程俊业副教授

深圳北理莫斯科大学副教授，纳米功能材料与器件团队负责人，入选“广东省珠江人才海外青年人才”、“深圳市高层次人才”、“龙岗区领军人才”项目、“斯坦福大学发布《全球前2%顶尖科学家》”榜单，目前已在Adv. Mater., Electrochem. Energy Reviews, Adv. Funct. Mater., Adv. Energy. Mater., Nano-Micro Lett.,等学术期刊发表高水平学术论文90余篇，SCI他引≥8350次，h-index：51，16篇论文被列入ESI高被引用论文，6篇封面论文，2篇热点论文，出版英文专著1本；主持国家自然科学基金面上项目、青年基金项目，广东省重点领域专项、广东省科创委基础研究与应用研究项目；荣获2024深圳市科协第四届优秀科技学术论文奖；2023年度中国材料研究学会新材料创新创业青年学者奖，2024/2023两年度Nano-Mirco Letters期刊ESI TOP Article AWARD；担任广东省青年科技创新研究会新材料专委会主任，Journal of Materiomics主编助理，eScience、Nano-Micro Letters等期刊青年编委，Frontiers in Materials和Nanomaterials的客座编辑，美国材料研究学会成员，美国化学学会受邀成员，中国化学会会员。

■ Biography-Short  Description

Junye Cheng, associate professor at Shenzhen MSU-BIT University (SMBU), is the leader of the Nano-functional Materials and Devices Team. He has been selected for the "Guangdong Pearl River Talent Program for Overseas Young Talents", "Shenzhen High-level Talent Program", and "Longgang District Leading Talent Program", and has also been selected for the list of "Top 2% Global Scientists" released by Stanford University. He has published over 90 high-level academic papers in journals such as Adv. Mater., Electrochem. Energy Reviews, Adv. Funct. Mater., Adv. Energy. Mater., Nano-Micro Lett., etc., with an h-index of 51. 16 of his papers have been listed as ESI highly cited papers, 6 as cover papers, and 2 as hot papers. He has also authored one English monograph. He has led several projects including the National Natural Science Foundation of China General Program and Youth Program, Guangdong Province Key Field Special Project, and Guangdong Province Science and Technology Commission Basic Research and Applied Research Project. He won the 4th Excellent Scientific and Technological Academic Paper Award of Shenzhen Association for Science and Technology in 2024, the New Materials Innovation and Entrepreneurship Young Scholar Award of the Chinese Materials Research Society in 2023, and the ESI TOP Article AWARD of Nano-Micro Letters in 2024/2023. He serves as the director of the New Materials Special Committee of the Guangdong Youth Science and Technology Innovation Research Association, assistant editor-in-chief of Journal of Materiomics, and a young editorial board member of eScience and Nano-Micro Letters. He is also a guest editor for Frontiers in Materials and Nanomaterials, a member of the Materials Research Society of America, an invited member of the American Chemical Society, and a member of the Chinese Chemical Society.

■ 教育经历

□ 2016.09-2019.07  香港城市大学，物理与材料，哲学博士；

□ 2013.09-2016.07  上海理工大学，能源与动力工程，硕士

■ 工作经历

□ 2022.08-当前 深圳北理莫斯科大学材料科学系副教授

□ 2020.04～2021.04 南方科技大学 访问学者（Visiting Scholar）

□ 2018.06～2018.09 国家纳米科学中心 访问学者（Visiting Scholar）

□ 2015.08～2015.12 香港理工大学 研究助理（Research Assistant）

■ 研究领域

□ 新型纳米材料设计与制备（MOFs材料、高熵材料等）；

□ 电磁波吸收及屏蔽（电磁隐身与防护）；

□ 电化学能源储存（Li离子电池商业化、Li-S电池）

■ Research  Interest

Design and preparation of novel nanomaterials for Electromagnetic waves absorption and shielding, Electrochemical energy storage（Li-ion battery、Zn-ion battery）.

