程年才

发布者:
发布时间:
2021-05-11
浏览量:

程年才,教授,博导。入选福建省闽江学者、福建省引进高层次人才B类人才。研究领域为氢能及燃料电池,致力于研究电解水及燃料电池中的关键材料及器件等。已经实现了Pt基催化剂和氧化铱催化剂批量化制备技术和工艺。目前主持国家自然科学基金及福建省高校产学研等项目多项,在Nature Communications, Adv. Mater., Energy Environ. Sci.等学术刊物上发表SCI论文80余篇论文,获得了17件授权发明专利。

E-mailniancaicheng@fzu.edu.cn

ResearchGate: https://www.researchgate.net/profile/Niancai-Cheng-2

学习经历:

2008.10-2009.09    英国巴斯大学 博士联合培养                  导师: Frank Marken教授        

2007.09-2010.06   武汉理工大学材料复合新技术国家重点实验室    博士, 导师:潘牧教授

2004.09-2007.06    武汉理工大学材料复合新技术国家重点实验室   硕士   导师:木士春教授

1999.09-2003.06    武汉理工大学  本科

工作经历:

2016.11-至今, 福州大学,best365英国体育在线,闽江学者特聘教授  

2012.06-2016.09 加拿大西安大略大学  博士后   合作导师:孙学良院士

2011.03-2012.02 美国伊利诺伊大学厄巴纳-香槟分校  博士后 合作导师:Andrzej  Wieckowski教授

主要研究方向:

    1. 质子交换膜燃料电池(Proton exchange membrane fuel cell, PEMFC)关键材料

  1)高效低Pt、超低Pt催化剂; 2)非贵金属催化剂; 3)产业化 Pt/CPt-M/C催化剂。

2. 电解水催化剂

3. -硫电池关键材料

4.  原子层沉积技术(atomic layer depositionALD在新能源材料中的应用

科研成果:

1)学术论文:

2024年:

[1] Zichen Wang, Wei Wu, Haoran Jiang, Suhao Chen, Runzhe Chen, Yu Zhu, Yong Xiao, Haifeng Lv*, Jun Zhong*, Niancai Cheng*. Ti Single Atom Enhancing Pt-Based Intermetallics for Efficient and Durable Oxygen Reduction. Advanced Functional Materials, 2024, 34(44): 2406347.

[2] Yangyang Tan, Zeyi Zhang, Suhao Chen, Wei Wu, Liyue Yu, Runzhe Chen, Fei Guo, Zichen Wang, Niancai Cheng*. Local Geometric Distortion to Stimulate Oxygen Reduction Activity of Atomically Dispersed Zn-Nx Sites for Zn–Air Batteries. Advanced Functional Materials, 2024, 34(10): 2311337.

[3] Haoran Jiang, Zichen Wang, Suhao Chen, Yong Xiao, Yu Zhu, Wei Wu, Runzhe Chen, Niancai Cheng*. Atomic controlled shell thickness on Pt@Pt3Ti core-shell nanoparticles for efficient and durable oxygen reduction . Journal of Materials Science & Technology, 2025, 205: 212-20.

[4] Yu Zhu, Shunqiang Zhang, Runzhe Chen, Zichen Wang, Wei Wu, Haoran Jiang, Heyuan Chen, Niancai Cheng*. Controllable Electronic Transfer Tailoring d-band Center via Cobalt–Oxygen-Bridged Ru/Fe Dual-sites for Boosted Oxygen Evolution . Small, 2024, 20(25): 2310611.

[5] Ming Zheng, Junzhe Zhao, Wei Wu, Runzhe Chen, Suhao Chen, Niancai Cheng*. Co/CoS2 Heterojunction Embedded in N, S-Doped Hollow Nanocage for Enhanced Polysulfides Conversion in High-Performance Lithium–Sulfur Batteries. Small, 2024, 20(3): 2303192.

