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點(diǎn)擊申請中國化學(xué)會會員

劉予宇

男, 上海大學(xué), 教授/研究員/教授級高工或同等級別

學(xué)習(xí)/工作經(jīng)歷

教育經(jīng)歷
2000/04-2003/12, 日本國立山口大學(xué)(Yanamguchi University)大學(xué)院, 環(huán)境共生工學(xué), 工學(xué)博士;
1991/08-1994/07, 中國輻射防護(hù)研究院, 輻射防護(hù)與保健物理, 工學(xué)碩士;
1983/08-1987/08, 山西大學(xué)(Shanxi University), 化學(xué), 理學(xué)學(xué)士.

科研與學(xué)術(shù)工作經(jīng)歷
2016/07-, 上海大學(xué), 理學(xué)院, 教授;
2013/07-2016/06, 日本東北大學(xué), 大學(xué)院環(huán)境科學(xué)研究科, 準(zhǔn)教授;
2010/10-2013/06, 日本東北大學(xué)(Tohoku University), 大學(xué)院環(huán)境科學(xué)研究科, 助教;
2009/06-2010/10, 日本橫濱國立大學(xué)(Yokohama National University), 環(huán)境情報(bào)研究院, 研究教員;
2007/11-2009/05, 日本Imgineering株式會社, 研究開發(fā)部, NEDO項(xiàng)目研究員;
2006/05-2007/10, 日本東京農(nóng)工大學(xué)(Tokyo University of Agriculture and Technology, TUAT), 大學(xué)院, NEDO(The New Energy and Industrial Technology Development Organization,國立研究開発法人新エネルギー?産業(yè)技術(shù)総合開発機(jī)構(gòu))項(xiàng)目研究員;
2004/08-2006/04, 日本大阪工業(yè)大學(xué)(Osaka Institute of Technology), 環(huán)境對策中心, 研究員;2003/12-2004/07, 日本國立山口大學(xué), 工學(xué)部社會建設(shè)工學(xué)科, 研究員;
1999/08-2000/03, 日本國立山口大學(xué)(Yamaguchi University), 工學(xué)部社會建設(shè)工學(xué)科, 訪問研究員;
1998/07-1999/08, 中國輻射防護(hù)研究院, 環(huán)境測試中心, 助理研究員;
1997/07-1998/06, 日本九州環(huán)境管理協(xié)會(Kyushu Environmental Evaluation Association, KEEA), 分析科學(xué)科, 訪問研究員;
1987/08-1997/06, 中國輻射防護(hù)研究院(China Institute for Radiation Protection, CIRP), 環(huán)境科學(xué)研究所, 研究助手/助理研究員。

研究領(lǐng)域和興趣

電化學(xué)能源儲存與轉(zhuǎn)化

主要業(yè)績

2016年5月入職上海大學(xué)可持續(xù)能源研究院以來,主持國家及省部級項(xiàng)目3項(xiàng),發(fā)表科研論文60多篇,指導(dǎo)畢業(yè)博士研究生2名、碩士研究生14名。
詳見https://www.x-mol.com/groups/CO2/publications

