编号
| 文章
| 姓名
| 学院
| 期刊名称
| 中科院分区
|
1
| Wu J , Sun Y M , Wu Z , et al. Carbon Nanocoil-Based Fast-Response and Flexible Humidity Sensor for Multifunctional Applications[J]. ACS Applied Materials & Interfaces, 2019.
| 孙燕明
| 微纳光电
| ACS Applied Materials & Interfaces
| 一区
|
2
| Chunqing Huo, Hua Jiang, Youming Lu, Shun Han, Fang Jia, Yuxiang Zeng, Peijiang Cao, Wenjun Liu, Xu Wangying, Xinke Liu, Deliang Zhu,Tunable photoluminescence effect from ZnO films of Ag-decorated localized surface plasmon resonance by varying positions of Ag nanoparticles,Materials Research Bulletin,Volume 111,2019,
| 吕有明
| 材料
| Materials Research Bulletin
| 二区
|
3
| Fabrication of tunable n-Zn 1-x Cd x O/p-GaN heterojunction light-emitting diodes.Xi Cheng, Shi Wei Xu, You Ming Lu * , Shun Han, Pei Jiang Cao, Fang Jia, Yu Xiang Zeng,Xin Ke Liu, Wang Ying Xu, Wen Jun Liu, De Liang Zhu. Journal of Alloys and Compounds 2019 776 646-653.
| 吕有明
| 材料
| Journal of Alloys and Compounds
| 三区
|
4
| K. Sun, X. Fan, W. Zhang, P. Xue, D. Diao, Contact-focusing electron flow induced nanosized graphene sheets formation in amorphous carbon film for fast low-friction, Carbon. (2019)
| 孙琨
| 机电
| Carbon
| 一区
|
5
| X. Zhang, D. Peng, Z. Lin, W. Chen, D. Diao, Edge Effect on the Photodetection Ability of the Graphene Nanocrystallites Embedded Carbon Film Coated on p-Silicon, Physica Status Solidi - Rapid Research Letters. 1800511 (2019) 1–6. doi:10.1002/pssr.201800511.
| 张希
| 机电
| Physica Status Solidi - Rapid Research Letters
| 二区
|
6
| X. Zhang, Z. Lin, D. Peng, D. Diao, Bias-Modulated High Photoelectric Response of Graphene-Nanocrystallite Embedded Carbon Film Coated on n-Silicon, Nanomaterials. 9 (2019) 327. doi:10.3390/nano9030327.
| 张希
| 机电
| Nanomaterials
| 二区
|
7
| Kan H, Zheng W, Lin R, et al. Ultrafast Photovoltaic-Type Deep Ultraviolet Photodetectors Using Hybrid Zero-/Two-Dimensional Heterojunctions[J]. ACS applied materials & interfaces, 2019, 11(8): 8412-8418.
| 罗景庭
| 物理光电
| ACS applied materials & interfaces
| 一区
|
8
| Li J, Xie Y, Zhang C, et al. Stacking Fault Induced Minimized Lattice Thermal Conductivity in the High-Performance GeTe-Based Thermoelectric Materials upon Bi2Te3 Alloying[J]. ACS applied materials & interfaces, 2019.
| 李均钦
| 材料
| ACS applied materials & interfaces
| 一区
|
9
| Tang R, Zheng Z H, Su Z H, et al. Highly efficient and stable planar heterojunction solar cell based on sputtered and post-selenized Sb2Se3 thin film[J]. Nano Energy, 2019, 64: 103929.
| 梁广兴
| 物理光电
| Nano energy
| 一区
|
10
| Wang P, Lao C S, Chen Z W, et al. Microstructure and mechanical properties of Al-12Si and Al-3.5 Cu-1.5 Mg-1Si bimetal fabricated by selective laser melting[J]. Journal of Materials Science & Technology, 2019.
| 王沛
| 机电
| journal of materials science&technology
| 二区
|
11
| Liu Z, Li Z, Li J, et al. Engineering of Ru/Ru 2 P interfaces superior to Pt active sites for catalysis of the alkaline hydrogen evolution reaction[J]. Journal of Materials Chemistry A, 2019, 7(10): 5621-5625.
| 王超
| 机电
| Journal of materials chemistry A
| 一区
|
12
| Guo J, Dai X, Wang C. Room-temperature anisotropic magnetoresistance of magnetic carbon films with vertically-grown graphene nanocrystallites[J]. Thin Solid Films, 2019, 690: 137527.
| 王超
| 机电
| Thin solid films
| 三区
|
13
| Wang P, Xue P, Chen C, et al. Structural and tribological behaviors of graphene nanocrystallited carbon nitride films[J]. Applied Surface Science, 2019, 495: 143591.
| 汪鹏飞
| 机电
| Applied Surface Science
| 一区
|
14
| Zhang X, Lin Z, Peng D, et al. Edge‐State‐Enhanced Ultrahigh Photoresponsivity of Graphene Nanosheet‐Embedded Carbon Film/Silicon Heterojunction[J]. Advanced Materials Interfaces, 2019, 6(11): 1802062.
