葛陽

2022.12-至今，太原理工大學，電子信息與光學工程學院，副教授

2019.12-2022.12，太原理工大學，信息與計算機學院，講師

(1) 低維量子功能材料構築及物態調控；新型拓撲電子材料與器件

(2) 第一性原理計算

半導體物理與器件原理、【英】現代半導體器件物理（研究生）、信息技術導論 ^[1] 

【項目】 ^[1] 

1. 國家重點研發計劃（子課題），2020YFB1314001，2020.12-2023.12，主持

2. 山西省應用基礎研究計劃項目，20210302124429，2022.01-2024.12，主持

3. 山西省高等學校創新項目，2020L0055，2020-2022，主持

4. 國家自然科學基金面上項目，51975400，2020.01-2023.12，參與

5. 山西省研究生教育創新項目，2017BY062，2017-2018，主持

【論文】 ^[1] 

1. Y. Ge, L. Chen*, C. Jiang, J. Ji, Q. Tan, D. Pan, W. Zhang, R. Zhang, E. Janzen, J. H. Edgar, S. Sang*, H. Wang*. Edge Magnetism of Triangular Graphene Nanoflakes Embedded in Hexagonal Boron Nitride, Carbon, 2023, 203: 59–67. （IF: 10.9）

2. Y. Ge, J. Ji, Z. Shen, Q. Zhang, A. Jian, Q. Duan, C. Wang, J. Jiang, W. Zhang, S. Sang*, First principles study of magnetism induced by topological frustration of bowtie-shaped graphene nanoflake. Carbon, 2018, 127: 432–436. （IF: 10.9）

3. Y. Ge, J. Ji*, Q. Zhang, Z. Yuan, A. Jian, X. Yang*, G. Xiao, W. Zhang, S. Sang*, Zero energy states oriented tunability of spin-polarization in zigzag-edged bowtie-shaped graphene nanoflake. Nanotechnology, 2018, 30(8): 085201.

4. Y. Ge, J. Ji*, Q. Zhang, Z. Yuan, R. Wang, W. Zhang, S. Sang*, Unraveling the intrinsic magnetic property of triangular zigzag edge bilayer graphene nanoflakes: A first-principles theoretical study. Chemical Physics letters, 2019, 730: 326–331.

5. S. Sang, Y. Ge, J. Ji, Z. Yuan, C. Zhou, P. Xiao, Q. Tan, D. Zhao*, X. Dong*, Magneto-stress-electric-coupled biosensors originated in magnetostrictive effect for sensitization. Sensors and Actuators B: Chemical, 2023, 378: 133209. （IF: 9.221）

6. X. Guo, J. Hou, Y. Ge, D. Zhao, S. Sang*, J. Ji, Highly Sensitive Magnetoelastic Biosensor for Alpha2-Macroglobulin Detection Based on MnFe2O4@chitosan/MWCNTs/PDMS Composite. Micromachines, 2023. 14(2): 401.

7. M. Luo, S. Sang, Z. Yuan, Y. Ge, D. Zhao, X. Guo*, Scorpion-inspired, Hydrophobic, Highly Sensitive, and Paper-based Magnetoelastic Biosensor for C-reactive Protein Detection, 2024. IEEE Sensors Journal. (DOI: DOI: 10.1109/JSEN.2024.3353213)

8. B. Xia, K. Long, X. Peng, Y. Ge, X. Liang, D. Gao*, Asynchronous Strategy in the Nucleation of Cr2Te3@FeTe Heterolayers: Synthesis and Magnetic Behaviors, Journal of Magnetism and Magnetic Materials, 2023, 579:170875.

9. P. Xiao, S. Sang, Q. Zhang, Y. Ge, Y. Cheng, D. Zhao*. A membrane-type mechanical biosensor based on magnetic, surface stress and electric coupling enhancement for HSA detection, Biochemical Engineering Journal, 2022, 180: 108361.

10. D. Zhao, P. Xiao, X. Dong, S. Sang, Y. Ge, X. Guo, J. Ji, Y. Cheng, S. Sang*, A mechanical biosensor based on membrane-mediated magneto-stress-electric coupled sensitization for human serum albumin detection, Journal of Materials Chemistry B, 2023, 11(40): 9658-9665.

11. H. Chen, K. Yang, S. Sang, X. Guo, Y. Ge, H. Wang, P. Xiao, X. Dong, D. Zhao*, A mechanical HSA biosensor based on multi-field-coupling-mediated magnetic sensitization strategy, Analytical Biochemistry, 2023, 677(19):115264.

12. S. Sang, Q. Tan, Q. Chai, J. Jiang, K. Wu, P. Xiao, D. Zhao, X. Guo, Z. Yang, X. Dong, Y. Ge*, Magneto-Mechanical Coupling Study of Magnetorheological Elastomer Thin Films for Sensitivity Enhancement, ACS Sensors, 2024. (DOI: 10.1021/acssensors.3c02171) （IF: 8.9）

13. J. Jiang, K. Wu, J. Wang, Q. Chai, Z. Yuan, Y. Liu, R. Zhang, S. Sang, Y. Ge*, Electric Field-Induced Magnetic Anisotropies in Fe3GeTe2-based Nano-heterostructures, ACS Applied Nano Materials, 2024. (DOI: 10.1021/acsanm.3c05106) （IF: 5.9）

14. M. Xu, Q. Zhang, Q. Tan, W. Zhang, S. Sang, K. Yang, Y. Ge*, A magnetostrictive BaTiO3-Fe-Ga & PDMS magnetic field sensor: Research on magnetic detection performance. Sensors and Actuators: A. Physical, 2022, 335: 113383. （IF: 4.6）

【專著】 ^[1] 

石墨烯基自旋電子學及其微納自旋傳感應用，西安電子科技大學出版社，2022，ISBN：978-7-5606-6424-8

【專利】 ^[1] 

1. 一種無線無源煤巖界面識別裝置，ZL201610244796.4

2. 一種具有高集成度的自供電壓力傳感器，ZL201710266746.0

3. 一種基於壓電技術的自供電無線液壓用壓力傳感器，ZL201710266146.4

4. 一種骨關節炎標誌物檢測試紙的製備方法，ZL202111447573.5

【學術兼職】 ^[1] 

中國微米納米技術學會高級會員

【個人榮譽】 ^[1] 

山西省優秀博士學位論文；太原理工大學優秀博士學位論文