Stay positive and aim to be happy
Updated: Nov. 9th, 2019
* corresponding author
(A) Peer-reviewed Articles:
2019
40. Li, Y.; Ding, T.; Luo, X.; Chen, Z.; Liu, X.; Lu, X.; Wu, K.*, Biexciton Auger recombination in mono-dispersed, quantum-confined CsPbBr3 perovskite nanocrystals obeys universal volume-scaling. Nano Research 2019, 12 (3), 619-623.
39. Li, Y.; Lai, R.; Luo, X.; Liu, X.; Ding, T.; Lu, X.; Wu, K.*, On the absence of a phonon bottleneck in strongly confined CsPbBr3 perovskite nanocrystals. Chemical Science 2019, 10 (23), 5983-5989.
38. Wang, P.; Mao, Y.; Li, L.; Shen, Z.; Luo, X.; Wu, K.; An, P.; Wang, H.; Su, L.; Li, Y.; Zhan, S.*, Unraveling the Interfacial Charge Migration Pathway at the Atomic Level in a Highly Efficient Z-Scheme Photocatalyst. Angewandte Chemie 2019, 131 (33), 11451-11456.
37. Han, Y.; Luo, X.; Lai, R.; Li, Y.; Liang, G.; Wu, K.*, Visible-Light-Driven Sensitization of Naphthalene Triplets Using Quantum-Confined CsPbBr3 Nanocrystals. The Journal of Physical Chemistry Letters 2019, 10 (7), 1457-1463.
36. He, S.; Luo, X.; Liu, X.; Li, Y.; Wu, K.*, Visible-to-Ultraviolet Upconversion Efficiency above 10% Sensitized by Quantum-Confined Perovskite Nanocrystals. The Journal of Physical Chemistry Letters 2019, 10 (17), 5036-5040.
35. Han, Y.; He, S.; Luo, X.; Li, Y.; Chen, Z.; Kang, W.; Wang, X.; Wu, K.*, Triplet Sensitization by “Self-Trapped” Excitons of Nontoxic CuInS2 Nanocrystals for Efficient Photon Upconversion. Journal of the American Chemical Society 2019, 141 (33), 13033-13037.
34. Luo, X.; Liang, G.; Wang, J.; Liu, X.; Wu, K.*, Picosecond multi-hole transfer and microsecond charge-separated states at the perovskite nanocrystal/tetracene interface. Chemical Science 2019, 10 (8), 2459-2464.
33. Luo, X.; Lai, R.; Li, Y.; Han, Y.; Liang, G.; Liu, X.; Ding, T.; Wang, J.; Wu, K.*, Triplet Energy Transfer from CsPbBr3 Nanocrystals Enabled by Quantum Confinement. Journal of the American Chemical Society 2019, 141 (10), 4186-4190.
32. Luo, X.; Ding, T.; Liu, X.; Liu, Y.; Wu, K.*, Quantum-Cutting Luminescent Solar Concentrators Using Ytterbium-Doped Perovskite Nanocrystals, Nano. Lett., 2019, 19, 338–341.
2018
31. Luo, X.; Liu, X.; Ding, T.; Chen, Z.; Wang, L.; Wu, K.*, Lighting Up AIEgen Emission in Solution by Grafting onto Colloidal Nanocrystal Surfaces, J. Phys. Chem. Lett., 2018, 9, 6334–6338.
30. Luo, X.*; Zhao, F.; Liang, Y.; Du, L.; Lv, W.; Xu, K.; Wang, Y.; Peng, Y.*, Facile Nanogold–Perovskite Enabling Ultrasensitive Flexible Broadband Photodetector with pW Scale Detection Limit, Advanced Optical Materials, 2018, 6, 1800996.
(Highlighted by Materials Views China, http://www.materialsviewschina.com/2018/10/30873/)
29. Luo, X.*; Du, L.; Liang, Y.; Zhao, F.; Lv, W.; Xu, K.; Wang, Y.; Peng, Y.*, Achieving Weak Light Response with Plasmonic Nanogold-Decorated Organic Phototransistors, ACS applied materials & interfaces, 2018, 10 (18), 15352–15356 .
