程俊业副教授

深圳北理莫斯科大学材料系副教授。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，香港城市大学物理与材料系博士毕业。目前已在Advanced  Materials, Electrochemical  Energy Reviews, Advanced  Science, Advanced Functional  Materials, Ecomat, Small,  Journal of Materials Chemistry  A, Nano-Micro Letters，Science  Bulletin等学术期刊累计发表高水平学术论文70  余篇，SCI他引>4500次，h-index：40（Google  Scholar数据），其中9篇论文被列入ESI  高被引用论文，4篇封面论文，1篇热点论文，获得国家发明专利2项，作为项目负责人主持国家自然科学基金、广东省科创委基础研究与应用研究等项目；参与国家自然科学基金、香港特区政府Research  Grants  Council（RGC）及香港创新科技署等多项课题；担任环境科学领域高质量科技期刊分级目录评审专家；深圳市创新环境建设计划重点实验室成员；曾荣获2022年度IOP  出版社Top Cited Paper  Award，2021年度Science  Bulletin期刊最具影响力论文奖；2019欧洲材料学会（EMRS）Best  Poster  Award，曾连续三年度获得香港城市大学杰出学术研究奖；学术兼职：Nano-Micro  Letters、Environmental Science  and Ecotechnology、Nano Research  Energy等期刊青年编委；Frontiers in  Materials和Nanomaterials期刊专刊编辑，美国化学会（ACS）特邀会员，美国材料学会（MRS）会员，香港表面处理学会会员等。

■ Biography-Short  Description

Dr. Junye Cheng now serves as an  Associate Professor at Shenzhen  MSU-BIT University. He got his  PhD degree from City University  of Hong Kong. He has published  more than 70 high-level academic  papers in Advanced Materials,  Electrochemical Energy Reviews,  Advanced Science, Advanced  Functional Materials, Ecomat,  Small, Journal of Materials  Chemistry A, Nano-Micro Letters,  Science Bulletin, etc. These  papers have been cited >4500  times, and a h-index: 40 for him  (Google Scholar data), 9 of  which were listed as ESI papers  with high citation, 4 of which  were listed as Front Cover  papers, 1 of which was listed as  Hot Paper. He also obtained 2  Chinese Invention Patents. He  has presided and participate in  many projects from National  Natural Science Foundation of  China, HK Innovation Technology  Council and HK Research Grants  Committee. He acted as the  evaluation expert for high  quality scientific journals in  the field of environmental  science. He has been ever  awarded the IOP Top Cited Paper  Award in 2022, the Most  Influential Paper Award in  Science Bulletin Journal in  2021, the Best Poster Award of  the European Materials Research  Society (EMRS) in 2019 and the  Outstanding Academic Research  Award of City University of Hong  Kong for three consecutive  years. He also serves as young  editorial member for Nano-Micro  Letters, Environmental Science  and Ecotechnology, Nano Research  Energy journals, guest editor  for Frontiers in Materials and  Nanomaterials. He has served as  invited member for American  Chemical Society(ACS), member  for Materials Research Society  (MRS) and member for Hong Kong  Surface Treatment Association.

■ 教育经历

□ 2009.09-2013.06 齐齐哈尔大学材料科学与工程专业，大学本科;
□ 2013.08-2016.03 上海理工大学 硕士研究生；
□ 2016.09-2019.10 香港城市大学 博士研究生

■ 工作经历

□ 2015.08～2015.12 香港理工大学  研究助理（Research Assistant）
□ 2018.06～2018.09 国家纳米科学中心  访问学者（Visiting Scholar）
□ 2020.04～2021.04 南方科技大学  访问学者（Visiting Scholar）
□ 2022.08-当前  深圳北理莫斯科大学材料科学系副教授

■ 研究领域

□ 新型纳米材料设计与制备；
□ 电磁波吸收及屏蔽；
□ 电化学能源储存（Li-S电池、锌离子电池）

■ Research  Interest

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

■ 主讲课程

■ 社会兼职

□ 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
□ 青年编委及召集人，Nano-Micro Letters期刊  (IF=26.6)
□ 青年编委，Environmental Science and  Ecotechnology期刊 (IF=12.6)
□ 青年编委，Nano Research Energy期刊  清华大学主办
□ 青年编委，Battery Energy 期刊  Wiley出版社
□ 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，Advanced Materials;  Advanced Functional Materials;  Small, 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

■ 科研工作

□ 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
□ 青年编委及召集人，Nano-Micro Letters期刊  (IF=26.6)
□ 青年编委，Environmental Science and  Ecotechnology期刊 (IF=12.6)
□ 青年编委，Nano Research Energy期刊  清华大学主办
□ 青年编委，Battery Energy 期刊  Wiley出版社
□ 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，Advanced Materials;  Advanced Functional Materials;  Small, 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

■代表性成果（论文和专利）

1.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=32.1)

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

3.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=12.2)

4.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 (IF=8.58)

5.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.  (IF=19.9)

6.Cheng  JY, Li CB, Xiong YF, Wu JY,  Zhang DQ, Cao Q*, Zheng QB*, Che  RC*, Advances in design  strategies and multi-functions  of flexible electromagnetic  interference shielding  materials, Nano-Micro Letters,  2022, 14 (1), 1-31. (IF=23.1)

7.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. (IF=19.9)

8.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)

9.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=9.3)

10.Cheng  JY, Li T, Ullah S, Luo F, Wang  H*, Yan M, Zheng GP*, Giant  magnetocaloric effect in  nanostructured Fe-Co-P amorphous  alloys enabled through pulse  electrodeposition,  Nanotechnology 2020, 31, 385704.  (IF=3.9)