| 张希
| 机电
| Advanced Materials Interfaces
| 二区
|
15
| Jian N, Xue P, Diao D. Thermally induced atomic and electronic structure evolution in nanostructured carbon film by in situ TEM/EELS analysis[J]. Applied Surface Science, 2019, 498: 143831.
| 健男
| 机电
| Applied Surface Science
| 一区
|
16
| Li X, Sun Y M, Zhang Z Y, et al. Visible light-driven multi-motion modes CNC/TiO2 nanomotors for highly efficient degradation of emerging contaminants[J]. Carbon, 2019, 155: 195-203.
| 孙燕明
| 微纳光电
| Carbon
| 一区
|
17
| Liu X, Chen Q, Li Y, et al. Synergistic Modification of Magnesium Fluoride/Sodium for Improving the Electrochemical Performances of High-Nickel Ternary (NCM811) Cathode Materials[J]. Journal of The Electrochemical Society, 2019, 166(14): A3480-A3486.
| 王仁衡
| 物理光电
| Journal of The Electrochemical Society
| 二区
|
18
| Xiao Z, Wang R, Li Y, et al. Electrochemical Analysis for Enhancing Interface Layer of Spinel LiNi0. 5Mn1. 5O4 Using p-Toluenesulfonyl Isocyanate as Electrolyte Additive[J]. Frontiers in Chemistry, 2019, 7: 591.
| 王仁衡
| 物理光电
| Frontiers in chemistry
| 二区
|
19
| Shi W T, Sun D L, Chen J Q, et al. Hydrothermal synthesis of aluminum-doped zincophosphate large single crystal with different morphology[J]. Journal of Crystal Growth, 2019, 507: 189-195.
| 史文涛
| 物理光电
| Journal of crystal growth
| 三区
|
20
| Li F, Zheng Z, Chang Y, et al. Synergetic tuning of electrical and thermal transport properties via Pb, Ag dual-doping in BiCuSeO[J]. ACS applied materials & interfaces, 2019.
| 李甫/范平
| 物理光电
| ACS Applied Materials & Interfaces
| 一区
|
21
| Yang H, Wu Y, Li G, et al. Scalable Production of Efficient Single-Atom Copper Decorated Carbon Membranes for CO2 Electroreduction to Methanol[J]. Journal of the American Chemical Society, 2019, 141(32): 12717-12723.
| 何传新
| 化院
| JACS
| 一区
|
22
| Hu Q, Li G, Huang X, et al. Electronic structure engineering of single atomic Ru by Ru nanoparticles to enable enhanced activity for alkaline water reduction[J]. Journal of Materials Chemistry A, 2019, 7(33): 19531-19538.
| 何传新
| 化院
| Journal of materials chemistry A
| 一区
|
23
| Huang Z, Dai Y, Li Z, et al. Investigation on surface morphology and crystalline phase deformation of Al80Li5Mg5Zn5Cu5 high-entropy alloy by ultra-precision cutting[J]. Materials & Design, 2019: 108367.
| 马将
| 机电
| Materials and Design
| 二区
|
24
| Li X, Li L, Zhao H, et al. SnSe2 Quantum Dots: Facile Fabrication and Application in Highly Responsive UV-Detectors[J]. Nanomaterials, 2019, 9(9): 1324.
| 李向阳
| 物理光电
| Nanomaterials
| 二区
|
25
| Zhang L, Wang Y, Wu H, et al. A ZnO nanowire-based microfiber coupler for all-optical photodetection applications[J]. Nanoscale, 2019, 11(17): 8319-8326.
| 张龙飞/王义平
| 物理光电
| Nanoscale
| 一区
|
26
| 范雪,刁东风,超薄纳米薄膜的划痕硬度评价方法及应用,深圳大学学报理工版,36(5): 510-518, 2019
| 范雪
| 机电
| 深大理工学报
|
|
27
| Chen Y X, Li F, Li D, et al. Thermoelectric Properties of Tin Telluride Quasi Crystal Grown by Vertical Bridgman Method[J]. Materials, 2019, 12(18): 3001.
| 黎德龙
| 物理光电
| Materials
| 三区
|
28
| Liu H, Xue Y, Shi J A, et al. Observation of the Kondo Effect in Multilayer Single-Crystalline VTe2 Nanoplates[J]. Nano letters, 2019.
| 薛运周
| 化院
| Nanoletter
| 一区
|
29
| Peng L , Ye S , Song J , et al. Solution㏄hase Synthesis of Few㎜ayer Hexagonal Antimonene Nanosheets via Anisotropic Growth[J]. Angewandte Chemie, 2019, 131(29).
| 彭路成/宋军
| 物理光电
| Angewandte chemie
| 一区
|
30
| ACS Appl. Mater. Interfaces, Just Accepted Manuscript • DOI: 10.1021/acsami.9b16781 • Publication Date (Web): 15 Nov 2019
| 张朝华
| 材料
| ACS Applied Materials & Interfaces
| 一区
|