代表成果

1. 論文
英文期刊論文
(56) Catalysts for Ammonia Electrosynthesis by Nitrogen Reduction: Recent Progress. Yuanzhe Gao, Jie Liu, Yayu Guan, Jiujun Zhang, Yuyu Liu*. ChemPlusChem 2025, e202500184.
(55) Construction of dual Z-scheme UiO-66-NH2/BiOCl/BiOI heterojunction for synergistic photocatalytic CO2 reduction and organic pollutant degradation. Zijie Xia, Linlin Wang*, Wenqi Tan, Linying Yuan, Tianchen Shen, Yuyu Liu*, Zheng Jiao*. Journal of Colloid and Interface Science 2025 699(1), 138184.
(54) Morphologically Engineered S-InxZny Bimetallic Catalysts via an Ionothermal Approach for Enhanced Carbon Dioxide Electroreduction to Formate. Xiaoyu Chen, Jie Liu, Shuoshuo Feng, Yanhong Zou*, Kai Wu, Fanghua Ning, Jin Yi, Yuyu Liu*. Sustainable Energy & Fuels 2025, 9, 3677-3685.
(53) Advances in design and development of proton-exchange membranes for high-temperature polymer electrolyte fuel cells. Wenyu Li, Xi Luo, Yongnan Zhou, Jianyue Shen, Yun Chen, Yuyu Liu*, Jinli Qiao*. Process Safety and Environmental Protection 2025, 199, 107273.
(52) Synthesis and Selenium Vacancy-Induced Catalytic Enhancement of CoSe2 for Efficient Electrocatalytic Nitrate Reduction. Shuoshuo Feng, Jie Liu, Xiaoyu Chen, Kai Wu*, Fanghua Ning, Jin Yi, Yuyu Liu*. Separation and Purification Technology 2025, 371, 133373.
(51) Dual skeleton network in situ-construction of alkaline anion-exchange membrane for boosting water electrolysis at low concentration of alkaline solution. Min Wang, Yongnan Zhou, Xueqi Dong, Wei Xiao, Yuyu Liu*, Jinli Qiao*. Process Safety and Environmental Protection 2025, 198, 107178.
(50) Poly(vinyl alcohol)/poly(ethylene glycol) Ion-Solvating Membrane with NiFe-LDH for High-Performance Alkaline Water Electrolysis. Wei Xiao, Xi Luo, Yongnan Zhou, Jiajun Meng, Min Wang*, Yuyu Liu, Jinli Qiao*. Separation and Purification Technology 2025, 366, 132769.
(49) Surface self-assembled multi-level NiFe-LDHs integrated super-hydrophilic diaphragms enabling efficient alkaline water electrolysis for high current density and durability. Xi Luo, Xiaohui Yang, Yongnan Zhou, Nengneng Xu, Nianjun Yang, Quan Zhang, Yuyu Liu, Daniil I. Kolokolov, Jinli Qiao*. Chemical Engineering Journal 2025, 510, 161697.
(48) Local microenvironment reactive zone engineering promotes water activation. Jian Luo, Junjie Zheng, Mingjie Wu*, Fang Dong, Yuyu Liu, Jinli Qiao*, Yingkui Yang*. Materials Reports: Energy 5 (2025) 100327.
(47) Improved hydrogen production performance of S-scheme Nb2O5/La2O3 photocatalyst. Irshad Ahmad*, Salem A. AlFaify, Khaled M. Alanezi, Mohammed Qasem Alfaifi, Marwan M. Abduljawad, Yuyu Liu*. Dalton Transactions 2025, 54, 1402-1417.
(46) Noble and non-noble Metal based catalysts for electrochemical nitrate reduction to ammonia: activity, selectivity and stability. Israr Masood ul Hasan, Nengneng Xu, Yuyu Liu*, Muhammad Zubair Nawaz, Haitao Feng*, Jinli Qiao*. Electrochemical Energy Reviews. 2024, 7, 36.
(45) Chloride doping of Co4S3 via methanol solvothermal synthesis for enhanced electrocatalytic nitrate reduction to ammonia. Shuoshuo Feng, Xufeng Rao, Xiaoyu Chen, Fanghua Ning, Min Wang, Yuyu Liu*. Process Safety and Environmental Protection 2024, 191, 2026-2033.
(44) In2O3/Bi2O3 interface induces ultra-stable carbon dioxide electroreduction on heterogeneous InBiOx catalyst. Xiaoyu Chen, Shuoshuo Feng, Jiaying Yan, Yanhong Zou, Linlin Wang, Jinli Qiao, Yuyu Liu*. Journal of Colloid and Interface Science 2025, 678, 757-766.
