人才培养

校内导师——过家好

2025年06月20日 09:51  点击:[]

■过家好,男,1974年12月生,博士,教授、硕士生导师

■研究方向:无机纳米材料材料的制备及应用、生物质衍生碳材料在新能源领域的应用、电化学传感器

■办公地点:图书馆505室

■通讯方式:guojiahao1974@163.com

■ 主讲课程

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

《物理化学》、《物理化学实验》、《基础化学实验》

■ 教学研究项目

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

1.新能源材料与器件专业三级实验(实践)课程体系的建立及探索,教育部产学合作协同育人项目,230905940261147;

2.示范应用型本科专业基础课问题导向式教学的探索与实践——以《物理化学》为例,安徽科技学院,X2016051。

■ 科学研究项目

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

1.安徽省高校科学研究项目重大项目:项目名称“高效、廉价、稳定的生物质衍生碳的电催化活性调控机制研究”,项目号:2022AH040237,总经费20万元,研究周期:2023.01-2025.12,主持,三类科研项目;

2.安徽省自然科学基金面上项目:项目名称“新型二维超薄类石墨烯催化剂对氧还原反应的电催化机制研究”,项目号:1808085MB31,总经费12万元,研究周期:2018.07-2021.06,主持,三类科研项目;

3.安徽省高等学校科学研究项目:项目名称“二维超薄石墨烯与类石墨烯复合阴极催化剂在新能源器件中的电催化机制多尺度研究”,项目号:KJ2016A171,总经费6万元,研究周期:2016.01-2017.12,主持,三类科研项目;

4.国家自然科学基金重大培育项目:“类铂催化材料设计合成及其在新型光电转换器件中催化机理和性能影响研究”, 项目号:91333104, 总经费91万元,研究周期:2014年01月-2016年12月,排名第三,二类科研项目。

5.横向项目:项目名称“液体硅胶模具在高值烘焙应用的研究开发及生产工艺优化”,总经费30万元,研究周期:2024.09-2026.09,排名第三,四类科研项目;

■ 论文、论著

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

1.Shengbiao Zheng, Weixing An, Zile Zhou, Jie Chen, Lingxiu Shu, Mengqi Zhang, Erhui Zhang,Jiahao Guo*, Jing Tang*.Activation of ammonium oxalate on dandelion-derived nitrogen-doped carbon for electrocatalytic oxygen reduction reaction.J. Alloy. Compd.,2025, 1010,177906.

2.Shengbiao Zheng, Wenjing Tang, Ruimin Bao, Shiyu Cui, Fusheng Yin, Erhui Zhang, Jing Tang*,Jiahao Guo*, Xuchun Wang.Metal−Organic Frameworks-derived CoP/Co2P@NC for simultaneous detection of dihydroxybenzene isomers.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025,707, 135928.

3.Jiahao Guo*, Shengbiao Zheng*, Rui Chen, Jingjing Yang, Dehua Ou, Jing Tang.Improvement of the electrocatalytic performance of silicon carbide for oxygen reduction reaction induced by nitrogen doping. Int. J. HydrogenEnergy,2024, 50, C, 844-853.

4.Dehua Ou, Shengbiao Zheng, Mengjia Zhu, Rui Chen, Tianlei Gao, Hao Guo, Jia hao Guo*, Jing Tang.Excellent electrocatalytic performance of rice straw-derived carbon catalysts activated by zinc halides for oxygen reduction reaction.Int. J. HydrogenEnergy,2024, 50, C, 1373-1380.

5.Shengbiao Zheng, Rui Chen, Jingjing Yang,Jiahao Guo*, Weixing An, Jing Tang.Biomass-derived nitrogen-doped carbons activated by zinc halides for electrocatalytic oxygen reduction reaction.Int. J. Hydrogen Energy, 2024, 58, 333-340.

6.Jingjing Yang, Shengbiao Zheng, Wenjing Tong, Xiang Zhang, Jing Tang,Jiahao Guo*.The electrocatalytic activity of pomelo peel-derived nitrogen-doped carbon material for oxygen reduction reaction.J. Dispersion Sci. Technol., 2024,DOI: 10.1080/01932691.2024.2338373.

7. Huachen Zhang,Shengbiao Zheng, Jing Tang, Rui Chen, Jingjing Yang, Wenjing Tong, Jiahao Guo*. Composition regulation of nickel selenide and itseffects on the catalytic activity in the oxygen reduction reaction.New J. Chem., 2023, 47, 11675–11684.

8. Shengbiao Zheng,Tianna Liu, Nini Zhang, Liang Li, Yanli Zhu, Erhui Zhang, Jing Tang*,Jiahao Guo*. A 3D flower-like Co/Ni bimetallic organicframework as an excellent material for electrochemical determination of quercetin.New J. Chem., 2023, 47, 7566–7574.