■ 主讲课程

《材料科学导论》

■ 社会兼职

□ 学科专家，国际OA期刊推荐名录（OARL）评价委员会

□ 评审专家，国家基金委

□ 评审专家，广东省科创委

□ 评审专家，深圳坪山区“聚龙领军人才”（A、B、C类）评审委员会

□ 评审专家，《环境科学领域高质量科技期刊分级目录》工作委员会

□ 主任，广东省青年科技创新研究会新材料专委会

□ 专家委员会委员，广东省石墨烯导热薄膜工程技术研究中心

□ 学会委员，中国复合材料学会电磁复合材料分会

□ 特邀会员 (Invited Membership)：美国化学会（American Chemistry Society）

学术成员 (Member)：美国材料研究学会（American Materials Research Association），中国化学会会员，中国材料学会会员，中国制冷学会（China Refrigeration Association），香港表面处理学会（Hong Kong Surface Treatment Association）

□ 主编助理，Journal of Materiomics 期刊 (IF=8.4)

□ 青年编委，eScience期刊 (IF=41)

□ 青年编委，Nano-Micro Letters期刊 (IF=31.6)

□ 青年编委，Advanced Fiber Materials期刊 (IF=18)

□ 专刊编辑，Special Issue "Metal-Organic Frameworks for Electrochemical Energy Storage, Electrocatalysis, Electrosorption, and Bioimaging Photonics" Frontiers in Materials期刊

□ 专刊编辑，Special Issue "Nanomaterials in Water Applications" Nanomaterials期刊

□ 审稿人: Science Advance, Nature Communication, Matter, Advanced Materials; Nano-Micro Letters; Small; ACS Applied Materials & Interface; Journal of Materials Chemistry A; Chemical Engineering Journal; Applied Surface Science; Journal of Materials Chemistry C; Composites Science and Technology; Journal of Materials Science and Technology; Journal of Environmental Chemical Engineering; Industrial & Engineering Chemistry Research; Materials Today Communications; Journal of Alloys and Compounds; Polymer Testing; Journal of Nanoparticle Research等期刊 (>20 journals; >300 papers)

■ 荣誉奖励

□ 斯坦福大学发布《全球2%顶尖科学家榜单》 2024

□ 深圳市科协第四届优秀科技学术论文奖 2024

□ 最佳论文奖，Electrochemical Energy Reviews期刊  2024

□ 最佳论文奖，Nano-Mirco Letters期刊 2024

□ Journal of Materials Science & Technology期刊ESI TOP ARTICLE AWARD 2024

□ Nano Materials Science优秀青年编委 2024

□ 新材料产业发展大会新材料创新创业青年学者奖，中国材料研究学会 2023

□ 最佳论文奖，Nano-Mirco Letters期刊 2023

□ 最佳引用论文奖，IOP出版社 2022

□ 最有影响力论文奖，Science Bulletin期刊  2021

□ 广东省珠江海外青年人才 2021

□ 深圳市龙岗区领军人才-深龙英才 2021

□ 深圳市高层次人才-孔雀计划 2020

■ 科研工作

1.国家自然科学基金面上项目，基于高熵化工程过渡金属硫化物电磁响应与原形吸波器件一体化研究，2024.01.01-2027.12.30，主持，项目负责人 (PI)

2.广东省教育厅重点领域专项，面向低频、宽频电磁损耗响应特质的高熵陶瓷吸波器件开发技术研究，2024.01.01-2027.12.30，主持，项目负责人 (PI)

3.深圳市高校稳定支持项目，基于HIB导电金属有机框架低频宽频电磁波吸收调控策略，2024.01-2026.12，主持，项目负责人 (PI)

4.国家自然科学基金青年项目，自极化多金属导电MOFs设计制备及其吸波性能调控，52102368， 2022.01.01- 2024.12.31，主持，项目负责人 (PI)

5.广东省基础研究与应用基础研究项目，原子层沉积构筑硫化锗异质结及其吸波性能调控，2020A1515110，2021.01.01- 2022.12.31，主持，项目负责人 (PI)

■代表性成果（论文和专利）

专著：

1. Huang L, Zhang H, Cheng JY et al, Nanomaterials in Water Applications, MDPI，ISBN 978-3-7258-2219-5, doi.org/10.3390/books978-3-7258-2220-1.

论文：

1. Jin YH#, Cheng JY#*, Jiang S, Zou X, Wang Y, Li Y, Guo J, Ren Z, Chen Q, Zhang Z, Qin Q, Liu B, Che R*, Conductance Reinforced Relaxation Attenuation with Strong Metal-N Coordination in Multivariate π-Conjugated MOFs for Integrated Radar-Infrared Camouflage, Advanced Materials, 2025, 2501330. (IF=26.8)

2. Cheng JY*, Huang L, Innovative MOF materials for a sustainable future: Tackling energy and environmental challenges, Environmental Science and Ecotechnology 2025, 24,100545. (IF=14.3)