(43) CoNi layered double hydroxides grown on Ag nanowires for high-efficient nitrate-to-ammonia conversion. Xufeng Rao, Shuoshuo Feng, Yanhong Zou, Linlin Wang, Mei-fang Chien, Chihiro Inoue, Yuyu Liu*. Separation and Purification Technology 2025, 354, 129286.
(42) Sunlight-promoted CO2 electroreduction with staggered p-n heterojunction by indium-doped bismuth 3D nanoflower structure on oxidized copper foam as self-standing photoelectric cathode over a wide potential window. Lulu Li, Bing Nan, Neng Neng Xu*, Ge Bai, Ruinan He, Yuyu Liu*, Jinli Qiao*. Applied Catalysis B: Environment and Energy 2025, 360, 124489.
(41) Enhanced formic acid electrosynthesis from carbon dioxide by mediating the Bi2O3/La2O3 interface and La-induced oxygen vacancies in BiLa MOF-derived nanocatalysts. Yanhong Zou, Eric Rukundo, Xiaoyu Chen, Xufeng Rao, Yuyu Liu*. Separation and Purification Technology 2025, 353, 128624.
(40) Decorated and sculpted zeolitic imidazolate frameworks for electrocatalytic carbon dioxide reduction to formate. Yanhong Zou, Yayu Guan, Yuyu Liu*. Journal of Electroanalytical Chemistry 2024, 966, 118400.
(39) An unlocked core-shell Cu2O/NiCu-MOF ternary heterojunction on g-C3N4 enables highly efficient photocatalytic reduction of CO2 under visible light. Yanhong Zou, Eric Rukundo, Shuoshuo Feng, Xiaoyu Chen, Yuyu Liu*. Chemical Engineering Journal 2024, 492, 152435.
(38) Double-skeleton interpenetrating network-structured alkaline solid-state electrolyte enables flexible zinc-air batteries with enhanced power density and long-term cycle life. Xueqi Dong, Xi Luo, Xiaohui Yang, Min Wang, Wei Xiao, Yuyu Liu*, Nengneng Xu, Woochul Yang, Guicheng Liu, Jinli Qiao*. Journal of Colloid and Interface Science 2024, 672, 32-42.
(37) Mechanism Study on Dissociation of Hydrogen and Carbon Dioxide towards Carbon Dioxide Methanation. Baowang Lu*, Yuyu Liu, Mitsuhiro Inoue, Eric Rukundo, Takayuki Abe. Chemical Engineering Journal 2024, 492, 152021.
(36) 1.42-fold enhancement of formate selectivity by linker conversion on the Zn-based metal organic framework catalyst. Yayu Guan, Yuyu Liu*, Fanghua Ning, Jin Yi, Jiujun Zhang*. Journal of Energy Chemistry 2024, 90. 183-190.
(35) In-modified Sn-MOFs with high catalytic performance in formate electrosynthesis from aqueous carbon dioxide. Jiaying Yan, Xuanyu Wang, Fanghua Ning, Jin Yi, Yuyu Liu*, Kai Wu*. Dalton Transactions 2023, 52, 11904-11912.
(34) A porous Co3O4-carbon paper electrode enabling nearly 100% electrocatalytic reduction of nitrate to ammonia. Xufeng Rao, Jiaying Yan, Koji Yokoyama, Xiaolin Shao, Chihiro Inoue, Mei-fang Chien, Yuyu Liu*. Materials Reports: Energy 3 (2023) 100216.
(33) Formate electrosynthesis from aqueous carbon dioxide over Pb-Zn catalysts with core-shell structure. Qilong Wang, Yayu Guan, Yuyu Liu*, Fanghua Ning, Minmin Liu, Jin Yi, Kai Wu*. Dalton Transactions 2023, 52, 8778-8783.
(32) Zn-In-O electrocatalysts with co-existing ZnO and In2O3 phases for efficient reduction of CO2 to formate through sacrificial mechanism. Yayu Guan, Jiaying Yan, Yuyu Liu*, Fanghua Ning, Jin Yi, Jiujun Zhang*. Journal of Catalysis 2023, 424, 211-220.
(31) Bi-Eu bimetallic catalysts enabling ultrastable electroreduction of CO2 with a ~ 100% formate Faradaic efficiency. Jiaying Yan, Yayu Guan, Barbara Marchetti, Yuyu Liu*, Fanghua Ning, Jin Yi, Xiao-Dong Zhou*. Chemical Engineering Journal 2023, 467, 143531.
(30) Implanting MWCNTs in BiCu-MOFs to enhance electrocatalytic CO2 reduction to formate. Yan-Hong Zou, Xuanyu Wang, Fanghua Ning, Jin Yi, Yuyu Liu*. Separation and Purification Technology 2023, 317, 123806.