28. Liang, Y.; Lv, W.; Luo, X.; He, L.; Xu, K.; Zhao, F.; Huang, F.; Lu, F.; Peng, Y.*, A comprehensive investigation of organic active layer structures toward high performance near-infrared phototransistors, Synthetic Metals, 2018, 240, 44-51.
27. Xu, S.; Xia, H.; Guo, F.; Yang, Y.; Peng, Y.*; Lv, W.; Luo, X.; Wang, Y.; Yang, Z.; Sun, L., Effects of source/drain electrode contact length on the photoresponsive properties of organic field-effect transistors, Optical Materials Express, 2018, 8, 901-908.
26. Zhao, F.; Xu, K.; Luo, X.; Liang, Y.; Peng, Y.*; Lu, F., Toward High Uniformity of Photoresponse Broadband Hybrid Organic–Inorganic Photodiode Based on PVP‐Modified Perovskite, Advanced Optical Materials, 2018, 6, 1700509.
2017
25. Luo, X.; Zhao, F.; Du, L.; Lv, W.; Xu, K.; Peng, Y.*; Wang, Y.; Lu, F.,Ultrasensitive flexible broadband photodetectors achieving pA scale dark current, NPJ Flexible Electronics, 2017, 1, 6.
24. Zhao, F.; Xu, K.; Luo, X.; Lv, W.; Peng, Y.*; Wang, Y.; Lu, F.; Xu, S., Ultrasensitivity broadband photodetectors based on perovskite: research on film crystallization and electrode optimization. Organic Electronics, 2017, 46, 35-43.
23. Peng, Y.*; Huang, F.; Zhang, J.; Luo, X.; Xu, K.; Lv, W.; Xu, S.; Wang, Y.; Tang, Y.; Wei, Y.; Xu, Z.; Yang, Y.; Lu, F., Broad spectral response photosensitive organic field-effect transistors realized by the hybrid planar-bulk heterojunction composed of three molecules with complementary optical absorption. Organic Electronics, 2017, 43, 27-32.
22. Ren, Q.; Xu, Q.; Xia, H.; Luo, X.; Zhao, F.; Sun, L.; Li, Y.; Lv, W.; Du, L.; Peng, Y.*; Zhao, Z., High Performance Photoresponsive Field-Effect Transistors Based On MoS2/Pentacene Heterojunction. Organic Electronics, 2017, 51, 142-148.
2016
21. Luo, X.; Lv, W.; Du, L.; Zhao, F.; Peng, Y.*; Wang, Y.; Tang, Y., Insight into trap state dynamics for exploiting current multiplication in organic photodetectors. Physica status solidi (RRL)-Rapid Research Letters, 2016, 10 (6), 485-492.
20. Luo, X.; Wen, Z.; Du, L.; Lv, W.; Zhao, F.; Tang, Y.; Chen, Z.; Peng, Y.*, Notably Improved Red Photoresponse of Organic Diode Employing Gold Nanoparticles Plasmonic Absorption. Journal of Nanoscience and Nanotechnology, 2016, 16 (6), 5707-5713. (Invited paper)
19. Du, L.; Luo, X.; Zhao, F.; Lv, W.; Zhang, J.; Peng, Y.*; Tang, Y.; Wang, Y., Toward facile broadband high photoresponse of fullerene based phototransistor from the ultraviolet to the near-infrared region. Carbon, 2016, 96, 685-694. (Co-first author)
18. Zhao, F.; Luo, X.; Liu, J.; Du, L.; Lv, W.; Sun, L.; Li, Y.; Wang, Y.; Peng, Y.*, Toward high performance broad spectral hybrid organic–inorganic photodetectors based on multiple component organic bulk heterojunctions. Journal of Materials Chemistry C, 2016, 4 (4), 815-822. (Co-first author)
17. Du, L.; Luo, X.; Lv, W.; Zhao, F.; Peng, Y.*; Tang, Y.; Wang, Y., High-performance organic broadband photomemory transistors exhibiting remarkable UV-NIR response. Physical Chemistry Chemical Physics, 2016, 18(18), 13108-13117. (*Co-first author)
16. Huang, J.; Ding, Y.*; Luo, X.; Feng, Y., Solvation effect promoted formation of p–n junction between WO3 and FeOOH: A high performance photoanode for water oxidation. Journal of Catalysis, 2016, 333, 200-206. (ESI Highly Cited Paper)
15. Zhang, J.; Li, Y.; Tang, Y.; Luo, X.; Sun, L.; Zhao, F.; Zhong, J.; Peng, Y.*, Airstable near-infrared sensitive organic field-effect transistors utilizing erbium phthalocyanine as photosensitive layer. Synthetic Metals, 2016, 218, 27-33.