9.Shengbiao Zheng, Jialong Fan, Feilong Yin, Jie Chen, Zhenzhen Hui, Jing Tang*, Xuchun Wang, Jiahao Guo*.Electrochemical determination of tert-butylhy -droquinone by ZIF-67@TiO2 derived hierarchical TiO2/Co/NCNTs.New J. Chem., 2023, 47, 15569-15578.

10.Jing Tang, Songlin Zhang,Jiahao Guo*, Huachen Zhang.Reduced graphene oxide-modified vanadium tetrasulfide serves as an excellent catalyst for oxygen reduction reaction.Int. J. Hydrogen Energy,2022,47, 9744-9752.

11. Jing Tang, Chengdong Wang, Huachen Zhang,Jiahao Guo*. Highly active WS2 catalysts attached to two carbon substrates for oxygen reduction reaction.J. Alloy. Compd., 2022, 911 , 164991.

12. Jing Tang, Tao Hu, Nali Li, Yanli Zhu, Jie Li, Shengbiao Zheng*,Jiahao Guo*. Ag doped Co/Ni bimetallic organic framework for determination of luteolin. Microchemical Journal, 2022, 179, 107461.

13. Jing Tang*, Jie Li, Tianna Liu, Wenjing Tang, Nali Li, Shengbiao Zheng,Jiahao Guo, Changchun Song*. N Doped TiO2-carbon composites derived from NH2 MIL 125 (Ti) for electrochemical determination of tert butylhydroquinone.Food Analytical Methods, 2022, 15,2830-2839.

14. Jing Tang*, Zhen-zhen Hui, Tao Hu, Xin Cheng,Jia-hao Guo, Zi-rong Li, Hao Yu*. A sensitive acetaminophen sensor based on Co-metal organic framework (ZIF-67) and macroporous carbon composite.Rare Metals, 2022, 41, 189-198.

15.Songlin Zhang, Yujiao Xie, Mengna Yang, Zhongying Li, Lulu Zhang,Jiahao Guo*, Jing Tang, Junming Chen and Xuchun Wang.A defect-rich ultrathin MoS2/rGO nanosheet electrocatalyst for the oxygen reduction reaction.RSC Adv., 2021, 11, 24508–24514.

16. Jing Tang*, Shengbiao Zheng, Sixun Jiang, Jie Li, Teng Guo, Jiahao Guo*. Metal organic framework (ZIF-67)-derived Co nanoparticles/N-doped carbon nanotubes composites for electrochemical detecting of tert-butyl hydroquinone. Rare Metals, 2021, 40, 478-488.

17. Chengdong Wang, Songlin Zhang, Mingxun Zheng, Ruoyu Shu, Shengxu Gu,Jiahao Guo*, Chuan Liu, Jing Tang, Junming Chen, Xuchun Wang.Atomically thin titanium carbide used as high-efficient, low-cost and stable catalyst for oxygen reduction reaction. Int. J. Hydrogen Energy, 2020, 45(11), 6994-7004.

18. Jiahao Guo*, Songlin Zhang, Mingxun Zheng, Jing Tang, Lei Liu, Junming Chen, Xuchun Wang. Graphitic-N-rich N-doped graphene as a high performance catalyst for oxygen reduction reaction in alkaline solution. Int. J. Hydrogen Energy, 2020, 45(56), 32402-32412.

19. Jing Tang*, Renhao Liu, Jie Li, Zhenzhen Hui, Shengbiao Zheng, Jiwei Wu,Jiahao Guo, Xuchun Wang, Jianfei Wang*. Insitu growth of zeolitic imidazolate frameworks nanocrystals on ordered macroporous carbon for hydroquinone and catechol simultaneous determination.J. Electrochem. Soc., 2020, 167, 067504.

20. Shengbiao Zheng, Jiaqi Hu, Xue Cui, Tao Hu, Yuyang Zhang,Jiahao Guo, Jing Tang*, Xuchun Wang*. In-situ growth of a cobalt-based metal-organic framework on multi-walled carbon nanotubes for simultaneous detection of hydroquinone and catechol. Electroanalysis, 2020, 32,2010-2017.

21. Jiahao Guo*, Qianfu Li, Haitao Hou, Junming Chen, Chengdong Wang, Songlin Zhang, Xuchun Wang.Cost-effective Co3O4 nanospheres on nitrogen-doped graphene used as highly efficient catalyst for oxygen reduction reaction. Inter. J. Hydrogen Energy, 2019, 44, 30348-30356.

22.Jiahao Guo*, Jianguo Zhang, Hanqing Zhao, Yongshuang Fang, Kun Ming, Hao Huang, Junming Chen, Xuchun Wang. Fluorine-doped graphene with an outstanding electrocatalytic performance for efficient oxygen reduction reaction in alkaline solution. R. Soc. Open Sci., 2018, 5, 180925.

23. Jing Tang*, Sixun Jiang, Yu Liu, Shengbiao Zheng, Lei Bai,Jiahao Guo, Jianfei Wang*. Electrochemical determination of dopamine and uric acid using a glassy carbon electrode modified with a composite consisting of a Co(II)-based metalorganic framework (ZIF-67) and graphene oxide. Microchimica Acta, 2018, 11, 486.