(29) Structure-evolved YbBiO3 perovskite for highly formate-selective CO2 electroreduction. Jiaying Yan, Xuanyu Wang, Yayu Guan, Yuyu Liu*, Linlin Wang, Qinsi Shao*, Qiu-an Huang. Dalton Transactions 2023, 52, 5277-5286.
(28) Facile synthesis of lead-tin nanoparticles for electrocatalyzing carbon dioxide reduction to formate. Qilong Wang, Yayu Guan, Jiaying Yan, Yuyu Liu*, Qinsi Shao*, Fanghua Ning, Jin Yi. Dalton Transactions 2023, 52, 4136-4141.
(27) Semiconductor photocatalysts: a critical review highlighting the various strategies to boost the photocatalytic performances for diverse applications. Irshad Ahmad*, Yanhong Zou, Jiaying Yan, Yuyu Liu*, Shazia Shukrullah, Muhammad Yasin Naz, Waheed Qamar Khan, N. R Khalid. Advances in Colloid and Interface Science 2023, 311, 10283.
(26) Recent Progress in Noble Metal Electrocatalysts for Nitrogen-to-Ammonia Conversion. Xufeng Rao, Minmin Liu*, Mei-Fang Chien, Chihiro Inoue, Jiujun Zhang, Yuyu Liu*. Renewable & Sustainable Energy Reviews 2022, 168, 112845.
(25) Tin-based metal organic framework catalysts for high-efficiency electrocatalytic CO2 conversion into formate. Xuanyu Wang, Yanhong Zou, Yanxing Zhang, Barbara Marchetti, Yuyu Liu*, Jin Yi, Xiao-Dong Zhou*, Jiujun Zhang. Journal of Colloid and Interface Science 2022, 626, 836.
(24) Facile synthesis and composition-tuning of bimetallic PbCd nanoparticles as superior CO2-to-HCOOH electrocatalysts. Xueliang Sun, Qilong Wang, Yuyu Liu*, Jin Yi, Jiujun Zhang. International Journal of Energy Research 2022, 46, 17015.
(23) Zeolitic imidazolate framework-derived composites with SnO2 and ZnO phase components for electrocatalytic carbon dioxide reduction. Yayu Guan, Yuyu Liu*, Jin Yi, Jiujun Zhang*. Dalton Transactions 2022, 51, 7274.
(22) Electronic structure modulation of bismuth catalysts induced by sulfur and oxygen co-doping for promoting CO2 electroreduction. Xiaolin Shao, Xueliang Sun, Qiuan Huang, Jin Yi, Jiujun Zhang, Yuyu Liu*. Dalton Transactions 2022, 51, 7223.
(21) Preparation of Bi-Bi2S3 catalyst to promote electron transfer for CO2 selective conversion to formate. Xiaolin Shao*, Yuyu Liu*. Journal of The Electrochemical Society 2022, 169, 026505.
(20) High-efficient carbon dioxide-to-formic acid conversion on bimetallic PbIn alloy catalysts with tuned composition and morphology. Xueliang Sun, Xiaolin Shao, Jin Yi, Jiujun Zhang, Yuyu Liu*. Chemosphere 2022, 293, 133595.
(19) Achieving high selectivity towards electro-conversion of CO2 using In-doped Bi derived from metal-organic frameworks. Yayu Guan, Xurui Zhang, Yanxing Zhang, Tolga N. V. Karsili, Mengyang Fan*, Yuyu Liu*, Barbara Marchetti, Xiao-Dong Zhou. Journal of Colloid and Interface Science 2022, 612, 235.
(18) CuBi electrocatalysts modulated to grow on derived copper foam for efficient CO2-to-formate conversion. Wenshuang Lou, Luwei Peng, Ruinan He, Yuyu Liu*, Jinli Qiao*. Journal of Colloid and Interface Science 2022, 606, 994.
(17) MOF-based electrocatalysts for high-efficiency CO2 conversion: structure, performance, and perspectives. Xuanyu Wang, Mengyang Fan*, Yayu Guan, Yuyu Liu*, Minmin Liu, Tolga N. V. Karsili, Jin Yi, Xiao-Dong Zhou, Jiujun Zhang. Journal of Materials Chemistry A 2021, 9, 22710. (Selectd as Hot Paper)
(16) Pt Modified Ni-Mo-based Hydrate as Bifunctional Electrocatalysts for Overall Water Splitting. Yayu Guan, Yuyu Liu*. New Journal of Chemistry 2021, 45, 16313.
(15) Electrochemical reduction of carbon dioxide (CO2): bismuth-based electrocatalysts. Yayu Guan, Minmin Liu*, Xufeng Rao, Yuyu Liu*, Jiujun Zhang. Journal of Materials Chemistry A 2021, 9, 13770.
