild conditions and compatible with green electricity/hydrogen. Ra...
关键词:non-thermal plasma(NTP)catalysis Cu catalyst CO_(2)hydrogenation METHANOL siliceous mesocellular foam(MCF) 
Asymmetric Hydrogenation of Phenanthridines with Chiral Boranes
《Chinese Journal of Chemistry》2024年第6期631-635,共5页Guangyu Cui Xiangqing Feng Haifeng Du 
financial support from the National Natural Science Foundation of China(21825108 and 22331011).
The asymmetric hydrogenation of N-heteroarenes provides an efficient method for the synthesis of optically active cyclic secondary amines.In this paper,we described an asymmetric hydrogenation of phenanthridines using...
关键词:Asymmetric catalysis HYDROGENATION Nitrogen heterocycles PHENANTHRIDINES Frustrated Lewis pairs Chiral boranes 
Correction:Interfacial catalysis of metal‑oxide nanocatalysts in CO2 hydrogenation to value‑added C1 chemicals
《Surface Science and Technology》2024年第1期49-50,共2页Ziwei Wang Zhenhua Zhang 
Following publication of the original article[1],the authors reported that“Methanal”needs to be corrected to“Methanol”in the legend of Fig.1.The correct Fig.1 has been provided in this Correction.The original arti...
关键词:corrected CATALYSIS HYDROGENATION 
A new artificial photosynthetic system coupling photovoltaic electrocatalysis with solar heating catalysis
《National Science Open》2023年第6期17-28,共12页Yaguang Li Fanqi Meng Xianhua Bai Dachao Yuan Xingyuan San Shufang Wang Lin Gu Qingbo Meng 
supported by the Natural Science Foundation of Hebei Province(B2022201090,B2021201074,B2021201034 and F2021203097);Hebei Provincial Department of Science and Technology(216Z4303G);Hebei Education Department(QN2022059);the Interdisciplinary Research Program of Natural Science of Hebei University(521100311 and DXK202109);the Knowledge Innovation Program of the Chinese Academy of Sciences,Hebei University(050001-521100302025 and 050001-513300201004)
In this work,we present a novel artificial photosynthetic paradigm with square meter(m^(2))level scalable production by integrating photovoltaic electrolytic water splitting device and solar heating CO_(2)hydrogenatio...
关键词:artificial photosynthetic photovoltaic electrocatalysis solar heating catalysis CO_(2)hydrogenation low cost 
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