个人简历

2020.12-至今， 教授， 北京化工大学\r
2019.09-2020.09，研究助理，澳大利亚新南威尔士大学\r
2015.08-2019.08，博士后，美国凯斯西储大学\r
2011.09-2015.07，博士, 北京理工大学\r
2004.09-2011.07，学士、硕士，河南师范大学

研究领域

"""""先进碳基材料合成（异质结构、分级结构、杂化结构、高度有序碳材料）与催化应用\r
纳米科学用于能源转换与储存（各类电化学催化器件、金属-空气电池、以及集成器件）"

近期论文

Carbon-based metal-free electrocatalysts: from oxygen reduction to multifunctional electrocatalysis. Chem. Soc. Rev., 2021, 50, 11785. (IF: 54.564)\r
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Topological defect-rich carbon as a metal-free cathode Catalyst for high-performance Li-CO2 batteries. Adv. Energy Mater., 2021, 11, 2101390. (IF: 29.638)\r
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Facile synthesis of Co, N enriched carbon nanotube and active site identifications for bifunctional oxygen reduction and evolution catalysis. Energy Storage Mater., 2021, 298, 120543. (IF: 17.789)\r
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Large-scale production of holey carbon nanosheets implanted with atomically dispersed Fe sites for boosting oxygen reduction electrocatalysis, Nano Res. 2021, doi.org/10.1007/s12274-021-3816-y. (IF: 8.897)\r
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N, P, and S tri-doped holey carbon as an efficient electrocatalyst for oxygen reduction in whole pH range for fuel cell and zinc-air batteries, Carbon, 2021, 179, 365. (IF: 9.594)\r
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Multifunctional carbon-based metal-free catalysts for advanced energy conversion and storage, Cell Rep. Phys. Sci. 2021, 2, 100328.\r
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High‐performance, long-life, rechargeable Li-CO2 batteries based on a 3D holey graphene cathode implanted with single iron atoms. Adv. Mater. 2020, 32, 1907436. (IF: 30.849) \r
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Heteroatom-doped carbon catalysts for zinc-air batteries: progress, mechanism, and opportunities, Energy Environ. Sci. 2020, 13, 4536. (IF: 38.52)\r
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Carbon-based metal-free catalysts for energy storage and environmental remediation, Adv. Mater. 2019, 31, 1806128. (IF: 30.849, Highly cited paper)\r
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Graphdiyne with tunable activity towards hydrogen evolution reaction, Nano Energy 2019, 63, 103874. (IF: 17.881)\r
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Carbon nanomaterials for energy and biorelated catalysis: recent advances and looking forward, ACS Cent. Sci., 2019, 5, 389. (IF: 14.553)\r
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Doping of carbon materials for metal-free electrocatalysis. Adv. Mater. 2018, 1804672. (IF: 30.849, Highly cited paper)\r
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Multifunctional carbon-based metal-free electrocatalysts for simultaneous oxygen reduction, oxygen evolution, and hydrogen evolution. Adv. Mater. 2017, 29, 1604942. (IF: 30.849, Highly cited paper)\r
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Earth-abundant carbon catalysts for renewable generation of clean energy from sunlight and water. Nano Energy 2017, 41, 367. (IF: 17.881)\r
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Carbon-based metal-free catalysts for electrocatalysis beyond the ORR. Angew. Chem. Int. Ed. 2016, 55, 2. (IF: 12.257, Highly cited paper)\r
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Scalable preparation of multifunctional fire-retardant ultralight graphene foams. ACS Nano 2016, 10, 1325. (IF: 15.881)\r
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Tailored graphene systems for unconventional applications in energy conversion and storage devices. Energy Environ. Sci. 2015, 8, 31. (IF: 38.52, Highly cited paper)\r
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Branched graphene nanocapsules for anode material of lithium-ion batteries. Chem. Mater. 2015, 27, 5253. (IF: 38.52)\r
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A powerful approach to functional graphene hybrids for high performance energy-related applications. Energy Environ. Sci. 2014, 7, 3699. (IF: 38.52)