11.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=23)

12.Cheng  JY, Chen SM, Chen D, Dong LB,  Wang JJ, Zhang TL, Jiao TP, Liu  B, Wang H*, Kai JJ, Zhang DQ,  Zheng GP*, Zhi LJ, Kang FY,  Zhang WJ*, Editable asymmetric  all-solid-state supercapacitors  based on high-strength,  flexible, and programmable  2D-metal-organic  frameworks/reduced graphene  oxides self-assembled papers,  Journal of Materials Chemistry  A, 2018, 6, 20254–20266.  (IF=14.5)

13.Cheng  JY, Yang XX, Dong LB, Chen SM,  Wu SL, Zheng GP*, Zhang WJ,  Zhang DQ*, Wang H, Effective  nondestructive evaluations on  UHMWPE/Recycled-PA6 blends using  FTIR imaging and dynamic  mechanical analysis, Polymer  Testing, 2017, 59:371-376.  (IF=4.9)

14.Cheng  JY, Zhao B*, Zhang WK, Jiang ZY,  Zheng GP, Zhang DQ, Yang JH*,  High-performance supercapacitor  applications of NiO-nanoparticle  decorated millimeter-long  vertically aligned carbon  nanotube arrays via an effective  supercritical CO2 assisted  method, Advanced Functional  Materials, 2015, 25(47):  7381-7391. (IF=19.9)

15.Cheng  JY, Zhao B*, Zheng SY, Yang JH,  Zhang DQ, Cao MS*, Enhanced  microwave absorption performance  of polyaniline-coated CNT  hybrids by plasma-induced graft  polymerization, Applied Physics  A. 2015 119:37-386.

16.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. (IF=19.9)

17.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.  ( IF=8.0)

18.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. (IF=15.1)

19.Zhang  DQ#, Cheng JY#, Chai JX, Yang  XY, Zhang WJ, Zheng GP*, Cao  MS*, Magnetic-field-induced  dielectric behaviors and  magneto-electrical coupling of  multiferroic compounds  containing cobalt ferrite/barium  calcium titanate composite  fibers, Journal of Alloys and  Compounds, 2018, 740, 1067-1076.  (IF=6.37)

20.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=11.8)

21.Hou  CX, Cheng JY*, Zhang HB, Lu ZH,  Yang XY, Zheng GP, Zhang DQ*,  Cao MS*, Biomass-derived  carbon-coated WS2 core-shell  nanostructures with excellent  electromagnetic absorption in  C-Band, Applied Surface Science,  2022, 577, 151939. (IF=7.3)

22.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. (IF=10.3)

23.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)

24.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)

25.Zhang  DQ, Xiong YF, Cheng JY*, Raza H,  Hou CX, Liu TT, Ba XW, Zhang P*,  Cao MS*, Construction of  low-frequency and  high-efficiency electromagnetic  wave absorber enabled by  texturing rod-like TiO2 on  few-layer of WS2 nanosheets,  Applied Surface Science 2021,  548, 149158. (IF=7.1)

26.Zhang  DQ, Wang HH, Cheng JY*, Han CY,  Yang XY, Xu JY, Shan GC*, Zheng  GP, Cao MS*, Conductive  WS2-NS/CNTs hybrids based 3D  ultra-thin mesh electromagnetic  wave absorbers with excellent  absorption performance, Applied  Surface Science 2020, 528,  147052. (IF=7.1)

27.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, 30, 138-146. (  IF=20.5)

28.Chai  JX, Cheng JY*, Zhang DQ*, Xiong  YF, Yang XY, Ba XW, Ullah S,  Zheng GP, Yan M, Cao MS*,  Enhancing electromagnetic wave  absorption performance of  Co3O4 nanoparticles  functionalized MoS2 nanosheets,  Journal of Alloys and Compounds,  2020, 829, 154531. (IF=6.37)

29.Zhang  DQ, Liu TT, Zhang M, Zhang HB,  Yang XY, Cheng JY*, Shu JC, Li  L, Cao MS*, Confinedly growing  and tailoring of  Co3O4 clusters-WS2 nanosheets  for highly efficient microwave  absorption, Nanotechnology,  2020, 31, 325703. (IF=3.9)

30.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. (IF=23)

31.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)

32.Zhang  DQ, Liu TT, Cheng JY*, Chai JX,  Yang XY, Wang H*, Zheng GP, Cao  MS*, Light-weight and low-cost  electromagnetic wave absorbers  with high performances based on  biomass-derived reduced graphene  oxides, Nanotechnology, 2019,  30,445708. (IF=3.9)

33.Zhang  DQ, Liang S, Chai JX, Liu TT,  Yang XY, Wang H*, Cheng JY*,  Zheng GP, Cao MS*, Highly  effective shielding of  electromagnetic waves in MoS2  nanosheets synthesized by a  hydrothermal method, Journal of  Physics and Chemistry of Solids,  2019, 134, 77-82.

34.Zhang  DQ, Liu TT Cheng JY*, Liang S,  Chai JX, Yang XY, Wang H*, Zheng  GP, Cao MS*, Controllable  synthesis and characterization  of tungsten disulfide nanosheets  as promising nanomaterials for  electronic devices, Ceramics  International, 2019, 45,  12443-12448. (IF=5.5)

35.Zhang  DQ, Jia YX, Cheng JY*, Chen SM,  Zhang WJ, Cao MS*, Zheng GP*,  High-performance microwave  absorption materials based on  MoS2-graphene isomorphic  hetero-structures, Journal of  Alloys and Compounds, 2018, 758,  62-71. (IF=6.37)

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.  申请号：202211273282.3

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

■其他