14. Lv, W.; Zhong, J.; Peng, Y.*; Li, Y.; Luo, X.; Sun, L.; Zhao, F.; Zhang, J.; Xia, H.; Tang, Y., Organic near-infrared upconversion devices: Design principles and operation mechanisms. Organic Electronics, 2016, 31, 258-265.
13. Sun, L.; Li, Y.; Ren, Q.; Lv, W.; Zhang, J.; Luo, X.; Zhao, F.; Chen, Z.; Wen, Z.; Zhong, J.; Peng, Y.*; Liu, X., Toward ultrahigh red light responsive organic FETs utilizing neodymium phthalocyanine as light sensitive material. IEEE Transactions on Electron Devices, 2016, 63 (1), 452-458.
2015
12. Luo, X.; Du, L.; Yao, B.; Lv, W.; Sun, L.; Li, Y.; Wu, Z.; Wen, Z.; Peng, Y.*, Operational dynamics and architecture dependence of double-gate OFETs with balanced top and bottom channel characteristics. Journal of Materials Chemistry C, 2015, 3 (28), 7336-7344.
11. Luo, X.; Du, L.; Wen, Z.; Lv, W.; Zhao, F.; Jiang, X.; Peng, Y.*; Sun, L.; Li, Y.; Rao, J., Remarkably enhanced red–NIR broad spectral absorption via gold nanoparticles: applications for organic photosensitive diodes. Nanoscale, 2015,7 (34), 14422-14433.
10. Luo, X.; Li, Y.; Lv, W.; Zhao, F.; Sun, L.; Peng, Y.*; Wen, Z.; Zhong, J.; Zhang, J., Position-dependent performance of copper phthalocyanine based field-effect transistors by gold nanoparticles modification. Nanotechnology 2015, 26 (3), 035201.
9. Luo, X.; Du, L.; Lv, W.; Sun, L.; Peng, Y.*; Zhao, F.; Zhang, J.; Tang, Y.; Wang, Y., Charge-transport interfacial modification enhanced ultraviolet (UV)/near-UV phototransistor with high sensitivity and fast response speed. Synthetic Metals 2015, 210, 230-235.
8. Du, L.; Luo, X.; Wen, Z.; Zhang, J.; Sun, L.; Lv, W.; Li, Y.; Zhao, F.; Zhong, J.; Ren, Q.; Huang, F.; Xia, H.; Peng, Y.*, A striking performance improvement of fullerene n-channel field-effect transistors via synergistic interfacial modifications. Journal of Physics D: Applied Physics, 2015, 48 (40), 405105.
7. Li, Y.; Lv, W.; Luo, X.; Sun, L.; Zhao, F.; Zhang, J.; Zhong, J.; Huang, F.; Peng, Y.*, Enhanced performance of PbPc photosensitive organic field effect transistors by inserting different-thickness pentacene inducing layers. Organic Electronics, 2015, 26, 186-190.
