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新普京澳门娱乐场网站微信号
新普京澳门娱乐场网站微信号
荣坚
博士 讲师
我校新普京澳门娱乐场网站,江苏常州 213164
办公电话:
Email: fyrongjian@163.com
教育背景:
2015.09-2021.06 江苏大学环境科学与工程博士
2019.09-2020.10 休斯顿大学化学系国家公派联合培养
2011.09-2015.06 淮阴师范学院生物工程学士
工作履历:
2021.09-至今 我校 新普京澳门娱乐场网站 讲师
主授课程:
研究领域:
(1)光电催化功能纳米材料制备及其在能源转化等方面应用研究
(2)油水分离功能材料
奖励与荣誉:
主要论文:
[1] Wu Jing, Rong Jian*, Li Zhongyu, et al. Modulating electronic structure of Fe atomic cluster by Cu single atom sites for enhanced oxygen reduction reaction, Rare Metals (2025, Accept, IF=9.6,中科院分区一区)
[2] Zhang Yuzhe, Ao Huaisheng, Rong Jian, Li Zhongyu, et al. Zn2⁺-Rich Chelate Layer Facilitates Ultrahigh-Rate Zinc Anodes Via Cation Compensation and Anion Repulsion. Advanced Energy Materials: (2025) 2404203. (IF=24.4,中科院分区一区)
[3] Wu Jing Rong Jian*, Li Zhongyu, et al. Triggered synergistic effect of Fe single atoms and tiny Co nanoparticles to enhanced oxygen electrocatalysis bifunctionality for zinc-air batteries. Chemical Engineering Journal 511 (2025) 162281. (IF=13.4,中科院分区一区)
[4] Zhang Yuzhe, Rong Jian*, Li Zhongyu, et al. Electrolytes additives for Zn metal anodes: regulation mechanism and current perspectives. Rare Metals 43 (2024) 4162–4197. (IF=9.6,中科院分区一区)
[5] Rong Jian, Yamauchi Yusuke*, Li Zhongyu*, et al. Design of Atomically Dispersed CoN4 Sites and Co Clusters for Synergistically Enhanced Oxygen Reduction Electrocatalysis. Small 20 (2024) 2402323. (IF=13,中科院TOP期刊)
[6] Chen Yu, Rong Jian*, Li Zhongyu*, et al. MOF-derived S, N co-doped porous carbon matrix with single Fe atoms and CoSx nanoparticles dual-sites for enhanced oxygen reduction. Chemical Engineering Journal 502 (2024) 158080. (IF=13.4,中科院分区一区)
[7] Chen Wangyi, Rong Jian*, Li Zhongyu, et al. High-Density CoSe2 Sites Embedded within 2D Porous N-Doped Carbon for High-Performance Oxygen Reduction Reaction Electrocatalysis. Inorganic Chemistry 63(9) (2024) 4429-4437. (IF=4.3,中科院分区一区)
[8]Rong Jian, Zhang yuzhe, Li Zhongyu, Qiu Fengxian, et al. Porphyrinic MOF-derived rich N-doped porous carbon with highly active CoN4C single-atom sites for enhanced oxygen reduction reaction and Zn-air batteries performance. Energy Storage Mater. 56 (2023) 165-173. (IF=20.831,中科院分区一区)
[9] Rong Jian, Qiu Fengxian, Karl M Kadish, et al. In situ construction MoS2-Pt nanosheets on 3D MOF-derived S, N-doped carbon substrate for highly efficient alkaline hydrogen evolution reaction. Chem. Eng. J. 412 (2020) 127556-127566. (IF=16.744,中科院分区一区)
[10] Rong Jian, Qiu Fengxian, Zhang Tao, et al. A facile strategy toward 3D hydrophobic composite resin network decorated with biological ellipsoidal structure rapeseed flower carbon for enhanced oils and organic solvents selective absorption, Chem. Eng. J. 322 (2017) 397-407. (IF=16.744,中科院分区一区)
