性别

女

所在单位

山东交通学院

最高学位

博士

职称/职务

讲师

专业

化学

E-mail

nankaiqfy@126.com

联系电话

18615275926

个人简介

仇方圆，博士，讲师。主要研究领域为新型储能材料、微纳金属材料、第一性原理计算及质子交换膜燃料电池阴极ORR催化动力学研究。近年来在国内外重要期刊发表学术论文10余篇，主持国家自然科学基金项目1项，辽宁省教育厅青年科技项目1项，南开大学重点实验室开放基金1项。参与973、863、国家自然科学基金和辽宁省博士科研启动基金项目多项科研项目的研究工作。

研究方向

1. 新型储能材料

2. 微纳核壳复合催化材料

3. 第一性原理计算

4. 燃料电池氧还原动力学研究

科研项目

1.国家自然科学基金理论物理专项，第一性原理研究CuGaSe₂/Cu(In_xGa_1-x)Se₂叠层太阳能电池--项目结题

2.辽宁省教育厅青年科技项目，FeM(M=Co,Ni)@Pt核壳催化剂的可控制备及性能研究--项目在研

3.南开大学重点实验室开放基金，FeM@Pt(M=Co,Ni)/rGO三元核壳催化剂的可控制备及电化学性能研究--项目在研

教育经历

2005.09- 2009.06

鲁东大学

化学与材料科学学院

材料化学

本科

2009.09 - 2011.06

南开大学

化学学院

材料物理与化学

硕士

2011.09 - 2014.06

南开大学

化学学院

无机化学

博士

主要成果（论文/专利/著作/荣誉）

1.Bao W, Sachuronggui, Qiu F Y*. First principles calculation study of Zn_1-xMg_xO/Cu₂ZnSnS₄Heterointerface[J]. IOP Conference Series: Materials Science and Engineering 740 (2020) 012066 doi:10.1088/1757-899X/740/1/012066

2.Qiu F Y, Liu G, Li L,et al. Synthesis of triple-layered Ag@Co@Ni core-shell nanoparticles for the catalytic dehydrogenation of ammonia borane[J]. Chemistry A European Journal, 2014, 20(2): 505-509.

3.Qiu F Y, Li L, Liu G, et al. Synthesis of size controlled Ag@Co@Ni/graphene core-shell nanoparticles for the catalytic hydrolysis of ammonia borane[J]. Chemistry An Asian Journal, 2014, 9(2): 487-493.

4.Qiu F Y, Dai Y L, Li L, et al.Synthesis of Cu@FeCo core-shell nanoparticles for the catalytic hydrolysis of ammonia borane[J]. International Journal of Hydrogen Energy, 2014, 39(1): 436-441.

5.Qiu F Y, Li L, Liu G, et al. Synthesis of Fe_0.3Co_0.7/rGO nanoparticles as a high performance catalyst for the hydrolytic dehydrogenation of ammonia borane[J]. International Journal of Hydrogen Energy, 2013, 38(18): 7291-7297.

6.Qiu F Y, Li L, Liu G, et al. In situ synthesized Fe-Co/C nano-alloys as catalysts for the hydrolysis of ammonia borane[J]. International Journal of Hydrogen Energy, 2013, 38(8): 3241-3249.

7.Qiu F Y, Wang Y J*, Wang Y P, et al. Dehydrogenation of ammonia borane catalyzed by in situ synthesized Fe-Co nano-alloy in aqueous solution[J]. Catalysis Today, 2011, 170(1): 64-68.

8.Zhou F G, Qiu F Y, Wang C, et al. Synthesis and photoluminescence properties of double perovskite phosphor Ba₆Y₂W₃O₁₈: Mg²⁺, Mn⁴⁺for plant cultivation[J]. ECS Journal of Solid State Science and Technology, 2019, 8 (10): R119-R126.

9.Bao W*, Qiu F Y, Bai S, et al. Study of band offset at ZnS/Cu₂ZnIVS₄(IV=Si,Ge,Sn) heterointerfaces[J]. Optoelectronics and Advanced Materials-Rapid Communications, 2018, 12(5-6): 327-331.

10. Bao W*, Bao S, Qiu F Y. Band offsets engineering at Cd_xZn_1-x/Cu₂ZnSnS₄heterointerface[J]. Chinese Physics B, 2016, 25: 127102-1-127102-4.

11.Li L, Qiu F Y, Wang Y J*, et al. Enhanced hydrogen storage properties of TiN-LiAlH₄composite[J]. International Journal of Hydrogen Energy, 2013 38(9): 3695-3701.

12.Li L, Qiu F Y, Wang Y J*, et al. TiN catalyst for the reversible hydrogen storage performance of sodium alanate system[J]. Journal of Materials Chemistry, 2012, 22(22): 13782-13787.

13.Li L, Qiu F Y, Wang Y P*, et al. Crystalline TiB₂: an efficient catalyst for synthesis and hydrogen desorption/absorption performances of NaAlH₄system[J]. Journal of Materials Chemistry, 2012, 22(7): 3127-3132.

14.Li L, Qiu F Y, Wang Y J*, et al. Improved dehydrogenation performances of TiB₂-doped sodium alanate[J]. Materials Chemistry and Physics, 2012, 134(s 2-3): 1197-1202.

15.Liu G, Qiu F Y, Li J, et al. NiB nanoparticles: A new nickel-based catalyst for hydrogenstorage properties of MgH₂[J]. International Journal of Hydrogen Energy, 2012, 37(22): 17111-17117.