3. Raza H, Cheng JY*, Wang JW, Nie WL, Zheng GP*, Chen GH*, Harnessing High Entropy Sulfides (HES) as a Robust Electrocatalyst for Long-Term Cycling of Lithium-sulfur Batteries, Energy&Environmental Materials, 2025, in press. DOI: 10.1002/eem2.70007 (IF=14.1)

4. Li Y, Jin Y, Raza H, Wang Y, Chen Q, Zou X, Ren Z, Guo J, Zheng G, Cheng JY*, Dual driving strategy from micro-polarization to macroscopic conductance: Tailoring optimized low-frequency and wide-band microwave absorption in high-entropy oxides, Journal of Materials Science & Technology, 2025, In-press, https://doi.org/10.1016/j.jmst.2025.02.011. (IF=14.3)

5. Wang H, Xiao X, Zhai S, Xue C, Zheng G, Zhang D, Che R, Cheng JY*, Spontaneous Orientation Polarization of Anisotropic Equivalent Dipoles Harnessed by Entropy Engineering for Ultra-Thin Electromagnetic Wave Absorber, Nano-Micro Letters 2025, 17 (1), 1-15. (IF=36.3)

6. Fu YR, Wang YP, Cheng JY*, Li Y, Wang J, Jin YH, Zhang DQ*, Zheng Guangping, Cao Maosheng*, Manipulating polarization attenuation in NbS2-NiS2 nanoflowers through homogeneous heterophase interface engineering toward microwave absorption with shifted frequency bands. Nano Materials Science, 2024,6,794-804. DOI:10.1016/j.nanoms.2024.05.003. (封面文章，IF=17.9)

7. Cheng JY*, Li Y, Raza H, et al. Cross-Scale Synergistic Manipulation of Dielectric Genes in Polymetallic Sulfides from Micropolarization to Macroconductance Toward Wide-Band Microwave Absorption. Advanced Functional Materials, 2024: 2405643. (ESI高被引, IF=18.5)

8. Fan L, Ai H, Jiao M, Li Y, Jin Y, Fu Y, Wang J, Wang Y, Zhang D, Zheng G, Cheng JY*, Low-frequency and dual-band microwave absorption properties of novel VB-group disulphides (3R-TaS₂) nanosheets, Nano Materials Science, 2024, 6(5), 635-646. https://doi.org/10.1016 /j.nanoms.2024.05.011 (IF=17.9)

9. Wang J, Wang Y, Cheng JY*, Fu Y, Li Y, Nie W, Wang J, Liu B, Zhang D*, Zheng G, Cao MS*, Abundant vacancies induced high polarization-attenuation effects in flower-like WS2 microwave absorbers, Journal of Materials Science & Technology, 2024, 194, 193-202. (ESI高被引, IF=14.3)

10. Wan X, Song H, Zhao Z, Zhang Z, Wang J, Cheng JY*, Hydrophilic polyanionic hydrogel electrolyte for anti-freezing and bending resistant zinc-ion hybrid supercapacitors, Journal of Materiomics, 2024,10, 1299-1307. https://doi.org/10.1016/j.jmat.2024.02.002. (封面文章, IF=8.58)

11. Raza H, Cheng JY*, Wang JW, Kandasamy S, Zheng GP*, Chen GH*, Titanium-containing high entropy oxide (Ti-HEO): A redox expediting electrocatalyst towards lithium polysulfides for high performance Li-S batteries, Nano Research Energy, 2024, 3: e9120116. https://doi.org/10.26599 /NRE.2024.9120116

12. Wang JW, Bai ZW, Zhao ZJ, Zheng GP, Cheng JY*, Chen GH*, Electron/ion-conductive and flexible dual-functional copolymer enabled by EDOT and h2PDMS for optimized Li-ion batteries, Nano Research Energy, DOI: 10.26599/NRE.2024.9120133.

13. Cheng JY*, Jin YH, Zhao JH, Jing Q, Gu BL, Wei JL, Yi SH, Li MM, Nie WL, Qin QH*, Zhang DQ, Zheng GP*, Che RC*, From VIB- to VB-Group Transition Metal Disulfides: Structure Engineering Modulation for Superior Electromagnetic Wave Absorption, Nano-Micro Letters, 2024, 16 (1), 29 (ESI高被引, IF=36.3)

14. Cheng JY*, Ran SJ, Li T, Yan M, Wu J, Steven B*, Liu B, Zhang WJ, Chen GH, Zheng GP*, Achieving superior tensile performance in individual metal organic framework, Advanced Materials, 2023, 2210829. (IF=26.8)

