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常鹏

发布日期：2023-03-08 作者: 浏览数：分享到：

基本信息

姓名：常鹏（Chang Peng）

E-mail：cppp@xust.edu.cn

研究方向：3D打印、结构性复材电极、陶瓷基复合材料

学位：博士

毕业学校：西北工业大学

职称：讲师

个人简介：

常鹏，男，2022年博士毕业于西北工业大学，师从中国工程院院士张立同科研团队梅辉教授（国家人才项目领军人才）。致力于极端环境下三维结构化储能材料的适应性研究。主持williamhill官网高层次人才引进计划项目1项，西北工业大学博士论文创新基金重点项目1项；作为核心成员参与军委装发部基础科研重大专项、国防基础科研计划、国防科技173计划、国家自然科学基金重点项目等多项国家级科研项目；获得省优秀毕业生、省三好员工、博士研究生国家奖学金等荣誉。

近年来共发表学术论文31篇，其中SCI论文29篇，以第一作者在Advanced Functional Materials、Advanced Science、Small、Journal of Materials Chemistry A、Carbon等材料领域顶级期刊发表论文11篇，其中ESI高被引论文1篇、IF>10论文6篇，一区Top论文7篇，总IF>110，被引>550次，h-index>11；授权、公开国家发明专利2项。

学术兼职：

Frontiers in Energy Research（IF=3.858, SCI二区）青年编委；

Compos. Part B-Eng.（IF=11.322）、Ceram. Int.（IF=5.532）、Int. J. Energ. Res.（IF=4.672）、Vacuum（IF=4.110）、RSC Adv.（IF=4.036）、Int. J. Electrochem. Sci.（IF=1.541）等SCI期刊评审专家。

学术主页：

Researchgate: https://www.researchgate.net/profile/Chang-Peng-2?ev=hdr_xprf

代表性论文：

1.P. Chang, H. Mei, Y. Zhao,et al. 3D Structural Strengthening Urchin-like Cu(OH)₂-based Symmetric Supercapacitors with Adjustable Capacitance[J].Adv. Funct. Mater.,2019, 29(34), 1903588. (SCI,IF=19.924, JCR一区, Top,被引81次)

2.P. Chang, H. Mei, S. Zhou, et al. 3D Printed Electrochemical Energy Storage Devices[J].J. Mater. Chem. A, 2019, 7(9), 4230-4258. (SCI,IF=14.511,ESI高被引论文, JCR一区, Top,被引200次)

3.P. Chang, H. Mei, Y. Zhao, et al. Nature-inspired 3D Spiral Grass Structured Graphene Quantum Dots/MXene Nanohybrids with Exceptional Photothermal-driven Pseudo-Capacitance Improvement[J].Adv. Sci., 2022, 2204086. (SCI,IF=17.521, JCR一区, Top)

4.P. Chang, H. Mei, M. Zhang, et al. 3D Printed Electrochromic Supercapacitors with Ultrahigh Mechanical Strength and Energy Density[J].Small, 2021, 17(41), 2102639. (SCI,IF=15.153, JCR一区, Top,被引11次)

5.P. Chang, H. Mei, Y. Tan, et al. A 3D-printed Stretchable Structural Supercapacitor with Active Stretchability/Flexibility and Remarkable Volumetric Capacitance[J].J. Mater. Chem. A, 2020, 8(27), 13646-13658. (SCI,IF=14.511, JCR一区, Top,被引37次)

6.P. Chang, H. Mei, Y. Zhao, et al. Engineering (Ni, Co, Mn) Se Nanoarrays with 3D-printed Wave-structure Carbon-rich Lattice towards Ultrahigh-capacity, Complex-stress and All-climate Energy Storage[J].Carbon, 2022, 187, 375-385. (SCI,IF=11.307, JCR一区, Top,被引7次)

7.P. Chang, Z. Qin. Facile Fabrication of Hierarchical Porous Carbon based on Group Component Separated from Coal with Outstanding Electrochemical Performance[J].RSC Adv., 2017, 7(54), 33843-33850. (SCI, IF=4.036, JCR二区,被引17次)

8.P. Chang, Z. Qin. Hierarchical Porous Carbon Materials with Ultrahigh Specific Surface Area Prepared from Coal for Supercapacitors[J].Carbon Lett., 2018, 25(1), 117-121. (SCI, IF=3.117, JCR三区,被引14次)

9.P. Chang, Z. Qin. A Novel Kind of Activated Carbon Foam Electrode for Electric Double Layer Capacitors[J].Int. J. Electrochem. Sci., 2017, 12(3), 1846-1862. (SCI, IF=1.541, JCR四区,被引20次)

10.Z. Qin,P. Chang, et al. Preparation and Modulation of a Novel Thin-walled Carbon Foam[J].Int. J. Min. Sci. Tech., 2019, 29(2), 281-287. (SCI, IF=7.670, JCR一区,导师一作,被引7次)

11.Z. Qin,P. Chang, et al. Preparation and Mechanism of Carbon Foam based on Loose Medium Component of Coal[J].Coal Convers., 2016, 39, 85-91 (CSCD,导师一作,被引12次).