(14) Sulfur and Nitrogen Co-Doping Bismuth-Based Catalysts for Selective Electroreduction of CO2 to Formate. Xiaolin Shao, Yuyu Liu*, Jiujun Zhang. ECS Transactions 2021, 102 (5), 67.
(13) Nanoporous structured Sn-MWCNT/Cu electrodes fabricated by electrodeposition-chemical dezincification for catalytic CO2 reduction. Xiaolin Shao, Qi Zhang, Xurui Zhang, Jin Yi, Yuyu Liu*, Jiujun Zhang. International Journal of Energy Research 2021, 45, 6273.
(12) Metal chalcogenides-associated catalysts enabling CO2 electroreduction to produce low-carbon fuels for energy storage and emission reduction: catalyst structure, morphology, performance, and mechanism. Xiaolin Shao, Xurui Zhang, Yuyu Liu*, Jinli Qiao, Xiao-Dong Zhou, Nengneng Xu, Jamie L. Malcombe, Jin Yi, Jiujun Zhang. Journal of Materials Chemistry A 2021, 9, 2526.
(11) An experimental study of electroreduction of CO2 to HCOOH on SnO2/C in presence of alkali metal cations (Li+, Na+, K+, Rb+ and Cs+) and anions (HCO3?, Cl?, Br? and I?). Qi Zhang, Xiaolin Shao, Jin Yi, Yuyu Liu*, Jiujun Zhang. Chinese Journal of Chemical Engineering 2020, 28, 2549.
(10) CO2-to-formate conversion by pulse electrodeposited Sn on Cu electrode. Xurui Zhang, Xiaofan Hou, Yuyu Liu*. Journal of The Electrochemical Society 2020, 167, 15, 155501.
(9) Utilization of carbon nanotube and graphene in electrochemical CO2 reduction. Xueliang Sun, Qi Zhang, Qingqing Li, Zhang Xurui, Xiaolin Shao, Jin Yi, Jiujun Zhang, Yuyu Liu*. Biointerface Research in Applied Chemistry 2020, 10, 4, 5815.
(8) Highly efficient and durable aqueous electrocatalytic reduction of CO2 to HCOOH with a novel bismuth-MOF: experimental and DFT studies. Xurui Zhang, Yanxing Zhang, Qingqing Li, Xiaodong Zhou, Qingyu Li, Jin Yi, Yuyu Liu*, Jiujun Zhang. Journal of Materials Chemistry A 2020, 8, 9776.
(7) Novel Bi, BiSn, Bi2Sn, Bi3Sn, and Bi4Sn Catalysts for Efficient Electroreduction of CO2 to Formic Acid. Qingqing Li, Yanxing Zhang, Xurui Zhang, Hongqiang Wang, Qingyu Li, Jiawei Sheng, Jin Yi, Yuyu Liu*, and Jiujun Zhang*. Industrial & Engineering Chemistry Research 2020, 59, 6806.
(6) Simply and effectively electrodepositing Bi-MWCNT-COOH composite on Cu electrode for efficient electrocatalytic CO2 reduction to produce HCOOH. Qingqing Li, Xurui Zhang, Xiaodong Zhou, Qingyu Li, Hongqiang Wang, Jin Yi, Yuyu Liu*, Jiujun Zhang. Journal of CO2 Utilization 2020, 37, 106.
(5) Efficient nitrate removal from water using selected cathodes and Ti/PbO2 anode: Experimental study and mechanism verification. Xufeng Rao, Xiaolin Shao, Jie Xu, Jin Yi, Jinli Qiao, Qingyu Li, Hongqiang Wang, Meifang Chien, Chihiro Inoue, Yuyu Liu*, Jiujun Zhang. Separation and Purification Technology 2019, 216, 158.
(4) Simultaneous removal of lead(II) and nitrate from water at low voltage. Xufeng Rao, Qingyu Li, Chihiro Inoue, Irshad Ahmad, Jin Yi, Yuyu Liu*, Jiujun Zhang. Journal of Water Process Engineering 2019, 32, 100940.
(3) High performing and cost-effective metal/metal oxide/metal alloy catalysts/electrodes for low temperature CO2 electroreduction. Qi Zhang, Wutao Xu, Jie Xu, Yuyu Liu*, Jiujun Zhang. Catalysis Today 2018, 318, 15.
(2) Preparation optimization of multilayer-structured SnO2-Sb-Ce/Ti electrode for efficient electrocatalytic oxidation of tetracycline in water. Kun Yang, Yuyu Liu*, Jiawen Liu, Jinli Qiao. Chinese Journal of Chemical Engineering 2018, 26 (12), 2622.
(1) Energy storage through CO2 electroreduction: A brief review of advanced Sn-based electrocatalysts and electrodes. Qingqing Li, Xufeng Rao, Jiawei Sheng, Jie Xu, Jin Yi, Yuyu Liu*, Jiujun Zhang. Journal of CO2 Utilization 2018, 27, 48.