15. Raza H#, Bai SY#, Cheng JY#*, Zhu H, Liu Q*, Zheng GP, Chen GH*, Li-S batteries: challenges, achievements and opportunities, Electrochemical Energy Reviews, 2023, 6, 29 DOI:10.1007/s41918-023-00188-4. (ESI高被引, IF=32.8)

16. Hassan R, Cheng JY*, Lin C, Majumder S, Zheng GP, Chen GH*, High-Entropy Stabilized Oxides Derived via a Low-Temperature Template Route for High-Performance Li-S Batteries, Ecomat, 2023, e12324. (IF=14.6)

17. Li Y, Jin YH, Cheng JY*, Fu YR, Wang J, Fan LQ, Zhang DQ, Zhang P*, Zheng GP, Cao MS*, Achieving superior electromagnetic wave absorbers with 2D/3D heterogeneous structures through the confinement effect of reduced graphene oxides, Carbon 2023, 213 118245.(ESI高被引, IF=10.9)

18. Wang HH, Zhang HB, Cheng JY*, Liu TT, Zhang DQ, Zheng GP, Zhai SR, Cao MS*, Building the conformal protection of VB-group VS2 laminated heterostructure based on biomass-derived carbon for excellent broadband electromagnetic waves absorption, Journal of Materiomics, 2023, 9 (3), 492-501 (ESI高被引, IF=8.5)

19. Sa B, Lu S, Gong P, Wang D, Dong Y, Cheng JY*, Ren G, Yan M, Printability and properties of tungsten cemented carbide produced using laser powder bed fusion additive manufacturing with Ti as a binder, International Journal of Refractory Metals and Hard Materials 2023, 111, 106106.

20. Cheng JY, Zhang HB, Ning MQ, Raza H, Zhang DQ*, Zheng GP, Zheng QB*, Che RC*, Emerging materials and designs for low band and multi-band electromagnetic wave absorbers: searching for dielectric and magnetic synergy?, Advanced Functional Materials, 2022, 2200123. (ESI高被引, IF=18.5)

21. Cheng JY, Li CB, Xiong YF, Zhang HB, Raza H, Zheng GP, Cao Q*, Zhang DQ, Zheng QB*, Che RC*, Recent advances in design strategies and multi-functions of flexible electromagnetic interference shielding materials, Nano-Micro Letters, 2022, 14 (1), 1-31. (ESI高被引, IF=36.3)

22. Cheng JY, Zhang HB, Wang HH, Huang ZH, Raza H, Hou CX, Zheng GP, Zhang DQ*, Zheng QB*, Che RC*, Tailoring self-polarization of bimetallic organic frameworks with multiple polar units towards high-performance consecutive multi-band electromagnetic wave absorption at Gigahertz, Advanced Functional Materials, 2022, 2201129. (ESI高被引, IF=18.5)

23. Zhou ZX, Yang XY, Zhang DQ, Zhang HB, Cheng JY*, XIong YF, Huang ZH, Wang HH, Zhang P*, Zheng GP, Cao MS*, Achieving superior GHz-absorption performance in VB-group laminated VS₂ microwave absorber with dielectric and magnetic synergy effects, Advanced Composites and Hybrid Materials, 2022,5, 2317–2327 (IF=20.1)

24. Huang ZH, Cheng JY*, Zhang HB, Xiong YF, Zhou ZX, Zheng QB, Zheng GP, Zhang DQ*, Cao MS*, High-performance microwave absorption enabled by Co₃O₄ modified VB-group laminated VS₂ with frequency modulation from S-band to Ku-band, Journal of Materials Science & Technology, 2022, 107, 155-164. (ESI高被引, 封面文章, IF=14.3)

25. Zhang HB, Liu TT, Cheng JY*, Wang HH, Zhang DQ*, Ba XW, Zheng GP, Yan M, Cao MS*, Engineering flexible and green electromagnetic interference shielding materials with high performance through modulating WS₂ nanosheets on carbon fibers, Journal of Materiomics, 2022, 8 (2), 327-334. (IF=8.58)

26. Cao Q*, Li Q, Pi Z, Zhang J, Sun LW, Xu J, Cao Y, Cheng JY*, Bian Y*, Metal–Organic-Framework-Derived Ball-Flower-like Porous Co3O4/Fe2O3 Heterostructure with Enhanced Visible-Light-Driven Photocatalytic Activity, Nanomaterials, 2022, 12, 904. (IF=5.7)

