师资队伍

钟富兰

钟富兰

副教授/硕士生导师

 

最高学历:

环境化学专业博士

研究领域:

氨气燃料电池

                  

Tel: 

18060611639

E-mail: 

zhongfulan@fzu.edu.cn 

           

教育工作经历:

2019-至今 我院石油化工学院化肥催化剂国家工程研究中心,副教授

2012-2019 我院石油化工学院化肥催化剂国家工程研究中心,讲师

2008-2012 hbs02红宝石线路化学化工学院环境化学理学博士

2003-2006 hbs02红宝石线路化学化工学院物理化学理学硕士


科研项目:

目前在研主持的科研项目:

(1) 国家自然科学基金 (面上):高效直接氨固体氧化物燃料电池阳极催化剂的设计制备及反应机制研究 (No: 22378069)。

(2) 福建省面上基金:烧绿石基直接氨固体氧化物燃料电池阳极催化剂的设计及氨氧化机制研究 (No:2023J01066)。


近年来已完成的主要科研项目:

(1) 国家自然科学青年基金:RE2Zr2O7+δ基烧绿石结构固体电解质及其中低温NOx传感性能研究(No: 21403035)。

(2) 福建省面上基金:烧绿石型RE2Zr2O7+δ固体电解质及其NOx传感性能研究,(No: 2015J01051)。

(3) 福建省面上基金:烧绿石RE2M2O7 (M=Zr, Ti, Sn) 固体电解质结构调控及其NOx传感机制研究,(No: 2019J01257)。


代表性论文:

[1] H. Fang, S. Yang, W. Ye, F. Zhong*, Y. Luo, S. Wang, C. Chen, L. Jiang*, Mechanism insight into enhanced oxygen reduction reaction over heterovalent ion incorporated pyrochlore Pr2Zr2O7 for direct ammonia solid oxide fuel cells, Chem. Eng. Sci. 2024, In press.

[2] F. Zhong, X. Wang, L. Wang, H. Fang*, Y. Luo, C. Chen, L. Lin, D. Wang, K. Chen, L. Jiang*, Tuning geometry distortion of pyrochlore RE2Zr1.95Ni0.05O7+δ anodes with rich oxygen vacancies for ammonia-fed solid oxide fuel cell, Sep. Purif. Technol. 2023, 312: 123397.

[3] F. Zhong, L. Wang, H. Fang, Y. Luo*, C. Chen, L.Lin, D. Wang, K. Chen, L. Jiang*, Cation-deficient perovskite Sr1–xTi1–yNiyO3+δ anodes decorated with in-situ exsolution of Ni nanoparticles for ammonia-fed solid oxide fuel cell, Chem. Eng. J. 2023, 471: 144650.

[4] F. Zhong, S. Yang, C. Chen*, H. Fang, K. Chen, C. Zhou, L. Lin, Y. Luo*, C. Au, L. Jiang, Defect-induced pyrochlore Pr2Zr2O7 cathode rich in oxygen vacancies for direct ammonia solid oxide fuel cells, J. Power Sources 2022, 520: 230847.

[5] F. Zhong, Y. Zhang, Y. Luo*, C. Chen, H. Fang, K. Chen, C. Zhou, L. Lin, C. Au, L. Jiang*, Tuning defect nonequilibrium of brownmillerite Sr1+xY2-xO4+δ for rich-oxygen-vacancy direct ammonia solid oxide fuel cells cathode, J. Power Sources 2022, 524: 231078.

[6] F. Zhong, Z. Li, Y. Luo*, H. Fang, K. Chen, C. Zhou, C. Chen, L. Lin, L. Jiang*, Direct ammonia solid oxide fuel cells based on spinel ACo2O4 (A=Zn, Fe, Ni) composite cathodes at intermediate temperature, Int. J. Green energy 2022, 19(15):16231632.

[7] F. Zhong, X. Wang, C. Han, H. Fang, Y. Huang*, Y. Luo, C. Chen, L. Lin, C. Au, L. Jiang*, Tailoring dual redox pairs strategy on a defective spinel Mg0.4NixMn2.6-xO4+δ cathode for the boosting of SOFCs performance, J. Alloys compd. 2023, 939: 168625.

[8] F. Zhong, C. Han, Y. Luo**, C. Zhou, C. Chen, L. Lin, G. Cai, L. Jiang*, Site-oriented design of spinel MgxNiMn2-xO4-δ as cathode material of intermediate-temperature direct ammonia solid oxide fuel cell, J. Power Sources, 2021, 503: 230020230031.