12.M. Zhang, H. Mei,P. Chang, et al. 3D Printing of Structured Electrodes for Rechargeable Batteries[J].J. Mater. Chem. A, 2020, 8(21), 10670-10694. (SCI,IF=14.511, JCR一区, Top,被引72次)

13.X. Wang, H. Mei,P. Chang, et al. Layered (NH₄)₂V₁₀O₂₅·8H₂O Coupled with Two-Electron Iodide Redox Achieving Exponential Energy Density Enhancement of NH⁴⁺supercapacitors[J].Appl. Surf. Sci., 2022, 605(8), 154668. (SCI, IF=7.392, JCR一区, Top)

14.M. Zhang, T. Hu,P. Chang, et al. 3D Printing of CuO/Cu@Mullite Electrodes with Macroporous Structures and their Strong Regulation on Zinc Ion Storage[J].Ceram. Int., 2021, 48(3), 4124-4133. (SCI, IF=5.532, JCR一区, Top)

15.S. Zhou, H. Mei,P. Chang, et al. Molecule Editable 3D Printed Polymer-derived Ceramics[J].Coordin. Chem. Rev., 2020, 422, 213486. (SCI,IF=24.833, JCR一区, Top,被引34次)

16.Y. Zhao, H. Mei,P. Chang, et al. Infinite Approaching Superlubricity by Three-Dimensional Printed Structures[J].ACS Nano, 2021, 15(1), 240-257. (SCI,IF=18.027, JCR一区, Top,被引18次)

17.W. Huang, H. Mei,P. Chang, et al. Tailoring Soft-flexible Negative Poisson's Ratio Support to Boost Photocatalytic Efficiency: From Dissociation to Anchoring[J].Addit. Manuf., 2022, 58, 103059. (SCI,IF=11.632, JCR一区, Top)

18.Y. Zhao, H. Mei,P. Chang, et al. High-strength Printed Ceramic Structures for Higher Temperature Lubrication[J].Compos. Part B: Eng., 2021, 221, 109013. (SCI,IF=11.322, JCR一区, Top,被引7次)

19.Y. Zhao, H. Mei,P. Chang, et al. 3D-printed Topological MoS₂/MoSe₂Heterostructures for Macroscale Superlubricity[J].ACS Appl. Mater. Interfaces, 2021, 13(29), 34984-34995. (SCI,IF=10.383, JCR一区, Top,被引11次)

20.W. Huang, H. Mei,P. Chang, et al. Bioinspired hierarchical-pore anchoring strategy advancing synergistic photocatalytic-mechanical properties[J].J. Environ. Chem. Eng., 2023, 11(2), 109337. (SCI, IF=7.968, JCR一区)

21.M. Zhang, T. Hu, X. Wang,P. Chang, et al. Enhancement of OCV and Capacity by Activating Electrolyte with Polyiodide Ions Towards High-availability Self-charging Zinc Ion Batteries[J].Energy Storage Mater., 2022, 51, 465-475. (SCI,IF=20.831, JCR一区, Top)

22.M. Zhang, T. Hu, X. Wang,P. Chang, et al. Boosting Uniform Charge Distribution by 3D Rigid Electrodes with Interconnected Gyroid Channels to Achieve Stable and Reliable Zinc-ion Battery[J].J. Mater. Chem. A, 2022, 10(13), 7195-7206. (SCI,IF=14.511, JCR一区, Top)

23.X. Wang, M. Zhang, H. Mei,P. Chang, et al. Ultra-pressure-resistant SiOC@Cu₂Se 3D Printed Cathode for Aqueous Zinc-ion Batteries[J].Ceram. Int., 2021, 47(17), 24699-24706. (SCI, IF=5.532, JCR一区, Top)

国家发明专利

1.梅辉，常鹏，赵钰，成来飞，张立同.一种多面体扭转结构高效光热转化材料的制备方法及应用.申请号：CN202210718531.9

2.梅辉，赵钰，常鹏，成来飞.一种可量产的高纯SiC陶瓷涂层的低温常压烧结制备方法.申请号：CN202010328719.3.