个人简介
倪呈圣,betway必威教授,重庆市青年人才计划获得者。重庆土壤学会理事、中国化学学会会员。
倪呈圣博士分别在武汉大学、中国科学院金属研究所、英国圣安德鲁斯大学获得学士、硕士和博士学位,主要研究低固态离子学、固态电化学催化和环境光催化。获得自然科学基金、国家重点研发计划子课题、重庆市科委包干制项目、重庆市留学归国人员创新项目、西南大学相关项目的支持,课题经费达到170万元。
相关研究成果发表于Nature Communications、Energy & Environmental Science、ACS Catalysis、Chemical Engineering Journal等顶级期刊。已培养硕士研究10余名、国际博士生1名。
工作经历
betway必威教授2022.11-至今
betway必威副教授2017.01-2022.07
英国圣安德鲁斯大学博士后 合作导师 Prof. John T.S. Irvine 1. 2014.01 – 12.2016
日本産業技術総合研究所(AIST) 合作者 Dr Vladimir Svrcek 2015.09 –2015.11
上海应用物理研究所核能项目部工程师 2010.06 –2010.11
教育经历
圣安德鲁斯大学博士: Prof. John T.S. Irvine (英国) 2010.11 –2014.01
中国科学院金属研究所硕士研究生 导师:牛焱 研究员 2007.09 –2010.05
武汉大学 水质科学与技术系本科 2003.09 –2007.06
所获荣誉
重庆市“巴渝学者青年学者”, 2019年11月 重庆市
川渝科技学术大会二等奖 《高效抗碳沉积Ce/Ru共掺杂铁基钙钛矿氧化物的阳极材料》 省部级2021年11月 重庆市/四川省科学技术协会
“西南大学土壤肥料学教师团队”第二批全国高校黄大年式教师团队 2022年 骨干成员
“三峡库区面源污染防控创新团队”科技部创新人才推进计划重点领域创新团队 2017年 骨干成员
主持科研项目
自然科学基金青年基金 25万 FeNbO4基n型半导体氧化物材料作为对称SOFC电极的掺杂与性能研究, 国家自然科学基金,2018.01-2020.12
重庆市包干制项目,土壤光催化物质转化,重庆市科委,40 万,2022.01-2023.12
国家重点研发计划子课题 20万 南方山地玉米化肥减施增产技术优化创新子课题3 2018.01-2020.12
国家重点研发计划子课题 40万 农村有机废弃物清洁转化高值利用技术与智能化装备研究2022.08-2027.07
中央高校基本业务费 20万 n-型半导体作为对称固体氧化物燃料电池电极的研究 2017.01-2018.12
博士启动基金 20万 层状钙钛矿氧化物用作固体氧化物可逆电池空气电极的研究 2017.01-2019.12
中央高校基本业务费 20万 土壤光催化机理研究2020.01-2021.12
重庆市留创项目 5万 土壤光催化物质转化 2020.11-2022.10
校地合作项目8.2万 土壤及沉积物地球化学元素测量 2018.09
代表性学术成果
第一作者:
[1] C.S. Ni, G. Hedley, J. Payne, V. Svrcek, C. McDonald, L.K. Jagadamma, P. Edwards, R. Martin, G. Jain, D. Carolan, D. Mariotti, P. Maguire, I. Samuel, J. Irvine, Charge carrier localised in zero-dimensional (CH3NH3)3Bi2I9 clusters, Nat. Commun., 8 (2017) 170. IF=17.7 一区
[2] C.S. Ni, J. Zhou, Z.Y. Zhang, S.B. Li, J.P. Ni, K. Wu, J.T.S. Irvine, Iron-based electrode materials for solid oxide fuel cells and electrolysers, Energy Environ. Sci., 14 (2021) 6287-6319. IF=39.7 一区
[3] C.S. Ni, Q. Zeng, D. He, L. Peng, D. Xie, J.T.S. Irvine, S. Duan, J. Ni, A B-site doped perovskite ferrate as an efficient anode of a solid oxide fuel cell with in situ metal exsolution, J. Mater. Chem. A, 7 (2019) 26944-26953. IF=14.5 一区
[4] C.S. Ni, L.Y. Lu, D.N. Miller, M. Cassidy, J.T.S. Irvine, Microstructure dependence of performance degradation for intermediate temperature solid oxide fuel cells based on the metallic catalyst infiltrated La- and Ca-doped SrTiO3 anode support, J. Mater. Chem. A, 6 (2018) 5398-5406. IF=14.5 一区
[5] C.S. Ni, J.M. Vohs, R.J. Gorte, J.T.S. Irvine, Fabrication and characterisation of a large-area solid oxide fuel cell based on dual tape cast YSZ electrode skeleton supported YSZ electrolytes with vanadate and ferrite perovskite-impregnated anodes and cathodes, J. Mater. Chem. A, 2 (2014) 19150-19155. IF=14.5 一区
[6] C.S. Ni, L.Y. Lu, C.L. Zeng, Y. Niu, Electrochemical impedance studies of the initial-stage corrosion of 310S stainless steel beneath thin film of molten (0.62Li,0.38K)2CO3 at 650°C, Corros. Sci., 53 (2011) 1018-1024. IF=7.7 一区