[9] F. Zhong, Z. Li, Y. Luo*, C. Chen, C. Zhou, L. Lin, G. Cai, C. Au, L. Jiang*, Geometric structure distribution and oxidation state demand of cations in spinel NixFe1-xCo2O4 composite cathodes for solid oxide fuel cells, Chem. Eng. J., 2021, 425: 131822131833.

[10] J. Cong, P. Duan, F. Zhong*, Y. Luo, Y. Zheng, G. Cai, Y. Xiao*, L. Jiang, Gas sensing properties of amperometric NH3 sensors based on Sm2Zr2O7 solid electrolyte and SrM2O4 (M = Sm, La, Gd, Y) sensing electrodes, Sensor. Actuat. B: Chem., 2020, 303: 127220–127229.

[11] Y. Zheng, P. Duan, Z. Li, G. Cai, F. Zhong*, Y. Xiao, Heterovalent ions incorporated pyrochlore Sm2Zr2O7 ceramic for enhanced NO2 sensing, J. Eur. Ceram. Soc. 2020, 40: 3453–3461.

[12] P. Duan, C. Han, Y. Zheng, G. Cai, F. Zhong*, Y. Xiao, A2B2O7 (A= La, Pr, Nd, Sm, Gd and B=Ti, Zr, Sn) Ceramics for Mild-Temperature NO2 Sensing and Reduction, J. Alloy. Compd., 2020, 831: 154866–154874.

[13] F. Zhong, P. Duan, J. Cong, Y. Zheng, G. Cai, Y. Xiao*, Pyrochlore doped Pr2Sn2O7 ceramics: electric transport properties and high NO2 sensitivity, J. Eur. Ceram. Soc., 2019, 40: 1376–1385.

[14] G. Cai, P. Duan, J. Cong, C. Zhang, Y. Zheng, F. Zhong*, Y. Xiao, L. Jiang, Cu incorporated perovskite Na0.5Bi0.5TiO3 oxygen-defect conductor as NO2 sensor using CuO sensitive electrode, Ceram. Int., 2019, 45: 8494–8503.

[15] F. Zhong*, J. Zhao, L. Shi, G. Cai, Y. Zheng, Y. Zheng, Y. Xiao*, L. Jiang, Pyrochlore Pr2Zr1.95In0.05O7+δ oxygen conductors: defect-induced electron transport and enhanced NO2 sensing performances, Electrochim. Acta, 2019, 293: 338347.

[16] F. Zhong, L. Shi, J. Zhao, G. Cai, Y. Zheng, Y. Xiao*, Y. Zheng, L. Jiang*, Pyrochlore Pr2Zr2-xMxO7+δ (M = Al, Ga, In) solid-state electrolytes: defect-mediated oxygen hopping pathways and enhanced NO2 sensing properties, Sensor. Actuat. B: Chem., 2018, 270: 130139.

[17] F. Zhong, L. Shi, J. Zhao, G. Cai, Y. Zheng, Y. Xiao, J. Long*, Ce incorporated pyrochlore Pr2Zr2O7 solid electrolytes for enhanced mild-temperature NO2 sensing, Ceram. Int., 2017, 43: 11799–11806.



授权专利:

[1] 钟富兰,丛晶,肖益鸿,郑勇,蔡国辉,一种以钙铁石结构氧化物为敏感电极材料的电流型NH3传感器,中国发明专利,申请号:201910024131.6。

[2] 钟富兰,时兰钱,蔡国辉,郑勇,肖益鸿,一种电流型NOx传感器用固体电解质材料及其制备方法,中国发明专利,专利号:ZL 2017 1 0117538.4。

[3] 钟富兰,王冬梅,蔡国辉,郑勇,肖益鸿,一种中低温电流型NOx传感器用固体电解质材料及其制备,中国发明专利,专利号:ZL 2015 1 0195226.6。

[4] 钟富兰,赵继武,许相,章耀华,陈庆佳,一种锥状陶瓷管并联结构的新型NOx传感器,中国实用新型专利,专利号:ZL 2015 2 0178679.3。


获奖情况:

获2016年校青年教师“最佳一节课”竞赛第五名


 

 

上一篇:蔡镇平

下一篇:​崔勍焱

Copyright © 2014 hbs02红宝石线路化工学院版权所有

地址: 福建省福州市hbs02红宝石线路城乌龙江北大道2号 邮编: 350108 电邮: syhg@fzu.edu.cn 电话(传真): 0591-22865220