[11] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Preparation of efficient, stable, and reusable laccase-Cu3(PO4)2 hybrid microspheres based on copper foil for decoloration of Congo red, ACS Sustain. Chem. Eng. 5 (2017) 4468-4477. (IF=9.224,中科院分区一区)
[12] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Design and preparation of efficient, stable and superhydrophobic copper foam membrane for selective oil absorption and consecutive oil-water separation, Mater. Design 142 (2018) 83-92. (IF=9.417,中科院分区一区)
[13] Rong Jian, Qiu Fengxian, Zhang Tao, et al. Non-noble metal@carbon nanosheet derived from exfoliated MOF crystal as highly reactive and stable heterogeneous catalyst, Appl. Surf. Sci. 447 (2018) 222-234. (IF=7.392,中科院分区一区)
[14] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Preparation of hierarchical micro/nanostructured Bi2S3-WO3 composites for enhanced photocatalytic performance, J. Alloy. Compd. 685 (2016) 812-819. (IF=6.371,中科院分区一区)
[15] Rong Jian, Xu Jingchao, Qiu Fengxian, et al. 2D metal-organic frameworks-derived preparation of layered CuS@C as an efficient and stable electrocatalyst for hydrogen evolution reaction, Electrochim. Acta 323 (2019) 134856. (IF=7.336,中科院分区二区)
[16] Rong Jian, Qiu Fengxian, Zhang Tao, et al. Self-directed hierarchical Cu3(PO4)2/Cu-BDC nanosheets array based on copper foam as an efficient and durable electrocatalyst for overall water splitting, Electrochim. Acta 313 (2019) 179-188. (IF=7.336,中科院分区二区)
[17] Rong Jian, Xu Jingchao, Qiu Fengxian, et al. Sea urchin-like MOF-derived formation of porous Cu3P@C as an efficient and stable electrocatalyst for oxygen evolution and hydrogen evolution reactions, Adv. Mater. Interfaces (2019) 1900502. (IF=6.389)
[18] Rong Jian, Chen Hongli, Qiu Fengxian, et al. In-situ immobilization and pyrolysis of metal-organic framework supported on biomorphic layered double hydroxides as highly active and stable heterogeneous catalyst, J. Taiwan Inst. Chem. E. 88 (2018) 78-88. (IF=5.477)
[19] Rong Jian, Rong Xinshan, Qiu Fengxian, et al. Facile preparation of glucose functionalized multi-wall carbon nanotubes and its application for the removal of cationic pollutants, Mater. Lett. 183 (2016) 9-13.
[20] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Structural evolution of hierarchical porous NiO/Al2O3 composites and their application for removal of dyes by adsorption, Korean J. Chem. Eng. 34 (2017) 41-53.
[21] Rong Jian, Zhang Tao, Qiu Fengxian, et al. High-specific surface area hierarchical Al2O3 carbon fiber based on a waste paper fiber template: preparation and adsorption for iodide ions, J. Wood Chem. Technol. (2017) 485-492.
[22] Qiu, Suhong, Rong Jian*, Li zhongyu, et al. Efficient catalytic oxidation of benzyl alcohol by tetrasubstituted cobalt phthalocyanine-MWCNTs composites. Solid State Sci. 129 (2022) 106905..