[7] C.S. Ni, D. Carolan, C. Rocks, J. Hui, Z. Fang, D.B. Padmanaban, J. Ni, D. Xie, P. Maguire, J.T.S. Irvine, D. Mariotti, Microplasma-assisted electrochemical synthesis of Co3O4 nanoparticles in absolute ethanol for energy applications, Green Chem., 20 (2018) 2101-2109. IF=11.0 一区
[8] C.S. Ni, W. Lu, J. Zhang, L. Peng, D. Xie, J. Ni, Blue-light emitting aminated pectin for detecting Cu2+ ion, Int. J. Biol. Macromol., 176 (2021) 272-281. IF=8.0 一区
[9] C.S. Ni, Y. Zhang, X. Huang, J. Zou, G. Zhang, J. Ni, Effect of anode calcination on the performance and redox stability of low-temperature solid oxide fuel cells prepared via impregnation, Int. J. Hydrogen Energy, 42 (2017) 30760-30768. IF=7.1 二区
[10] C.S. Ni, D.F. Zhang, C.Y. Ni, Z.M. Wang, Ruddlesden–Popper nickelate as coating for chromia-forming stainless steel, Int. J. Hydrogen Energy, 39 (2014) 13314-13319. IF=7.1 二区
[11] C.S. Ni, M. Cassidy, J.T.S. Irvine, Image analysis of the porous yttria-stabilized zirconia (YSZ) structure for a lanthanum ferrite-impregnated solid oxide fuel cell (SOFC) electrode, J. Eur. Ceram. Soc., 38 (2018) 5463-5470. IF=6.4 一区
[12] C.S. Ni, L.Y. Lu, C.L. Zeng, Y. Niu, Evaluation of corrosion resistance of aluminium coating with and without annealing against molten carbonate using electrochemical impedance spectroscopy, J. Power Sources, 261 (2014) 162-169. IF=9.8 二区
[13] C.S. Ni, J.T.S. Irvine, Image Analysis and Modeling of the Orientation of Pores in a Constrained Film on a Rigid Substrate, J. Am. Ceram. Soc., 98 (2015) 2403-2410. IF=7.1 二区
[14] C.S. Ni, J.P. Ni, Z.Z. Zhou, M. Jin, Structural and chemical stability of Sr-, Nb- and Zr-doped calcium manganite as oxygen-storage materials, J. Alloys Compd., 709 (2017) 789-795. IF=6.4 二区
[15] C.S. Ni, D. Carolan, J. Hui, C. Rocks, D. Padmanaban, J. Ni, D. Xie, Z. Fang, J. Irvine, P. Maguire, D. Mariotti, Evolution of Anodic Product from Molybdenum Metal in Absolute Ethanol and Humidity Sensing under Ambient Conditions, Cryst. Growth Des., 19 (2019) 5249-5257. IF=4.0 二区
[16] C.S. Ni, J.T. Irvine, Calcium manganite as oxygen electrode materials for reversible solid oxide fuel cell, Faraday Discuss., 182 (2015) 289-305. IF=4.4 二区
[17] C.S. Ni, J. Feng, J. Cui, J. Zhou, J. Ni, An n-Type Oxide Fe0.5Mg0.25Ti0.25Nb0.9Mo0.1O4-δ for Both Cathode and Anode of a Solid Oxide Fuel Cell, J. Electrochem. Soc., 164 (2017) F283-F288. 三区
[18] C.S. Ni, Y. Tang, H. R. S. Abdellatif, X. Huang, D. Xie, J. Ni, Boron-Doped TiO2 from Anodization of TiB2 for Efficient Photocatalysis, J. Electrochem. Soc., 127 (2020) 126505. 三区
[19] C.S. Ni, L.Y. Lu, Electrochemical Impedance and Modelling Studies of the Corrosion of Three Commercial Stainless Steels in Molten Carbonate, Int. J. Corros., 2014 (2014) ID 721208. EI