2021年5月24日 星期一

学生工作

钟富兰

钟富兰

副教授/硕士生导师

 

最高学历:

环境化学专业博士

研究领域:

氨气燃料电池

                  

Tel: 

18060611639

E-mail: 

zhongfulan@fzu.edu.cn 

           

教育工作经历:

2019-至今 我院石油化工学院化肥催化剂国家工程研究中心,副教授

2012-2019 我院石油化工学院化肥催化剂国家工程研究中心,讲师

2008-2012 hbs02红宝石线路化学化工学院环境化学理学博士

2003-2006 hbs02红宝石线路化学化工学院物理化学理学硕士


科研项目:

目前在研主持的科研项目:

(1) 国家自然科学基金 (面上):高效直接氨固体氧化物燃料电池阳极催化剂的设计制备及反应机制研究 (No: 22378069)。

(2) 福建省面上基金:烧绿石基直接氨固体氧化物燃料电池阳极催化剂的设计及氨氧化机制研究 (No:2023J01066)。


近年来已完成的主要科研项目:

(1) 国家自然科学青年基金:RE2Zr2O7+δ基烧绿石结构固体电解质及其中低温NOx传感性能研究(No: 21403035)。

(2) 福建省面上基金:烧绿石型RE2Zr2O7+δ固体电解质及其NOx传感性能研究,(No: 2015J01051)。

(3) 福建省面上基金:烧绿石RE2M2O7 (M=Zr, Ti, Sn) 固体电解质结构调控及其NOx传感机制研究,(No: 2019J01257)。


代表性论文:

[1] H. Fang, S. Yang, W. Ye, F. Zhong*, Y. Luo, S. Wang, C. Chen, L. Jiang*, Mechanism insight into enhanced oxygen reduction reaction over heterovalent ion incorporated pyrochlore Pr2Zr2O7 for direct ammonia solid oxide fuel cells, Chem. Eng. Sci. 2024, In press.

[2] F. Zhong, X. Wang, L. Wang, H. Fang*, Y. Luo, C. Chen, L. Lin, D. Wang, K. Chen, L. Jiang*, Tuning geometry distortion of pyrochlore RE2Zr1.95Ni0.05O7+δ anodes with rich oxygen vacancies for ammonia-fed solid oxide fuel cell, Sep. Purif. Technol. 2023, 312: 123397.

[3] F. Zhong, L. Wang, H. Fang, Y. Luo*, C. Chen, L.Lin, D. Wang, K. Chen, L. Jiang*, Cation-deficient perovskite Sr1–xTi1–yNiyO3+δ anodes decorated with in-situ exsolution of Ni nanoparticles for ammonia-fed solid oxide fuel cell, Chem. Eng. J. 2023, 471: 144650.

[4] F. Zhong, S. Yang, C. Chen*, H. Fang, K. Chen, C. Zhou, L. Lin, Y. Luo*, C. Au, L. Jiang, Defect-induced pyrochlore Pr2Zr2O7 cathode rich in oxygen vacancies for direct ammonia solid oxide fuel cells, J. Power Sources 2022, 520: 230847.

[5] F. Zhong, Y. Zhang, Y. Luo*, C. Chen, H. Fang, K. Chen, C. Zhou, L. Lin, C. Au, L. Jiang*, Tuning defect nonequilibrium of brownmillerite Sr1+xY2-xO4+δ for rich-oxygen-vacancy direct ammonia solid oxide fuel cells cathode, J. Power Sources 2022, 524: 231078.

[6] F. Zhong, Z. Li, Y. Luo*, H. Fang, K. Chen, C. Zhou, C. Chen, L. Lin, L. Jiang*, Direct ammonia solid oxide fuel cells based on spinel ACo2O4 (A=Zn, Fe, Ni) composite cathodes at intermediate temperature, Int. J. Green energy 2022, 19(15):16231632.

[7] F. Zhong, X. Wang, C. Han, H. Fang, Y. Huang*, Y. Luo, C. Chen, L. Lin, C. Au, L. Jiang*, Tailoring dual redox pairs strategy on a defective spinel Mg0.4NixMn2.6-xO4+δ cathode for the boosting of SOFCs performance, J. Alloys compd. 2023, 939: 168625.

[8] F. Zhong, C. Han, Y. Luo**, C. Zhou, C. Chen, L. Lin, G. Cai, L. Jiang*, Site-oriented design of spinel MgxNiMn2-xO4-δ as cathode material of intermediate-temperature direct ammonia solid oxide fuel cell, J. Power Sources, 2021, 503: 230020230031.