发明专利:
[1] 邱凤仙;荣坚;张涛;等。改性花粉生物质碳复合丙烯酸脂类吸油材料的制备及应用,授权号:ZL201610910 119.1
[2] 邱凤仙;荣坚;张涛;等。基于铜箔载体固定漆酶的生物无机杂化膜制备方法及应用,授权号:ZL201710219677.8
[3] 邱凤仙;荣坚;张涛;等。以铜泡沫为基底的仿生超疏水膜的制备方法及其应用,授权号:ZL201710917463.8
[4] 邱凤仙;荣坚;张涛;等。一种基于LDH固定过渡金属MOF的衍生物催化剂的制备方法及其应用,授权号:ZL201810358304.3
[5] 张涛;荣坚;孔丽颖;等。一种具有微纳分级结构的复合除碘材料及制备方法,授权号:ZL201600448840.3
[6] 张涛;孔丽颖;荣坚;等。一种多孔复合氧化物/聚氨酯吸油材料及其制备方法,授权号:ZL201610447957.X
科研项目:
1. 我校引进人才项目,2021-2023,主持。
| 荣坚 博士 讲师 我校新普京澳门娱乐场网站,江苏常州 213164 办公电话: Email: fyrongjian@163.com |
教育背景:
2015.09-2021.06 江苏大学环境科学与工程博士
2019.09-2020.10 休斯顿大学化学系国家公派联合培养
2011.09-2015.06 淮阴师范学院生物工程学士
工作履历:
2021.09-至今 我校 新普京澳门娱乐场网站 讲师
主授课程:
研究领域:
(1)光电催化功能纳米材料制备及其在能源转化等方面应用研究
(2)油水分离功能材料
奖励与荣誉:
主要论文:
[1] Wu Jing, Rong Jian*, Li Zhongyu, et al. Modulating electronic structure of Fe atomic cluster by Cu single atom sites for enhanced oxygen reduction reaction, Rare Metals (2025, Accept, IF=9.6,中科院分区一区)
[2] Zhang Yuzhe, Ao Huaisheng, Rong Jian, Li Zhongyu, et al. Zn2⁺-Rich Chelate Layer Facilitates Ultrahigh-Rate Zinc Anodes Via Cation Compensation and Anion Repulsion. Advanced Energy Materials: (2025) 2404203. (IF=24.4,中科院分区一区)
[3] Wu Jing Rong Jian*, Li Zhongyu, et al. Triggered synergistic effect of Fe single atoms and tiny Co nanoparticles to enhanced oxygen electrocatalysis bifunctionality for zinc-air batteries. Chemical Engineering Journal 511 (2025) 162281. (IF=13.4,中科院分区一区)
[4] Zhang Yuzhe, Rong Jian*, Li Zhongyu, et al. Electrolytes additives for Zn metal anodes: regulation mechanism and current perspectives. Rare Metals 43 (2024) 4162–4197. (IF=9.6,中科院分区一区)
[5] Rong Jian, Yamauchi Yusuke*, Li Zhongyu*, et al. Design of Atomically Dispersed CoN4 Sites and Co Clusters for Synergistically Enhanced Oxygen Reduction Electrocatalysis. Small 20 (2024) 2402323. (IF=13,中科院TOP期刊)
[6] Chen Yu, Rong Jian*, Li Zhongyu*, et al. MOF-derived S, N co-doped porous carbon matrix with single Fe atoms and CoSx nanoparticles dual-sites for enhanced oxygen reduction. Chemical Engineering Journal 502 (2024) 158080. (IF=13.4,中科院分区一区)
[7] Chen Wangyi, Rong Jian*, Li Zhongyu, et al. High-Density CoSe2 Sites Embedded within 2D Porous N-Doped Carbon for High-Performance Oxygen Reduction Reaction Electrocatalysis. Inorganic Chemistry 63(9) (2024) 4429-4437. (IF=4.3,中科院分区一区)
[8]Rong Jian, Zhang yuzhe, Li Zhongyu, Qiu Fengxian, et al. Porphyrinic MOF-derived rich N-doped porous carbon with highly active CoN4C single-atom sites for enhanced oxygen reduction reaction and Zn-air batteries performance. Energy Storage Mater. 56 (2023) 165-173. (IF=20.831,中科院分区一区)
[9] Rong Jian, Qiu Fengxian, Karl M Kadish, et al. In situ construction MoS2-Pt nanosheets on 3D MOF-derived S, N-doped carbon substrate for highly efficient alkaline hydrogen evolution reaction. Chem. Eng. J. 412 (2020) 127556-127566. (IF=16.744,中科院分区一区)
[10] Rong Jian, Qiu Fengxian, Zhang Tao, et al. A facile strategy toward 3D hydrophobic composite resin network decorated with biological ellipsoidal structure rapeseed flower carbon for enhanced oils and organic solvents selective absorption, Chem. Eng. J. 322 (2017) 397-407. (IF=16.744,中科院分区一区)