[20] 倪呈圣;, 曾潮流;, 牛焱, 多弧离子镀Al涂层对310不锈钢在熔融碳酸盐中的腐蚀的影响, 腐蚀科学与防护技术, 23 (2011) 417-421. CSCD
通信作者论文
[1] B.X. Li, S. He, J.B. Li, X.L. Yue, J.T.S. Irvine, D.T. Xie, J.P. Ni, C.S. Ni, A Ce/Ru Codoped SrFeO3−δ Perovskite for a Coke-Resistant Anode of a Symmetrical Solid Oxide Fuel Cell, ACS Catal., 10 (2020) 14398-14409. IF=13.7一区
[2] H.R.S. Abdellatif, G. Zhang, Y. Tang, W. Ruan, J. Li, D. Xie, J. Ni, C.S. Ni, A highly efficient dual-phase GaN(O)/Nb2O5(N) photocatalyst prepared through nitridation and reoxidation process for NO removal, Chem. Eng. J. (Lausanne), 402 (2020) 126199. IF=16.7一区
[3] H.R.S. Abdellatif, G. Zhang, X. Wang, D. Xie, J.T.S. Irvine, J. Ni, C.S. Ni, Boosting photocatalytic oxidation on graphitic carbon nitride for efficient photocatalysis by heterojunction with graphitic carbon units, Chem. Eng. J. (Lausanne), 370 (2019) 875-884. IF=16.7一区
[4] D. He, W. Ruan, J. Li, J. Ni, C.S. Ni, Heterogeneity in the Mo doped La0.55Sr0.45FeO3 cathode for direct CO2 electrolysis, Chem. Eng. J. (Lausanne), 443 (2022) 133632. IF=16.7一区
[5] B. Li, J.T.S. Irvine, J. Ni, C.S. Ni, High-performance and durable alcohol-fueled symmetrical solid oxide fuel cell based on ferrite perovskite electrode, Appl. Energy, 306 (2022) 118117. IF=11.4一区
[6] Y. Wan, J. Li, J. Ni, C. Wang, C.S. Ni, H. Chen, Crystal-Facet and Microstructure Engineering in ZnO for Photocatalytic NO Oxidation, J. Hazard. Mater., 435 (2022) 129073. IF=14.2一区
[7] Y. Gan, H.R.S. Abdellatif, J. Zhang, Y. Wan, Q. Zeng, J. Chen, J. Ni, Y. Zhang, S. E, C.S. Ni, Photocatalytic nitrogen-oxide conversion in red soil, J. Clean Prod., 326 (2021) 129377. IF=11.1一区
[8] S. Liu, W. Menglin, L. Lu, J. Ni, C.S. Ni, J.T.S. Irvine, La0.5Ba0.5CuxFe1−xO3−δ as cathode for high-performance proton-conducting solid oxide fuel cell, Sep. Purif. Technol., 297 (2022) 121485. IF=9.1一区
[9] C. Wang, T. Zhang, J. Luo, M. Wu, J. Niu, E. Shang, C.S. Ni, J. Ni, Synergistic enhancement of piezocatalysis and electrochemical oxidation for the degradation of ciprofloxacin by PbO2 intercalation material, Sep. Purif. Technol., 297 (2022) 121528. IF=9.1一区
[10] S. Zhong, C. Wei, J. Ni, D. Xie, C.S. Ni, Characterization of clay rock-derived soils containing multi-mineral sand particles in upland areas of Sichuan Basin, China, Catena, 194 (2020) 104737. IF=6.4一区
[11] Z. Zhang, D. Xie, J. Ni, C.S. Ni, Ba2YCu3O6+δ-based cathode material for proton-conducting solid oxide fuel cells, Ceram. Int., 47 (2021) 14673–14679. IF=5.5一区
[12] D. Li, J. Hui, S. Liu, C.S. Ni, J. Ni, Role of a Topotactic Electrochemical Reaction in a Perovskite-Type Anode for Lithium-Ion Batteries, Chemelectrochem, 4 (2017) 2474-2479. 二区
[13] R.K. Shrestha, D. Shi, H. Obaid, N.S. Elsayed, D. Xie, J. Ni, C.S. Ni, Crops’ response to the emergent air pollutants, Planta, 256 (2022) 80. 二区