6. Li, Y.; Lv, W.; Luo, X.; Sun, L.; Zhou, M.; Zhang, J.; Zhao, F.; Zhong, J.; Peng, Y.*, Enhanced performance of isotype planar heterojunction photoresponsive organic field-effect transistors by using Ag source-drain electrodes. EPL (Europhysics Letters), 2015, 110 (1), 17006.
5. Sun, L.; Zhang, J.; Zhao, F.; Luo, X.; Lv, W.; Ren, Q.; Wen, Z.; Peng, Y.*; Liu, X., Ultrahigh near infrared photoresponsive organic field-effect transistors with lead phthalocyanine/C60 heterojunction on poly (vinyl alcohol) gate dielectric. Nanotechnology, 2015, 26 (18), 185501.
4. Li, Y.; Zhang, J.; Lv, W.; Luo, X.; Sun, L.; Zhong, J.; Zhao, F.; Huang, F.; Peng, Y.*, Substrate temperature dependent performance of near infrared photoresponsive organic field effect transistors based on lead phthalocyanine. Synthetic Metals, 2015, 205, 190-194.
3. Lv, W.; Peng, Y.*; Zhong, J.; Luo, X.; Li, Y.; Zheng, T.; Tang, Y.; Du, L.; Peng, L., Near Infrared Sensitive Organic Photodiode Utilizing Exciplex Absorption in NdPc2/C60 Heterojunction. IEEE Photonics Technology Letters, 2015, 27 (19), 2043-2046.
2. Lv, W.; Tang, Y.; Yao, B.; Zhou, M.; Luo, X.; Li, Y.; Zhong, J.; Sun, L.; Peng, Y.*, Red light sensitive heterojunction organic field-effect transistors based on neodymium phthalocyanine as photosensitive layer. Thin Solid Films, 2015, 589, 692-696.
2014
1. Yao, B.; Li, Y.; Wen, Z.; Zhou, M.; Lv, W.; Luo, X.; Peng, Y.*; Li, W.; Gong, G.; Liu, X., Correlating optimal electrode buffer layer thickness with the surface roughness of the active layer in organic phototransistors. Synthetic Metals, 2014, 193, 35-40.
2019
40. Li, Y.; Ding, T.; Luo, X.; Chen, Z.; Liu, X.; Lu, X.; Wu, K.*, Biexciton Auger recombination in mono-dispersed, quantum-confined CsPbBr3 perovskite nanocrystals obeys universal volume-scaling. Nano Research 2019, 12 (3), 619-623.
39. Li, Y.; Lai, R.; Luo, X.; Liu, X.; Ding, T.; Lu, X.; Wu, K.*, On the absence of a phonon bottleneck in strongly confined CsPbBr3 perovskite nanocrystals. Chemical Science 2019, 10 (23), 5983-5989.
38. Wang, P.; Mao, Y.; Li, L.; Shen, Z.; Luo, X.; Wu, K.; An, P.; Wang, H.; Su, L.; Li, Y.; Zhan, S.*, Unraveling the Interfacial Charge Migration Pathway at the Atomic Level in a Highly Efficient Z-Scheme Photocatalyst. Angewandte Chemie 2019, 131 (33), 11451-11456.
37. Han, Y.; Luo, X.; Lai, R.; Li, Y.; Liang, G.; Wu, K.*, Visible-Light-Driven Sensitization of Naphthalene Triplets Using Quantum-Confined CsPbBr3 Nanocrystals. The Journal of Physical Chemistry Letters 2019, 10 (7), 1457-1463.
36. He, S.; Luo, X.; Liu, X.; Li, Y.; Wu, K.*, Visible-to-Ultraviolet Upconversion Efficiency above 10% Sensitized by Quantum-Confined Perovskite Nanocrystals. The Journal of Physical Chemistry Letters 2019, 10 (17), 5036-5040.
35. Han, Y.; He, S.; Luo, X.; Li, Y.; Chen, Z.; Kang, W.; Wang, X.; Wu, K.*, Triplet Sensitization by “Self-Trapped” Excitons of Nontoxic CuInS2 Nanocrystals for Efficient Photon Upconversion. Journal of the American Chemical Society 2019, 141 (33), 13033-13037.