[6] Ming Zheng, Wei Wu, Ruijian Luo, Suhao Chen, Junzhe Zhao, Niancai Cheng*. Constructing stronger interaction with polysulfides for faster conversion of Li2S2 to Li2S by Co-CoSe2@N, Se-doped carbon nanocages in lithium-sulfur batteries. Journal of Materials Science & Technology, 2024, 195: 165-76.

[7] Zeyi Zhang, Wei Wu, Suhao Chen, Zichen Wang, Yangyang Tan, Wei Chen, Fei Guo, Runzhe Chen, Niancai Cheng*. Directed Dual Charge Pumping Tunes the d-Orbital Configuration of Pt Cluster Boosting Hydrogen Evolution Kinetic. Small, 2024, 20(22): 2307135.

[8] Wei Wu, Wei Qu, Zichen Wang, Yangyang Tan, Runzhe Chen, Suhao Chen, Haifeng Lv*, Jun Zhong, Niancai Cheng*. Single-atom Al precisely modulate the strain of Pt3Co intermetallic for superior oxygen catalytic performance. Chemical Engineering Journal, 2024, 491: 151987.

[9] Ruijian Luo, Junzhe Zhao, Ming Zheng, Zichen Wang, Shunqiang Zhang, Jiancan Zhang, Yong Xiao, YingHui Jiang, Zhixiong Cai, Niancai Cheng*. Built-in Electric Field Within CoSe2-FeSe2 Heterostructure for Enhanced Sulfur Reduction Reaction in Li-S Batteries . Small, 2024, 20(49): 2406415.

[10] Xuwen Chen, Lifan Ye, Wei Wu, Suhao Chen, Zichen Wang, Yu Zhu, Haoran Jiang, Runzhe Chen, Niancai Cheng*. Compressed Ru skin on atomic-ordered hexagonal Ru-Ni enabling rapid Volmer-Tafel kinetics for efficient alkaline hydrogen evolution. Chemical Engineering Journal, 2024, 487: 150457.

[11] Runzhe Chen, Yunkai Yang, Wei Wu, Suhao Chen, Zichen Wang, Yu Zhu, Niancai Cheng*. Reconstructed β-NiOOH enabling highly efficient and ultrastable oxygen evolution at large current density . Chemical Engineering Journal, 2024, 480: 148100.

[12] Runzhe Chen, Zichen Wang, Suhao Chen, Liang Wang, Wei Wu, Yu Zhu, Niancai Cheng*. Optimizing Intermediate Adsorption on Pt Sites via Triple-Phase Interface Electronic Exchange for Methanol Oxidation. Inorganic Chemistry, 2024, 63(9): 4364-72.

2023年:

[13] Zichen Wang, Suhao Chen, Wei Wu, Runzhe Chen, Yu Zhu, Haoran Jiang, Liyue Yu, Niancai Cheng*. Tailored Lattice Compressive Strain of Pt-Skins by the L12-Pt3M Intermetallic Core for Highly Efficient Oxygen Reduction . Advanced Materials, 2023, 35(36): 2301310.

[14] Runzhe Chen, Zichen Wang, Suhao Chen, Wei Wu, Yu Zhu, Jun Zhong, Niancai Cheng*. Activating Lattice Oxygen in Spinel Oxides via Engineering Octahedral Sites for Oxygen Evolution. ACS Energy Letters, 2023, 8(8): 3504-11.

[15] Yangyang Tan, Zeyi Zhang, Wei Wu, Suhao Chen, Wei Chen, Niancai Cheng*. Breaking Volmer step limitation on NiO/PtNi heterojunctions via ATO-induced charge injection and interfacial modulation. Applied Catalysis B: Environmental, 2023, 331: 122684.

[16] Fei Guo, Zeyi Zhang, Runzhe Chen, Yangyang Tan, Wei Wu, Zichen Wang, Tang Zeng, Wangbin Zhu, Caoxin Lin, Niancai Cheng*. Dual roles of sub-nanometer NiO in alkaline hydrogen evolution reaction: breaking the Volmer limitation and optimizing d-orbital electronic configuration. Mater Horiz, 2023, 10(8): 2913-20.