[9] F. Zhong, Z. Li, Y. Luo*, C. Chen, C. Zhou, L. Lin, G. Cai, C. Au, L. Jiang*, Geometric structure distribution and oxidation state demand of cations in spinel NixFe1-xCo2O4 composite cathodes for solid oxide fuel cells, Chem. Eng. J., 2021, 425: 131822131833.

[10] J. Cong, P. Duan, F. Zhong*, Y. Luo, Y. Zheng, G. Cai, Y. Xiao*, L. Jiang, Gas sensing properties of amperometric NH3 sensors based on Sm2Zr2O7 solid electrolyte and SrM2O4 (M = Sm, La, Gd, Y) sensing electrodes, Sensor. Actuat. B: Chem., 2020, 303: 127220–127229.

[11] Y. Zheng, P. Duan, Z. Li, G. Cai, F. Zhong*, Y. Xiao, Heterovalent ions incorporated pyrochlore Sm2Zr2O7 ceramic for enhanced NO2 sensing, J. Eur. Ceram. Soc. 2020, 40: 3453–3461.

[12] P. Duan, C. Han, Y. Zheng, G. Cai, F. Zhong*, Y. Xiao, A2B2O7 (A= La, Pr, Nd, Sm, Gd and B=Ti, Zr, Sn) Ceramics for Mild-Temperature NO2 Sensing and Reduction, J. Alloy. Compd., 2020, 831: 154866–154874.

[13] F. Zhong, P. Duan, J. Cong, Y. Zheng, G. Cai, Y. Xiao*, Pyrochlore doped Pr2Sn2O7 ceramics: electric transport properties and high NO2 sensitivity, J. Eur. Ceram. Soc., 2019, 40: 1376–1385.

[14] G. Cai, P. Duan, J. Cong, C. Zhang, Y. Zheng, F. Zhong*, Y. Xiao, L. Jiang, Cu incorporated perovskite Na0.5Bi0.5TiO3 oxygen-defect conductor as NO2 sensor using CuO sensitive electrode, Ceram. Int., 2019, 45: 8494–8503.

[15] F. Zhong*, J. Zhao, L. Shi, G. Cai, Y. Zheng, Y. Zheng, Y. Xiao*, L. Jiang, Pyrochlore Pr2Zr1.95In0.05O7+δ oxygen conductors: defect-induced electron transport and enhanced NO2 sensing performances, Electrochim. Acta, 2019, 293: 338347.

[16] F. Zhong, L. Shi, J. Zhao, G. Cai, Y. Zheng, Y. Xiao*, Y. Zheng, L. Jiang*, Pyrochlore Pr2Zr2-xMxO7+δ (M = Al, Ga, In) solid-state electrolytes: defect-mediated oxygen hopping pathways and enhanced NO2 sensing properties, Sensor. Actuat. B: Chem., 2018, 270: 130139.

[17] F. Zhong, L. Shi, J. Zhao, G. Cai, Y. Zheng, Y. Xiao, J. Long*, Ce incorporated pyrochlore Pr2Zr2O7 solid electrolytes for enhanced mild-temperature NO2 sensing, Ceram. Int., 2017, 43: 11799–11806.



授权专利:

[1] 钟富兰,丛晶,肖益鸿,郑勇,蔡国辉,一种以钙铁石结构氧化物为敏感电极材料的电流型NH3传感器,中国发明专利,申请号:201910024131.6。

[2] 钟富兰,时兰钱,蔡国辉,郑勇,肖益鸿,一种电流型NOx传感器用固体电解质材料及其制备方法,中国发明专利,专利号:ZL 2017 1 0117538.4。

[3] 钟富兰,王冬梅,蔡国辉,郑勇,肖益鸿,一种中低温电流型NOx传感器用固体电解质材料及其制备,中国发明专利,专利号:ZL 2015 1 0195226.6。

[4] 钟富兰,赵继武,许相,章耀华,陈庆佳,一种锥状陶瓷管并联结构的新型NOx传感器,中国实用新型专利,专利号:ZL 2015 2 0178679.3。


获奖情况:

获2016年校青年教师“最佳一节课”竞赛第五名


 

 

上一篇:蔡镇平

下一篇:​崔勍焱

hbs02红宝石线路

地址:中国福建省福州市福州地区大学新区学园路2号 邮编: 350108

电话(传真): 0591-22865220 电邮: syhg@fzu.edu.cn

Copyright © 2014 hbs02红宝石线路化工学院版权所有