34. Luo, X.; Liang, G.; Wang, J.; Liu, X.; Wu, K.*, Picosecond multi-hole transfer and microsecond charge-separated states at the perovskite nanocrystal/tetracene interface. Chemical Science 2019, 10 (8), 2459-2464.
33. Luo, X.; Lai, R.; Li, Y.; Han, Y.; Liang, G.; Liu, X.; Ding, T.; Wang, J.; Wu, K.*, Triplet Energy Transfer from CsPbBr3 Nanocrystals Enabled by Quantum Confinement. Journal of the American Chemical Society 2019, 141 (10), 4186-4190.
32. Luo, X.; Ding, T.; Liu, X.; Liu, Y.; Wu, K.*, Quantum-Cutting Luminescent Solar Concentrators Using Ytterbium-Doped Perovskite Nanocrystals, Nano. Lett., 2019, 19, 338–341.
2018
31. Luo, X.; Liu, X.; Ding, T.; Chen, Z.; Wang, L.; Wu, K.*, Lighting Up AIEgen Emission in Solution by Grafting onto Colloidal Nanocrystal Surfaces, J. Phys. Chem. Lett., 2018, 9, 6334–6338.
30. Luo, X.*; Zhao, F.; Liang, Y.; Du, L.; Lv, W.; Xu, K.; Wang, Y.; Peng, Y.*, Facile Nanogold–Perovskite Enabling Ultrasensitive Flexible Broadband Photodetector with pW Scale Detection Limit, Advanced Optical Materials, 2018, 6, 1800996.
(Highlighted by Materials Views China, http://www.materialsviewschina.com/2018/10/30873/)
29. Luo, X.*; Du, L.; Liang, Y.; Zhao, F.; Lv, W.; Xu, K.; Wang, Y.; Peng, Y.*, Achieving Weak Light Response with Plasmonic Nanogold-Decorated Organic Phototransistors, ACS applied materials & interfaces, 2018, 10 (18), 15352–15356 .
28. Liang, Y.; Lv, W.; Luo, X.; He, L.; Xu, K.; Zhao, F.; Huang, F.; Lu, F.; Peng, Y.*, A comprehensive investigation of organic active layer structures toward high performance near-infrared phototransistors, Synthetic Metals, 2018, 240, 44-51.
27. Xu, S.; Xia, H.; Guo, F.; Yang, Y.; Peng, Y.*; Lv, W.; Luo, X.; Wang, Y.; Yang, Z.; Sun, L., Effects of source/drain electrode contact length on the photoresponsive properties of organic field-effect transistors, Optical Materials Express, 2018, 8, 901-908.
26. Zhao, F.; Xu, K.; Luo, X.; Liang, Y.; Peng, Y.*; Lu, F., Toward High Uniformity of Photoresponse Broadband Hybrid Organic–Inorganic Photodiode Based on PVP‐Modified Perovskite, Advanced Optical Materials, 2018, 6, 1700509.
2017
25. Luo, X.; Zhao, F.; Du, L.; Lv, W.; Xu, K.; Peng, Y.*; Wang, Y.; Lu, F.,Ultrasensitive flexible broadband photodetectors achieving pA scale dark current, NPJ Flexible Electronics, 2017, 1, 6.
24. Zhao, F.; Xu, K.; Luo, X.; Lv, W.; Peng, Y.*; Wang, Y.; Lu, F.; Xu, S., Ultrasensitivity broadband photodetectors based on perovskite: research on film crystallization and electrode optimization. Organic Electronics, 2017, 46, 35-43.
23. Peng, Y.*; Huang, F.; Zhang, J.; Luo, X.; Xu, K.; Lv, W.; Xu, S.; Wang, Y.; Tang, Y.; Wei, Y.; Xu, Z.; Yang, Y.; Lu, F., Broad spectral response photosensitive organic field-effect transistors realized by the hybrid planar-bulk heterojunction composed of three molecules with complementary optical absorption. Organic Electronics, 2017, 43, 27-32.
