1.个人简介：

马文全，男，研究员，博士生导师。兰州大学物理系毕业，中国科学院半导体所理学硕士，德国洪堡大学理学博士，博士论文工作是在柏林Paul-Drude固体电子研究所从事的。长期从事低维半导体结构的材料生长、物理特性及器件研究工作。

2.主要科研方向：

半导体光电子材料及器件物理研究，锑化物红外探测器及激光器，新型低维半导体低维结构材料及器件。

3.联系方式：  

E-mail：wqma@semi.ac.cn，电话：010-82304089  

4.主要学术成就：  

近几年主要取得的科研成果有：系统开展了锑化物二类超晶格材料及器件物理的研究，研制成功从短波（约1微米）到甚长波波段的单色及各种双色二类超晶格红外探测器器件；与兄弟单位合作研制成功高性能的二类超晶格中波、长波及中/长波、中/短波双色红外焦平面阵列器件，器件具有极低的噪声等效温度差（NETD），如：中波（约5.6微米）：10 mK (388X284)；长波（约12微米）：24 mK (640X512)；中长波：中波（4.9微米）17 mK，长波（9.7微米）19mK (388X284) ；研制成功二类超晶格中波APD器件；研制成功带间级联激光器;首次实验上报道了二类超晶格材料中的多光子吸收现象，观察到双光子、5光子及11光子吸收等等。 

近几年代表性论著（全部为通信作者）：

1. S.L. Yan, J.L. Huang, T. Xue, Y.H. Zhang and W.Q. Ma*, “Long wavelength interband cascade photodetector with type II InAs/GaSb superlattice absorber, J. of Semiconductors, 44, 042301 (2023).

2.  J.L. Huang, S.L. Yan, T. Xue, Y.H. Zhang and W.Q. Ma*, “Mid-Wavelength InAs/InAsSb Superlattice Photodetector With Background Limited Performance Temperature Higher Than 160 K”, IEEE Transactions on Electron Devices, 69, 4392 (2022).

3. S.L. Yan, J.L. Huang, Y.H. Zhang and W.Q. Ma*, “Mid wavelength type II InAs/GaSb superlattice avalanche photodiode with a separate AlAsSb multiplication layer”, IEEE Electron Device Lett., 42, 1634 (2021).

4, J.L. Huang, C.C.Zhao…, W.Q. Ma*, “High-performance mid-wavelength InAs avalanche photodiode using AlAs0.13Sb0.87 as the multiplication layer”, PhotonicsResearch, 8, 755 (2020).

5. C.C. Zhao, J.L. Huang…, W.Q. Ma*, “Multiphoton absorption in type-II InAs/GaSbsuperlattice structure”, Optics Lett., 45, 165(2020). 

6. B.Y. Nie, J.L. Huang…, W.Q. Ma*, “ Long wavelength type II InAs/GaSb superlatticephotodetector using resonant tunneling diode structure”, IEEE Electron Device Lett., 41, 73 (2020).

7. C.C. Zhao, J.L. Huang…, W.Q. Ma*, “Monte Carlo simulation of avalanche noise characteristics of type II InAs/ GaSb superlattice avalanche photodiodes”, Solid State Communications, 301, 113699(2019). 

8. B.Y. Nie, J.L. Huang…, W.Q. Ma*, “InAs/GaSb superlattice resonant tunneling diodephotodetector with InAs/AlSb double barrierstructure”, Appl. Phys. Lett., 114, 053509(2019).

9. W.J. Huang, J.L. Huang…, W.Q. Ma*, “Short/Mid-Wave Two-Band Type-II SuperlatticeInfrared Heterojunction Phototransistor”, IEEE Photo. Technol. Lett., 31, 137(2019). 

10. J.L. Huang, W.Q. Ma*, Y.H. Zhang, et al., “Two-Color niBin Type II Superlattice InfraredPhotodetector With External QuantumEfficiency Larger Than 100%”, IEEE Electron Device Lett. 38, 1266 (2017).   

11. W.J. Huang, W.Q. Ma*, J.L.Huang, et al., “Electron mobility of inverted InAs/GaSb quantum well structure”, Solid State Communications, 267, 29(2017). 

12. Y.H. Zhang, W.Q. Ma*, J.L. Huang, et al., “Pushing Detection Wavelength Toward 1 μm byType II InAs/GaAsSb SuperlatticesWith AlSb Insertion Layers”, IEEE Electron Device Lett. 37, 1166 (2016). 

13. J.L. Huang, W.Q. Ma*, Y.H. Zhang, et al., “Experimental determination of band overlap in type II InAs/GaSb superlattice based on temperature dependent photoluminescence signal”, Solid State Communications, 224, 34(2015). 

14. J.L. Huang, W.Q. Ma*, Y.H. Zhang, et al., “Impact of band structure of Ohmic contact layers on the response feature of p-i-n very long wavelength type II InAs/GaSb superlattice photodetector”, Appl. Phys. Lett., 106, 263502(2015).  