[17] Wei Wu, Runzhe Chen, Suhao Chen, Zichen Wang, Niancai Cheng*. Optimizing d-Orbital Electronic Configuration via Metal-Metal Oxide Core-Shell Charge Donation for Boosting Reversible Oxygen Electrocatalysis. Small, 2023, 19(25): e2300621.

[18] Heyuan Chen, Wei Wu, Suhao Chen, Zichen Wang, Runzhe Chen, Niancai Cheng*. Tailoring the d-band center of porous CoS2 nanospheres via low-electronegative Fe for weakened OH* adsorption and boosted oxygen evolution . Inorganic Chemistry Frontiers, 2023, 10(19): 5668-77.

2022年:

[19] Yandong Wang, Wei Wu, Runzhe Chen, Caoxin Lin, Shichun Mu*, Niancai Cheng*. Reduced water dissociation barrier on constructing Pt-Co/CoOx interface for alkaline hydrogen evolution . Nano Research, 2022, 15(6): 4958-64.

[20] Yangyang Tan, Zeyi Zhang, Zhao Lei, Liyue Yu, Wei Wu, Zichen Wang, Niancai Cheng*. Electronic modulation optimizes OH* intermediate adsorption on Co-Nx-C sites via coupling CoNi alloy in hollow carbon nanopolyhedron toward efficient reversible oxygen electrocatalysis . Applied Catalysis B: Environmental, 2022, 304: 121006.

[21] Yuquan Lai, Zhaoting Zhang, Zeyi Zhang, Yangyang Tan, Liyue Yu, Wei Wu, Zichen Wang, Tao Jiang, Songhua Gao, Niancai Cheng*. Electronic modulation of Pt nanoclusters through tuning the interface of Pt-SnO2 clusters for enhanced hydrogen evolution catalysis. Chemical Engineering Journal, 2022, 435: 135102.

[22] Tao Jiang, Liyue Yu, Zhengjian Zhao, Wei Wu, Zichen Wang, Niancai Cheng*. Regulating the intermediate affinity on Pd nanoparticles through the control of inserted-B atoms for alkaline hydrogen evolution. Chemical Engineering Journal, 2022, 433: 133525.

[23] Runzhe Chen, Zeyi Zhang, Zichen Wang, Wei Wu, Shaowu Du, Wangbin Zhu, Haifeng Lv*, Niancai Cheng*. Constructing Air-Stable and Reconstruction-Inhibited Transition Metal Sulfide Catalysts via Tailoring Electron-Deficient Distribution for Water Oxidation. ACS Catalysis, 2022, 12(21): 13234-46.

[24] Zeyi Zhang, Yangyang Tan, Tang Zeng, Liyue Yu, Runzhe Chen, Niancai Cheng*, Shichun Mu*, Xueliang Sun*. Tuning the dual-active sites of ZIF-67 derived porous nanomaterials for boosting oxygen catalysis and rechargeable Zn-air batteries. Nano Research, 2021, 14(7): 2353-62.

[25] Zichen Wang, Liang Wang, Wangbin Zhu, Tang Zeng, Wei Wu, Zhao Lei, Yangyang Tan, Haifeng Lv*, Niancai Cheng*. Pt3Sn nanoparticles enriched with SnO2/Pt3Sn interfaces for highly efficient alcohol electrooxidation. Nanoscale Advances, 2021, 3(17): 5062-7.

[26] Yangyang Tan, Wangbin Zhu, Zeyi Zhang, Wei Wu, Runzhe Chen, Shichun Mu*, Haifeng Lv*, Niancai Cheng*. Electronic tuning of confined sub-nanometer cobalt oxide clusters boosting oxygen catalysis and rechargeable Zn–air batteries. Nano Energy, 2021, 83: 105813.

