拜永孝,男,汉族,教授,博士研究生指导教师。2006年毕业于兰州大学化学化工学院获得高分子化学与物理专业理学博士学位;2009-2011于美国密歇根大学从事博士后研究工作。主要从事石墨烯制备方法、石墨烯纳米复合体系、石墨烯纳米能源材料与器件领域的基础研究、技术开发和实际应用方面的研究工作。在ACSApplied Materials & Interfaces 、Chemical Communications、Nanoscale、The Journal of Physical Chemistry C、Composite Part A、Composites Science and Technology、Electrochimica Acta、Journal of Energy Storage等期刊上发表了60余篇研究论文,申请了50余件中国发明和PTC专利,其中30件已获得授权。担任中国材料研究学会纤维材料改性与复合技术分会常务理事、中国石墨烯产业技术创新战略联盟理事、甘肃省材料学会理事、甘肃省机械工程学会材料热处理与表面工程分会理事。
目前主持各类项目6项。
发表SCI/EI论文60余篇,近5年主要的SCI/EI论文如下:
[1]Facile Synthesis of Graphene with Fast Ion/Electron Channels for High Performance Symmetric Lithium-Ion Capacitors. ACSApplied Materials & Interfaces. 2021,8,1-12.
[2]Boron nitride self-assembly cladding structure promoting thermal property and dimensional stability of polymer composites. Composites Science and Technology.2021,201,108536-108545.
[3]Oxidized-Polydopamine-Coated Graphene Anodes and N,P-Codoped Porous Foam Structure Activated Carbon Cathodes forHigh-Energy-Density Lithium-Ion Capacitors.ACSApplied Materials & Interfaces. 2021,13,10336-10348.
[4]Ordinary flter paper-derived hierarchical pore structure carbon materials for supercapacitor.Journal of Energy Storage.2021,35,102331-102337.
[5]Significantly enhanced the properties of PE/GO composites with segregated structures via two-step compound. J Appl Polym Sci.2021,9,1-8.
[6]Synthesis of dense but microporous graphene by Na+ ions intercalation toward high volumetric performance supercapacitors. Applied Surface Science. 2020,526,146728-146736.
[7]Sand-Milling Fabrication of Screen-Printable Graphene Composite Inks for High-Performance Planar Micro-Supercapacitors. ACSApplied Materials & Interfaces. 2020,12,56319-56329.
[8]Functional & enhanced graphene/polyamide 6 composite fiber constructed by a facile and universal method. Composites Part A. 2019, 123,149-157.
[9]Size Effect on the High-Strength and Electrically Conductive Polyolefin/Reduced Graphene Oxide (RGO) Composites. The Journal of Physical Chemistry C. 2018, 122(14):7968-7974.
[10]Low temperature preparation of pore structure controllable graphene for high volumetric performance supercapacitors.Electrochimica Acta. 2018,273,181-190.