[14] X. Huang, J. Feng, H.R.S. Abdellatif, J. Zou, G. Zhang, C.S. Ni, Electrochemical evaluation of double perovskite PrBaCo2-xMnxO5+δ (x = 0, 0.5, 1) as promising cathodes for IT-SOFCs, Int. J. Hydrogen Energy, 43 (2018) 8962-8971. 二区
[15] Q.M. Zeng, X.J. Liu, D.T. Xie, J.P. Ni, C.S. Ni, A strontium-free and iron-based oxygen electrode for solid-oxide electrochemical cells (SOCs), Int. J. Hydrogen Energy, 44 (2019) 15387-15399. 二区
[16] X.J. Liu, D.T. Xie, J.T.S. Irvine, J.P. Ni, C.S. Ni, An FeNbO4-based oxide anode for a solid oxide fuel cell (SOFC), Electrochim. Acta, 335 (2020) 135692. 二区
[17] W. Ruan, X. Yue, J. Ni, D. Xie, C.S. Ni, α-PbO2-type niobate as efficient cathode materials for steam and CO2 electrolysis, J. Power Sources, 483 (2021) 229234. 二区
[18] M.L. Wu, H.Y. Yu, J.P. Ni, C.S. Ni, Coke-resistant ferrite anode decorated with in-situ exsolved ceria for carbonaceous fuel oxidation, 2023, doi: 10.1016/j.jpowsour.2022.232266. 二区
[19] R.K. Shrestha, P. Lei, D. Shi, M.H. Hashimi, S. Wang, D. Xie, J. Ni, C.S. Ni, Response of maize (Zea mays L.) towards vapor pressure deficit, Environ. Exp. Bot., 181 (2021) 104293. 二区
[20] H.R.S. Abdellatif, G. Zhang, D. Xie, J.P. Ni, C.S. Ni, Ionic Salt-Mediated Tuning of the Morphology and Bandstructure of Graphitic Carbon Nitride for NO Removal under Visible Light, ACS App. Nano Mater., 4 (2021) 2828–2839.
[21] N.S. Elsayed, H. Obaid, D. Shi, P. Lei, D. Xie, J. Ni, O.K. Shalaby, C.S. Ni, Effect of Zinc Application on Maize Productivity and Eukaryotic Microorganism’s Diversity in a Newly Cultivated Field, Journal of Soil Science and Plant Nutrition, (2022) 3697–3707.
[22] H. Obaid, R.K. Shrestha, D.Y. Liu, N.S. Elsayed, J.P. Ni, C.S. Ni, Biofortification of Maize with Zinc and Its Effect on Human Health, Journal of Soil Science and Plant Nutrition, 22 (2022) 1792–1804.
[23] X.J. Liu, J. Zhou, D.T. Xie, J.P. Ni, C.S. Ni, FeNbO4-based oxide cathode for steam electrolysis, Solid State Ionics, 345 (2020) 115181.
[24] Q. Zeng, J. Ni, D. Mariotti, L. Lu, H. Chen, C.S. Ni, Plasma-treatment of polymeric carbon nitride for efficient NO abatement under visible light, J. Phys. D: Appl. Phys., 55 (2022) 354003.
[25] Q.M. Zeng, J.W. Chen, Y.S. Wan, J.P. Ni, C.S. Ni, H. Chen, Immobilizing TiO2 on nickel foam for an enhanced photocatalysis in NO abatement under visible light, J. Mater. Sci., 57 (2022) 15722–15736.
[26] J. Zhang, X. Liu, J. Zhou, X. Huang, D. Xie, J. Ni, C.S. Ni, Carbon dots derived from algae as H2O2 sensors: the importance of nutrients in biomass, Nanoscale Adv., 1 (2019) 2151-2156.
[27] L. Liu, W. Lu, Z. Li, C. Wei, D. Xie, J. Ni, C.S. Ni, Optical Spectroscopy of Hydrothermally Treated Soil for Organic Matter Monitoring, Commun. Soil Sci. Plant Anal., 53 (2022) 293-303.