27. Cheng JY, Zhang HB, Xiong YF, Gao LF, Wen B, Raza H, Wang H*, Zheng GP, Zhang DQ*, Zhang H*, Construction of multiple interfaces and dielectric/magnetic heterostructures in electromagnetic wave absorbers with enhanced absorption performance: a review, Journal of Materiomics 2021, 7 (6), 1233-1263. (封面文章, IF=8.58)

28. Zhang HB#, Cheng JY#*, Wang HH, Huang ZH, Zheng QB, Zheng GP, Zhang DQ*, Che RC*, Cao MS*, Initiating VB-Group Laminated NbS2 Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation, Advanced Functional Materials, 2021, 2108194. (ESI高被引, 共一，通讯，IF=19.9)

29. Cheng JY, Liu KL, Li X, Huang L, Liang J*, Zheng GP, Shan GC*, Nickel-metal-organic framework nanobelt based composite membranes for efficient Sr²⁺ removal from aqueous solution, Environmental Science and Ecotechnology, 2020, 3, 100035. (IF=14.3)

30. Zhang DQ#, Zhang HB#, Cheng JY#, Raza H, Liu TT, Liu B, Ba XW, Zheng GP*, Chen GH*, Cao MS*, Customizing coaxial stacking VS₂ nanosheets for dual band microwave absorption with superior performance at C- and Ku- Bands, Journal of Materials Chemistry C, 2020, 8, 5923-5933. (共一, IF=8.0)

31. Cheng JY, Gao LF, Li T, Mei S, Wang C, Wen B, Huang WC, Li C, Zheng GP, Wang H*, Zhang H*, Two-dimensional black phosphorus nanomaterials: emerging advances in electrochemical energy storage science, Nano-Micro Letters, 2020, 12, 179. (IF=36.3)

32. Liu B#, Peng HQ#, Cheng JY#, Zhang K, Chen D, Shen D, Wu SL, Jiao TP, Kong X, Gao QL, Bu SY, Lee CS, Zhang WJ*, Graphene-encapsulated nickel copper alloy nanoflower for highly efficient electrochemical hydrogen evolution reaction, Small, 2019, 1901545. (共一，封面文章, IF=13)

33. Zhang DQ, Xiong YF, Cheng JY*, Chai JX Liu TT, Ba XW, Ullah S, Zheng GP, Yan M*, Cao MS*, Synergetic dielectric loss and magnetic loss towards superior microwave absorption through hybridization of few-layer WS₂ nanosheets with NiO nanoparticles, Science Bulletin, 2020, 65, 138-146. (ESI高被引, IF=21.1)

34. Zhang DQ, Liu TT, Cheng JY*, Cao Q, Zheng GP, Liang S, Wang H*, Cao MS*, Lightweight and high-performance microwave absorber based on 2D WS₂–RGO heterostructures, Nano-Micro Letters, 2019, 11, 38. (封底文章, IF=36.3)

35. Zhang DQ, Liu TT, Shu JC, Liang S, Wang XX*, Cheng JY*, Wang H, Cao MS*, Self-assembly constructing WS₂-rGO architecture with green EMI shielding, ACS Applied Materials & Interfaces, 2019,11, 26807−26816. (IF=10.383)

发明专利(部分)：

1.  赵斌，程俊业，杨俊和，张慧娟，唐志红，邱汉迅； 一种制备垂直碳纳米管数组/过渡金属氧化物复合材料的方法; 授权专利号: ZL201510053195.0

2. 单光存，程俊业，陈胜梅，胡明俊，张文军； 一种二维MOF/氧化碳材料复合薄膜及其制备方法和应用; 授权专利号: ZL201711259862.6

3. 陈国华，Hassan Raza，程俊业，覃旭松；纳米高熵氧化物材料及制备方法、锂硫电池正极材料; 授权专利号：ZL202211273282.3

4. 易圣辉、QINGHUA QIN，程俊业；一种可变结构形态的跨介质旋翼无人机及其控制方法; 申请号：2023101240483

5. 王静威，程俊业，赵泽佳，廖友庚；负极和电解质一体化结构及其制备方法和应用；授权专利号：ZL202410284060.4

6. 王静威，李树奎，程俊业，锌粉负极材料及其制备方法、和锌离子电池；授权专利号：ZL202410911708.6

■其他

本课题组常年招聘锂离子电池正极材料、电磁波吸收材料相关研究方向博士后研究人员，也欢迎具有材料科学与工程、物理学、化学等相关专业背景的学生加入本团队攻读硕士及博士学位，请直接与我联络。