24. Jing Tang*, Yueyuan Mao,Jiahao Guo, Zirong Li, Chen Zhang, Baokang Jin*. Simultaneous determination of TBH2Q and BHA antioxidants in food samples using eosin Y film modified electrode. Food Analytical Methods, 2018, 11, 3380-3390.

25.Jiahao Guo*, Yantao Shi, Huawei Zhou, Xuchun Wang, and Tingli Ma. Anovelcomposite of W18O49 nanorods onreducedgrapheneoxidesheetsbased on in situsynthesis andcatalyticperformance foroxygenreductionreaction.RSC Adv., 2017, 7, 2051-2057.

26.Jiahao Guo*, Kaiyue Song, Bingbing Wu, Xiang Zhu, Beilin Zhang and Yantao Shi. Atomically thin SiC nanoparticles obtained via ultrasonic treatment to realize enhanced catalytic activity for the oxygen reduction reaction in both alkaline and acidic media. RSC Adv., 2017,7,22875-22881.

27.过家好*,史彦涛,马廷丽*. 过渡金属硒化物作为染料敏化太阳能电池对电极催化性能的影响.人工晶体学报, 2017, 46, 1503-1510.

28. 吴兵兵,李乾富,宋凯悦,朱祥,张贝琳,过家好*.低铂Pt/SiC制备及对氧还原反应的催化性能表征. 人工晶体学报, 2017, 46, 2443-2450.

29.Xiaogong Bai, Yantao Shi*,Jiahao Guo, Liguo Gao, Kai Wang, Yi Du, Tingli Ma*. Catalytic activities enhanced by abundant structural defects and balanced N distribution of N-doped graphene in oxygen reduction reaction.J. Power Sources, 2016, 306, 85-91.

30.Jiahao Guo, Yantao Shi*, Xiaogong Bai, Xuchun Wang, Tingli Ma*. Atomically thin MoSe2/graphene and WSe2/graphene nanosheets for the highly efficient oxygen reduction reaction.J. Mater. Chem. A, 2015, 3, 24397-24404.

31.Jiahao Guo, Suxia Liang, Yantao Shi*, Ce Hao, Xuchun Wang, Tingli Ma*. Transition metal selenides as efficient counter electrode materials for dye-sensitized solar cells.Phys. Chem. Chem. Phys., 2015,17, 28985-28992.

32.Jiahao Guo, Suxia Liang, Yantao Shi, Bo Li, Ce Hao, Xuchun Wang, Tingli Ma. Electrocatalytic properties of iron chalcogenides as low-cost counter electrode materials for dye-sensitized solar cells.RSC Adv., 2015, 5, 72553-72561.

33. Yantao Shi, Chunyu Zhao, Haisheng Wei,Jiahao Guo, Suxia Liang, Aiqin Wang, Tao Zhang, Jingyue Liu, Tingli Ma. Single-atomcatalysis inmesoporousphotovoltaics: Theprinciple ofutilitymaximization.Adv. Mater., 2014, 26, 8147-8153.

34.Jiahao Guo, Yantao Shi, Chao Zhu, Lin Wang, Ning Wang, Tingli Ma. Cost- effective and morphology -controllable niobium diselenides for highly efficient counter electrodes of dye-sensitized solar cells.J. Mater. Chem. A, 2013, 1: 11874-11879.

35.Jiahao Guo, Yantao Shi, Yuting Chu,Tingli Ma. Highly efficient telluride electrocatalysts for use as Pt-free counter electrodes in dye-sensitized solar cells. Chem. Commun., 2013, 49, 10157-10159.

36. Xiaojia Zheng#,Jiahao Guo#, Yantao Shi, Fengqiang Xiong, Wen-Hua Zhang,* Tingli Ma,* Can Li*. Low-cost and high-performance CoMoS4 and NiMoS4 counter electrodes for dye-sensitized solar cells.Chem. Commun., 2013, 49, 9645-9647.

■ 各类获奖

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

(1)辽宁省自然科学优秀学术论文三等奖,2014年

(2)大连市自然科学优秀学术论文二等奖,2014年

■ 各类成果

﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉﹉

1. 郑胜彪,过家好,唐婧,李亮,李娜莉,惠贞贞,汪徐春,国家发明专利,一种高效降解土霉素光催化材料的制备方法及其应用,ZL 2022 1 0919951.3;

2. 张二辉,唐婧,毛月圆,过家好,李子荣,周永生,国家发明专利,一种柔性石墨烯硅氧碳复合电极膜的制备方法,ZL 2022 1 1259646.2;

3. 张二辉,唐婧,毛月圆,过家好,郑胜彪,周永生,李子荣,国家发明专利,一种柔性三维石墨烯硅氧烯复合膜的制备方法,ZL 2022 1 1129563.1。

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