[27] Zhao Lei, Yangyang Tan, Zeyi Zhang, Wei Wu, Niancai Cheng*, Runzhe Chen, Shichun Mu*, Xueliang Sun*. Defects enriched hollow porous Co-N-doped carbons embedded with ultrafine CoFe/Co nanoparticles as bifunctional oxygen electrocatalyst for rechargeable flexible solid zinc-air batteries. Nano Research, 2021, 14(3): 868-78.

[28] Fei Guo, Zhijin Zou, Zeyi Zhang, Tang Zeng, Yangyang Tan, Runzhe Chen, Wei Wu, Niancai Cheng*, Xueliang Sun*. Confined sub-nanometer PtCo clusters as a highly efficient and robust electrocatalyst for the hydrogen evolution reaction. Journal of Materials Chemistry A, 2021, 9(9): 5468-74.

[29] Yu Zhu, Zeyi Zhang, Zhao Lei, Yangyang Tan, Wei Wu, Shichun Mu*, Niancai Cheng*. Defect-enriched hollow porous Co–N-doped carbon for oxygen reduction reaction and Zn-Air batteries . Carbon, 2020, 167: 188-95.

[30] Wei Wu, Zeyi Zhang, Zhao Lei, Xiaoyue Wang, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. Encapsulating Pt Nanoparticles inside a Derived Two-Dimensional Metal–Organic Frameworks for the Enhancement of Catalytic Activity. ACS Applied Materials & Interfaces, 2020, 12(9): 10359-68.

[31] Liang Wang, Wei Wu, Zhao Lei, Tang Zeng, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. High-performance alcohol electrooxidation on Pt3Sn–SnO2 nanocatalysts synthesized through the transformation of Pt–Sn nanoparticles. Journal of Materials Chemistry A, 2020, 8(2): 592-8.

[32] Yangyang Tan, Zeyi Zhang, Zhao Lei, Wei Wu, Wangbin Zhu, Niancai Cheng*, Shichun Mu*. Thiourea-Zeolitic imidazolate Framework-67 assembly derived Co–CoO nanoparticles encapsulated in N, S Codoped open carbon shell as bifunctional oxygen electrocatalyst for rechargeable flexible solid Zn–Air batteries. Journal of Power Sources, 2020, 473: 228570.

[33] Jiefei Shan, Tang Zeng, Wei Wu, Yangyang Tan, Niancai Cheng*, Shichun Mu*. Enhancement of the performance of Pd nanoclusters confined within ultrathin silica layers for formic acid oxidation. Nanoscale, 2020, 12(24): 12891-7.

[34] Caoxin Lin, Zhiqiao Huang, Zeyi Zhang, Tang Zeng, Runzhe Chen, Yangyang Tan, Wei Wu, Shichun Mu, Niancai Cheng*. Structurally Ordered Pt3Co Nanoparticles Anchored on N-Doped Graphene for Highly Efficient Hydrogen Evolution Reaction. ACS Sustainable Chemistry & Engineering, 2020, 8(45): 16938-45.

[35] Runzhe Chen, Yangyang Tan, Zeyi Zhang, Zhao Lei, Wei Wu, Niancai Cheng*, Shichun Mu*. Hydrazine Hydrate Induced Two-Dimensional Porous Co3+ Enriched Co3O4 Nanosheets for Enhanced Water Oxidation Catalysis. ACS Sustainable Chemistry & Engineering, 2020, 8(26): 9813-21.

[36] Yu Zhu, Zeyi Zhang, Wenqiang Li, Zhao Lei, Niancai Cheng*, Yangyang Tan, Shichun Mu*, Xueliang Sun*. Highly Exposed Active Sites of Defect-Enriched Derived MOFs for Enhanced Oxygen Reduction Reaction . ACS Sustainable Chemistry & Engineering, 2019, 7(21): 17855-62.