15. J.L. Huang, W.Q. Ma*, Y.H. Zhang, et al., “Narrow-band Type II Superlattice Photodetector with Detection Wavelength Shorter than 2 μm”, IEEE Photo. Technol. Lett., 27, 2276(2015). 

16. K. Liu, W.Q. Ma*, J.L. Huang, Y.H. Zhang, et al.,“Longer than 1.9 μm photoluminescence emission from InAs quantum structure on GaAs (001) substrate”, Appl. Phys. Lett. 107 , 041103(2015). 

17. J.L. Huang, W.Q. Ma*, Y. Wei, Y.H. Zhang , K. Cui, and J. Shao, “Interface effect on structural and optical properties of type II InAs/GaSb superlattices”, J. Crystal Gowth. 407, 37 (2014).  

18. Q. Li, W.Q. Ma*, Y.H. Zhang , K. Cui, J.L. Huang , Y. Wei, et al., “Dark current mechanism of unpassivated mid wavelength type II InAs/GaSb superlattice infrared photodetector”, Chin. Sci. Bull. 59, 3696 (2014).  

19. K. Cui, W.Q. Ma*, Y.H. Zhang, et al., “540-meV Hole Activation Energy for GaSb/GaAs Quantum Dot Memory Structure Using AlGaAs Barrier”, IEEE Electron Device Lett. 34, 759 (2013).  

20. X.L. Guo, W.Q. Ma*, J.L. Huang, Y.H. Zhang , Y. Wei, K. Cui, Y.L. Cao, and Q. Li, “Electrical properties of the absorber layer for mid, long and very long wavelength detection using type-II InAs/GaSb superlattice structures grown by molecular beam epitaxy”, Semicond. Sci. Technol. 28, 045004(2013).  

21. J.L. Huang, W.Q. Ma*, Y. Wei, Y.H. Zhang , K. Cui, Y.L. Cao, X.L. Guo and J. Shao, “How to use type II InAs/GaSb superlattice structure to reach detection wavelength of 2–3 μm”, IEEE J. Quantum Electro. 48, 1322 (2012).  

22. J.L. Huang, W.Q. Ma*, Y.L. Cao, Y. Wei, Y.H. Zhang , K. Cui, G.R. Deng and Y.L. Shi, “Mid wavelength type II InAs/GaSb superlattice photodetector using SiOxNy passivation”, Jpn. J. Appl. Phys. 51, 074002(2012).  

23. K. Cui, W.Q. Ma*, J.L. Huang, Y. Wei, Y.H. Zhang, Y.L. Cao, Y.X. Gu and T. Yang, “Multilayered type-II GaSb/GaAs self-assembled quantum dot structure with 1.35μm light emission at room temperature”, Physica E. 45, 173 (2012).  

24. Y.H. Zhang, W.Q. Ma*, Y.L. Cao, J.L. Huang, Y. Wei, K. Cui, and J. Shao, “Narrow-band long-/very-long wavelength two-color type-II InAs/GaSb superlattice photodetector by changing the bias polarity”, Appl. Phys. Lett. 100, 173511 (2012).  

25. Y. Wei, W.Q. Ma*, Y.H. Zhang , J.L. Huang, Y.L. Cao, and K. Cui, “High structural quality of type II InAs/GaSb superlattices for very long wavelength infrared detection by interface control”, IEEE J. Quantum Electron. 48, 512 (2012).  

26. Y.H. Zhang, W.Q. Ma*, Y.L. Cao, J.L. Huang,, Y. Wei, K. Cui, and J. Shao, “Long wavelength infrared InAs/GaSb superlattice photodetectors with InSb-like and mixed interfaces”, IEEE J. Quantum Electron. 47, 1475 (2011).  

27. K. Cui, W.Q. Ma*, Y.H. Zhang, J.L. Huang,, Y. Wei, Y.L. Cao, Z. Jin, and L.F. Bian, “Forward bias voltage controlled infrared photodetection and electroluminescence from a p-i-n quantum dot structure”, Appl. Phys. Lett. 99, 023502 (2011).  

28. Y. Wei, W.Q. Ma*, J.L. Huang, Y.H. Zhang, Y.H. Huo, K. Cui, L.H. Chen, and Y. L. Shi, “Very long wavelength quantum dot infrared photodetector using a modified dots-in-a-well structure with AlGaAs insertion layers”, Appl. Phys. Lett. 98, 103507 (2011).  

29. J.L. Huang, W.Q. Ma*, Y. Wei, Y.H. Zhang, Y.H. Huo, K. Cui, and L.H. Chen, “Two-color In_0.4Ga_0.6As/Al_0.1Ga_0.9As quantum dot infrared photodetector with double tunnelling barriers”, Appl. Phys. Lett. 98, 103501 (2011).