个人简介
教育及工作经历
1993.09–1997.07,西华师范大学,化学教育(学士)
2000.09–2005.12,中科院长春应化所,分析化学(博士)
1997.07–2004.10,西华师范大学化学化工学院,助教
2006.04–2007.05,德国Konstanz University化学系,博士后(洪堡学者)
2007.06–2008.05,加拿大Toronto University药理系,博士后
2008.06–2009.07,美国Purdue University化学系,博士后
2010.01–2015.09,中科院长春应化所电分析化学国家重点实验室,研究员,博导
2011.11–,沙特King Abdulaziz University化学系,兼职教授
2015.10–,四川大学化学学院,教授
学术任职
Journal of Nanomaterials, American Journal of Nanotechnology, American Journal of Analytical Chemistry,Biochemistry and Analytical Biochemistry等杂志编委
荣誉及获奖情况
中科院院长优秀奖(2004)
中科院优秀博士学位论文(2007)
全国百篇优秀博士学位论文(2008)
吉林省高层次创新创业人才(2010)
长春市首批青年科技英才(2012)
近期论文
查看导师最新文章
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Wang, J.; Cui, W.; Liu, Q.; Xing, Z.; Asiri, A. M.; Sun, X.* Recent progress in Co-based heterogeneous catalysts for electrochemical water splitting. Adv. Mater. 2015, DOI: 10.1002/adma.201502696.
Tian, J.; Cheng, N.; Xing, W.; Sun, X.* Cobalt phosphide nanowires: efficient nanostructures for fluorescence sensing of biomolecules and photocatalytic evolution of dihydrogen from water under visible light. Angew. Chem. Int. Ed.2015, 54, 5493-5497.
Tang, C.; Chen, N.; Pu, Z.; Xing, W.; Sun, X.* NiSe nanowire film supported on nickel foam: an efficient and stable 3D bifunctional electrode for full water splitting. Angew. Chem. Int. Ed.2015, 54, 9351-9355.
Tian, J.; Liu, Q.; Asiri, A. M.; Sun, X.* Self-supported nanoporous cobalt phosphide nanowire arrays: an efficient 3D hydrogen-evolving cathode over the wide range of pH 0−14. J. Am. Chem. Soc.2014, 136, 7587-7590.
Liu, Q.; Tian, J.; Asiri, A. M.; Sun, X.* Carbon nanotubes decorated with CoP nanocrystals: a highly active non-noble-metal nanohybrid electrocatalyst for hydrogen evolution. Angew. Chem. Int. Ed.2014, 53, 6710-6714.
Tian, J.; Liu, Q.; Cheng, N.; Asiri, A. M.; Sun, X.* Self-supported Cu3P nanowires array as an integrated high-performance 3D cathode for generating hydrogen from water. Angew. Chem. Int. Ed.2014, 53, 9577-9581.
Jiang, P.; Liu, Q.; Liang, Y.; Tian, J.; Asiri, A. M.; Sun, X.* A cost-effective 3D hydrogen evolution cathode with exceptionally high catalytic activity: FeP nanowires array as the active phase. Angew. Chem. Int. Ed.2014,53,12855-12859.
Xing, Z.; Liu, Q.; Asiri, A. M.; Sun, X.* Closely interconnected network of molybdenum phosphide nanoparticles: a highly efficient electrocatalyst for generating hydrogen from water. Adv. Mater.2014, 26, 5702-5707.
Liu, S.; Tian, J.; Wang, L.; Zhang, Y.; Qin, X.; Luo, Y.; Asiri, A. M.; Al-Youbi, A. O.; Sun, X.* Hydrothermal treatment of grass: a low cost, green route to nitrogen-doped, carbon-rich, photoluminescent polymer nanodots that can be used as an effective fluorescent sensing platform for label-free sensitive and selective detection of Cu(II) ions. Adv. Mater. 2012, 24, 2307-2310.
Wang, L.; Zhang, Y.; Tian, J.; Li, H.; Sun, X.* Conjugation polymer nanobelts: a novel fluorescent sensing platform for nucleic acid detection. Nucleic Acids Res.2011, 39, e37-e42.
Sun, X.; Ko, S. H.; Zhang, C.; Ribbe, A. E.; Mao, C.* Surface-mediated DNA self-assembly. J. Am. Chem. Soc.2009, 131, 13248-13249.
Sun, X.; Dong, S.*; Wang, E.* Coordination-induced formation of submicrometer-scale, monodisperse, spherical colloids of organic-inorganic hybrid materials at room temperature. J. Am. Chem. Soc.2005,127, 13102-13103.
Sun, X.; Dong, S.*; Wang, E.* Large-scale synthesis of micrometer-scale single-crystalline Au plates of nanometer thickness by a wet-chemical route. Angew. Chem. Int. Ed.2004,43, 6360-6363.
Tian, J.; Li, Q.; Asiri, A. M.; Al-Youbi, A. O.; Sun, X.* Ultrathin graphitic carbon nitride nanosheet: a highly efficient fluorosensor for rapid, ultrasensitive detection of Cu2+. Anal. Chem. 2013, 85, 5595-5599.
Lu, W.; Qin, X.; Liu, S.; Chang, G.; Zhang, Y.; Luo, Y.; Asiri, A. M.; Al-Youbi, A. O.; Sun, X.* Economical, green synthesis of fluorescent carbon nanoparticles and their use as probes for rapid, sensitive, and selective detection of mercury(II) ions. Anal. Chem. 2012, 84, 5351-5357.
Sun, X.; Du, Y.; Zhang, L.; Dong, S.*; Wang, E.* Luminescent supramolecular microstructures containing Ru(bpy)32+: solution-based self-assembly preparation and solid-state electrochemiluminescence detection application. Anal. Chem. 2007, 79, 2588-2592.
Sun, X.; Du, Y.; Zhang, L.; Dong, S.*; Wang, E.* Pt nanoparticles: heat-treatment-based preparation and Ru(bpy)32+-mediated formation of aggregates that can form stable film on bare solid electrode surface for solid-state electrochemiluminescene detection. Anal. Chem. 2006, 78, 6674-6677.
Sun, X.; Du, Y.; Zhang, L.; Dong, S.*; Wang, E.* Method for effective immobilization of Ru(bpy)32+ on electrode surface toward solid-state electrochemiluminescene detection. Anal. Chem. 2005, 77, 8166-8169.
Xing, Z.; Liu, Q.; Asiri, A. M.; Sun, X.* High-efficiency electrochemical hydrogen evolution catalyzed by tungsten phosphide submicroparticles. ACS Catal.2015, 5, 145-149.
Liang, Y.; Liu, Q.; Asiri, A. M.; Sun, X.*; Luo, Y.* Self-supported FeP nanorod arrays: a cost-effective 3D hydrogen evolution cathode with high catalytic activity. ACS Catal.2014, 4, 4065-4069.
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