[37] Jiefei Shan, Zhao Lei, Wei Wu, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. Highly Active and Durable Ultrasmall Pd Nanocatalyst Encapsulated in Ultrathin Silica Layers by Selective Deposition for Formic Acid Oxidation . ACS Applied Materials & Interfaces, 2019, 11(46): 43130-7.

[38] Wei Chen, Zhao Lei, Tang Zeng, Liang Wang, Niancai Cheng*, Yangyang Tan, Shichun Mu*. Structurally ordered PtSn intermetallic nanoparticles supported on ATO for efficient methanol oxidation reaction . Nanoscale, 2019, 11(42): 19895-902.

[39] Cheng, N.; Stambula, S.; Wang, D.; Banis, M. N.; Liu, J.; Riese, A.; Xiao, B.; Li, R.; Sham, T. K.; Liu, L. M.; Botton, G. A.; Sun, X., Platinum single-atom and cluster catalysis of the hydrogen evolution reaction. Nat Commun 2016, 7, 13638.

[40] Cheng, N.; Banis, M. N.; Liu, J.; Riese, A.; Li, X.; Li, R.; Ye, S.; Knights, S.; Sun, X., Extremely stable platinum nanoparticles encapsulated in a zirconia nanocage by area-selective atomic layer deposition for the oxygen reduction reaction. Adv Mater 2015, 27 (2), 277-81.

[41] Cheng, N. C.; Banis, M. N.; Liu, J.; Riese, A.; Mu, S. C.; Li, R. Y.; Sham, T. K.; Sun, X. L., Atomic scale enhancement of metal-support interactions between Pt and ZrC for highly stable electrocatalysts. Energ Environ Sci 2015, 8 (5), 1450-1455.

2)授权发明专利:

1. 一种铂硼共掺杂的负载型钯基催化剂及其制备方法与应用;程年才,江涛;ZL 202210721505.1

2. 一种氮掺杂多孔碳球/S复合材料及其制备方法和在锂硫电池中的应用;程年才,俞立跃;ZL 2022 1 0567983.1

3.  一种二维超薄氮掺杂碳化钼纳米片的制备方法;程年才,王延东;ZL 2022 1 0694416.2

4. 一种提高过渡金属硫化物催化剂稳定性的方法;程年才,陈润喆;ZL 2021 1 1503069.2

5. 一种基于水系ZIF衍生的多孔碳球及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0644869.4

6. 一种碳化物负载金属催化剂的制备方法及应用;程年才,王延东;ZL 2022 1 0690541.6

7. 一种碳载体活化提高燃料电池碳载铂基催化剂稳定性的方法;程年才,王子辰;ZL 2021 1 1638263.1

8. 一种原子层沉积金属/金属氧化物限域制备燃料电池Pt合金催化剂的方法;程年才,吴威;ZL 2023 1 0032966.2

9. 一种杂原子掺杂中空碳材料的制备方法及其在锂硫电池中的应用;程年才,俞立跃;ZL 2022 1 0690506.4

10. 超薄多孔碳层保护的Pt基合金催化剂的制备方法;程年才,吴威;ZL 2023 1 0035180.6

11. 一种高活性碳基多孔纳米笼催化剂及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0885625.5

12. 一种基于水系ZIF衍生的中空球型碳基催化剂及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0644723.X

13. 一种金属氮化物限域制备Pt基有序合金燃料电池催化剂的方法;程年才,吴威;ZL 2023 1 0032727.7

14. 一种限域制备燃料电池用合金催化剂的方法;程年才,吴威;ZL 2022 1 0538139.6

15. 一种用于燃料电池的铂基有序合金催化剂及其制备方法;程年才,王子辰;ZL 2022 1 0165666.7

16. 一种用于燃料电池的金属氧化物复合碳载铂基催化剂及其制备方法;程年才,赖玉权;王子辰;ZL 2021 1 1640912.1

17. 一种金属氮化物稳定Pt基合金燃料电池催化剂的制备方法; 程年才,吴威; ZL 2023 1 0035177.4

 

Baidu
sogou