[11] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Preparation of efficient, stable, and reusable laccase-Cu3(PO4)2 hybrid microspheres based on copper foil for decoloration of Congo red, ACS Sustain. Chem. Eng. 5 (2017) 4468-4477. (IF=9.224,中科院分区一区)
[12] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Design and preparation of efficient, stable and superhydrophobic copper foam membrane for selective oil absorption and consecutive oil-water separation, Mater. Design 142 (2018) 83-92. (IF=9.417,中科院分区一区)
[13] Rong Jian, Qiu Fengxian, Zhang Tao, et al. Non-noble metal@carbon nanosheet derived from exfoliated MOF crystal as highly reactive and stable heterogeneous catalyst, Appl. Surf. Sci. 447 (2018) 222-234. (IF=7.392,中科院分区一区)
[14] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Preparation of hierarchical micro/nanostructured Bi2S3-WO3 composites for enhanced photocatalytic performance, J. Alloy. Compd. 685 (2016) 812-819. (IF=6.371,中科院分区一区)
[15] Rong Jian, Xu Jingchao, Qiu Fengxian, et al. 2D metal-organic frameworks-derived preparation of layered CuS@C as an efficient and stable electrocatalyst for hydrogen evolution reaction, Electrochim. Acta 323 (2019) 134856. (IF=7.336,中科院分区二区)
[16] Rong Jian, Qiu Fengxian, Zhang Tao, et al. Self-directed hierarchical Cu3(PO4)2/Cu-BDC nanosheets array based on copper foam as an efficient and durable electrocatalyst for overall water splitting, Electrochim. Acta 313 (2019) 179-188. (IF=7.336,中科院分区二区)
[17] Rong Jian, Xu Jingchao, Qiu Fengxian, et al. Sea urchin-like MOF-derived formation of porous Cu3P@C as an efficient and stable electrocatalyst for oxygen evolution and hydrogen evolution reactions, Adv. Mater. Interfaces (2019) 1900502. (IF=6.389)
[18] Rong Jian, Chen Hongli, Qiu Fengxian, et al. In-situ immobilization and pyrolysis of metal-organic framework supported on biomorphic layered double hydroxides as highly active and stable heterogeneous catalyst, J. Taiwan Inst. Chem. E. 88 (2018) 78-88. (IF=5.477)
[19] Rong Jian, Rong Xinshan, Qiu Fengxian, et al. Facile preparation of glucose functionalized multi-wall carbon nanotubes and its application for the removal of cationic pollutants, Mater. Lett. 183 (2016) 9-13.
[20] Rong Jian, Zhang Tao, Qiu Fengxian, et al. Structural evolution of hierarchical porous NiO/Al2O3 composites and their application for removal of dyes by adsorption, Korean J. Chem. Eng. 34 (2017) 41-53.
[21] Rong Jian, Zhang Tao, Qiu Fengxian, et al. High-specific surface area hierarchical Al2O3 carbon fiber based on a waste paper fiber template: preparation and adsorption for iodide ions, J. Wood Chem. Technol. (2017) 485-492.
[22] Qiu, Suhong, Rong Jian*, Li zhongyu, et al. Efficient catalytic oxidation of benzyl alcohol by tetrasubstituted cobalt phthalocyanine-MWCNTs composites. Solid State Sci. 129 (2022) 106905..
发明专利:
[1] 邱凤仙;荣坚;张涛;等。改性花粉生物质碳复合丙烯酸脂类吸油材料的制备及应用,授权号:ZL201610910 119.1
[2] 邱凤仙;荣坚;张涛;等。基于铜箔载体固定漆酶的生物无机杂化膜制备方法及应用,授权号:ZL201710219677.8
[3] 邱凤仙;荣坚;张涛;等。以铜泡沫为基底的仿生超疏水膜的制备方法及其应用,授权号:ZL201710917463.8
[4] 邱凤仙;荣坚;张涛;等。一种基于LDH固定过渡金属MOF的衍生物催化剂的制备方法及其应用,授权号:ZL201810358304.3
[5] 张涛;荣坚;孔丽颖;等。一种具有微纳分级结构的复合除碘材料及制备方法,授权号:ZL201600448840.3
[6] 张涛;孔丽颖;荣坚;等。一种多孔复合氧化物/聚氨酯吸油材料及其制备方法,授权号:ZL201610447957.X
科研项目:
1. 我校引进人才项目,2021-2023,主持。