中文期刊論文
(4) 金屬硫化物電催化劑在二氧化碳電化學(xué)還原中的研究進(jìn)展. 邵曉琳 (M2019)、劉予宇、易金、張久俊。自然雜志 (Chinese Journal of Nature) 2020, 42 (1), 27.
(3) 水溶液中二氧化碳電還原技術(shù)發(fā)展現(xiàn)狀、挑戰(zhàn)及對策. 張旭銳 (M2018)、邵曉琳、易金、劉予宇、張久俊。電化學(xué)(Journal of Electrochemistry) 2019, 25(4), 413.
(2) 光電催化還原二氧化碳概覽. 饒旭峰 (M2018)、許杰、劉予宇、張久俊。自然雜志 (Chinese Journal of Nature) 2017, 39 (4), 235.
(1) 二氧化碳電化學(xué)還原概述. 張琪 (M2016)、許武韜、劉予宇、張久俊。自然雜志 (Chinese Journal of Nature) 2017, 39 (4), 242.

2. 專利:
(1) 劉予宇、閆佳瀅。發(fā)明專利:一種鉍銪雙金屬催化劑、其制備方法及其應(yīng)用。申請?zhí)枺篊N202211356230.2;申請日:2022-11-01.

3. 著作
(2) Encyclopedia of Interfacial Chemistry; Xu, W.; Liu, Y.; Zhang, J. Elsevier: Oxford, 2018.
(1) Carbon Nanomaterials for Electrochemical Energy Technologies: Fundamentals and Applications; Sun, S.; Sun, X.; Chen, Z.; Liu, Y.; Wilkinson, D. P.; Zhang, J. CRC Press, 2017.

*以上信息由高級會員個人更新和維護(hù)。