22. Ren, Q.; Xu, Q.; Xia, H.; Luo, X.; Zhao, F.; Sun, L.; Li, Y.; Lv, W.; Du, L.; Peng, Y.*; Zhao, Z., High Performance Photoresponsive Field-Effect Transistors Based On MoS2/Pentacene Heterojunction. Organic Electronics, 2017, 51, 142-148.
2016
21. Luo, X.; Lv, W.; Du, L.; Zhao, F.; Peng, Y.*; Wang, Y.; Tang, Y., Insight into trap state dynamics for exploiting current multiplication in organic photodetectors. Physica status solidi (RRL)-Rapid Research Letters, 2016, 10 (6), 485-492.
20. Luo, X.; Wen, Z.; Du, L.; Lv, W.; Zhao, F.; Tang, Y.; Chen, Z.; Peng, Y.*, Notably Improved Red Photoresponse of Organic Diode Employing Gold Nanoparticles Plasmonic Absorption. Journal of Nanoscience and Nanotechnology, 2016, 16 (6), 5707-5713. (Invited paper)
19. Du, L.; Luo, X.; Zhao, F.; Lv, W.; Zhang, J.; Peng, Y.*; Tang, Y.; Wang, Y., Toward facile broadband high photoresponse of fullerene based phototransistor from the ultraviolet to the near-infrared region. Carbon, 2016, 96, 685-694. (Co-first author)
18. Zhao, F.; Luo, X.; Liu, J.; Du, L.; Lv, W.; Sun, L.; Li, Y.; Wang, Y.; Peng, Y.*, Toward high performance broad spectral hybrid organic–inorganic photodetectors based on multiple component organic bulk heterojunctions. Journal of Materials Chemistry C, 2016, 4 (4), 815-822. (Co-first author)
17. Du, L.; Luo, X.; Lv, W.; Zhao, F.; Peng, Y.*; Tang, Y.; Wang, Y., High-performance organic broadband photomemory transistors exhibiting remarkable UV-NIR response. Physical Chemistry Chemical Physics, 2016, 18(18), 13108-13117. (*Co-first author)
16. Huang, J.; Ding, Y.*; Luo, X.; Feng, Y., Solvation effect promoted formation of p–n junction between WO3 and FeOOH: A high performance photoanode for water oxidation. Journal of Catalysis, 2016, 333, 200-206. (ESI Highly Cited Paper)
15. Zhang, J.; Li, Y.; Tang, Y.; Luo, X.; Sun, L.; Zhao, F.; Zhong, J.; Peng, Y.*, Airstable near-infrared sensitive organic field-effect transistors utilizing erbium phthalocyanine as photosensitive layer. Synthetic Metals, 2016, 218, 27-33.
14. Lv, W.; Zhong, J.; Peng, Y.*; Li, Y.; Luo, X.; Sun, L.; Zhao, F.; Zhang, J.; Xia, H.; Tang, Y., Organic near-infrared upconversion devices: Design principles and operation mechanisms. Organic Electronics, 2016, 31, 258-265.
13. Sun, L.; Li, Y.; Ren, Q.; Lv, W.; Zhang, J.; Luo, X.; Zhao, F.; Chen, Z.; Wen, Z.; Zhong, J.; Peng, Y.*; Liu, X., Toward ultrahigh red light responsive organic FETs utilizing neodymium phthalocyanine as light sensitive material. IEEE Transactions on Electron Devices, 2016, 63 (1), 452-458.
2015
12. Luo, X.; Du, L.; Yao, B.; Lv, W.; Sun, L.; Li, Y.; Wu, Z.; Wen, Z.; Peng, Y.*, Operational dynamics and architecture dependence of double-gate OFETs with balanced top and bottom channel characteristics. Journal of Materials Chemistry C, 2015, 3 (28), 7336-7344.
11. Luo, X.; Du, L.; Wen, Z.; Lv, W.; Zhao, F.; Jiang, X.; Peng, Y.*; Sun, L.; Li, Y.; Rao, J., Remarkably enhanced red–NIR broad spectral absorption via gold nanoparticles: applications for organic photosensitive diodes. Nanoscale, 2015,7 (34), 14422-14433.
10. Luo, X.; Li, Y.; Lv, W.; Zhao, F.; Sun, L.; Peng, Y.*; Wen, Z.; Zhong, J.; Zhang, J., Position-dependent performance of copper phthalocyanine based field-effect transistors by gold nanoparticles modification. Nanotechnology 2015, 26 (3), 035201.
9. Luo, X.; Du, L.; Lv, W.; Sun, L.; Peng, Y.*; Zhao, F.; Zhang, J.; Tang, Y.; Wang, Y., Charge-transport interfacial modification enhanced ultraviolet (UV)/near-UV phototransistor with high sensitivity and fast response speed. Synthetic Metals 2015, 210, 230-235.
8. Du, L.; Luo, X.; Wen, Z.; Zhang, J.; Sun, L.; Lv, W.; Li, Y.; Zhao, F.; Zhong, J.; Ren, Q.; Huang, F.; Xia, H.; Peng, Y.*, A striking performance improvement of fullerene n-channel field-effect transistors via synergistic interfacial modifications. Journal of Physics D: Applied Physics, 2015, 48 (40), 405105.
7. Li, Y.; Lv, W.; Luo, X.; Sun, L.; Zhao, F.; Zhang, J.; Zhong, J.; Huang, F.; Peng, Y.*, Enhanced performance of PbPc photosensitive organic field effect transistors by inserting different-thickness pentacene inducing layers. Organic Electronics, 2015, 26, 186-190.
6. Li, Y.; Lv, W.; Luo, X.; Sun, L.; Zhou, M.; Zhang, J.; Zhao, F.; Zhong, J.; Peng, Y.*, Enhanced performance of isotype planar heterojunction photoresponsive organic field-effect transistors by using Ag source-drain electrodes. EPL (Europhysics Letters), 2015, 110 (1), 17006.
5. Sun, L.; Zhang, J.; Zhao, F.; Luo, X.; Lv, W.; Ren, Q.; Wen, Z.; Peng, Y.*; Liu, X., Ultrahigh near infrared photoresponsive organic field-effect transistors with lead phthalocyanine/C60 heterojunction on poly (vinyl alcohol) gate dielectric. Nanotechnology, 2015, 26 (18), 185501.
4. Li, Y.; Zhang, J.; Lv, W.; Luo, X.; Sun, L.; Zhong, J.; Zhao, F.; Huang, F.; Peng, Y.*, Substrate temperature dependent performance of near infrared photoresponsive organic field effect transistors based on lead phthalocyanine. Synthetic Metals, 2015, 205, 190-194.
3. Lv, W.; Peng, Y.*; Zhong, J.; Luo, X.; Li, Y.; Zheng, T.; Tang, Y.; Du, L.; Peng, L., Near Infrared Sensitive Organic Photodiode Utilizing Exciplex Absorption in NdPc2/C60 Heterojunction. IEEE Photonics Technology Letters, 2015, 27 (19), 2043-2046.
2. Lv, W.; Tang, Y.; Yao, B.; Zhou, M.; Luo, X.; Li, Y.; Zhong, J.; Sun, L.; Peng, Y.*, Red light sensitive heterojunction organic field-effect transistors based on neodymium phthalocyanine as photosensitive layer. Thin Solid Films, 2015, 589, 692-696.
2014
1. Yao, B.; Li, Y.; Wen, Z.; Zhou, M.; Lv, W.; Luo, X.; Peng, Y.*; Li, W.; Gong, G.; Liu, X., Correlating optimal electrode buffer layer thickness with the surface roughness of the active layer in organic phototransistors. Synthetic Metals, 2014, 193, 35-40.
(B) Conference Papers:
1. Luo, X.; Peng, Y.*; Lv, W.; Du, L.; Zhao, F.; Wang, Y., Gold nanoparticle surface plasmon-induced sub-bandgap broadband organic photodiodes, 2nd international conference on organic optoelectronics (ICOOE 2016), Ningbo Institute of Materials Technology & Engineering, Chinese Academy of Sciences, 11-13 November 2016, p.242. (http://icooe2016.csp.escience.cn/dct/page/1)
2. Peng, Y.*; Lv, W.; Luo, X.; Li, Y.; Sun, L.; Du, L.; Wang, Y.; Tang, Y.; Xu, S.; Wei, Y., High performance photo sensitive organic field-effect transistors: active layer structures and interfaces, The International Conference on Science and Technology of Synthetic Metals in 2016 (ICSM2016), South China University of Technology, June 26-July 1, 2016. (http://www.icsm2016.com/dct/page/1 )
3. Peng, Y.*; Li, Y.; Sun, L.; Lv, W.; Luo, X.; Wang, Y.; Tang, Y.; Wei, Y.; Xu, S., Realizing high performance photosensitive organic field-effect transistors, OLED2015, Nanjing Tech University, 12-14 October 2015, OP-04-10. (http://oled2015-njtech.wizmeeting.com/dct/page/1 )
4. Peng, Y.*; Lv, W.; Yao, B.; Li, Y.; Luo, X.; Sun, L.; Zhong, J.; Wang, Y., Improving performance of photosensitive organic field-effect transistors by device structure innovation, International Conference on Molecular Electronic Materials and Devices (MEMD2015), City University of Hong Kong, 5-8 January 2015, 3.1.1. (http://www.cityu.edu.hk/cosdaf/MEMD2015/index.html )
1. Luo, X.; Peng, Y.*; Lv, W.; Du, L.; Zhao, F.; Wang, Y., Gold nanoparticle surface plasmon-induced sub-bandgap broadband organic photodiodes, 2nd international conference on organic optoelectronics (ICOOE 2016), Ningbo Institute of Materials Technology & Engineering, Chinese Academy of Sciences, 11-13 November 2016, p.242. (http://icooe2016.csp.escience.cn/dct/page/1)
2. Peng, Y.*; Lv, W.; Luo, X.; Li, Y.; Sun, L.; Du, L.; Wang, Y.; Tang, Y.; Xu, S.; Wei, Y., High performance photo sensitive organic field-effect transistors: active layer structures and interfaces, The International Conference on Science and Technology of Synthetic Metals in 2016 (ICSM2016), South China University of Technology, June 26-July 1, 2016. (http://www.icsm2016.com/dct/page/1 )
3. Peng, Y.*; Li, Y.; Sun, L.; Lv, W.; Luo, X.; Wang, Y.; Tang, Y.; Wei, Y.; Xu, S., Realizing high performance photosensitive organic field-effect transistors, OLED2015, Nanjing Tech University, 12-14 October 2015, OP-04-10. (http://oled2015-njtech.wizmeeting.com/dct/page/1 )
4. Peng, Y.*; Lv, W.; Yao, B.; Li, Y.; Luo, X.; Sun, L.; Zhong, J.; Wang, Y., Improving performance of photosensitive organic field-effect transistors by device structure innovation, International Conference on Molecular Electronic Materials and Devices (MEMD2015), City University of Hong Kong, 5-8 January 2015, 3.1.1. (http://www.cityu.edu.hk/cosdaf/MEMD2015/index.html )
(C) Patents:
1. Peng Yingquan*, Lv Wenli, Luo Xiao, A type of hybridplanar-bulkheterojunction photosensitive organic field-effect transistor, 2014.02, Chinese utility, Patent No.: CN203434207U.
1. Peng Yingquan*, Lv Wenli, Luo Xiao, A type of hybridplanar-bulkheterojunction photosensitive organic field-effect transistor, 2014.02, Chinese utility, Patent No.: CN203434207U.
