個人簡介
趙沛,工學博士,2006和2008年在浙江大學物理系分別獲得理學學士與碩士學位, 2011年在日本東京大學獲得機械工程專業博士學位(導師丸山茂夫教授),隨後繼續在東京大學從事博士後研究。2013年10月進入
浙江大學套用力學研究所工作,研究方向為微納米力學及二維材料力學,現為石墨烯力學實驗室負責人。2015年12月晉升為副教授。迄今發表SCI 引用論文20餘篇,其中包括ACS Nano等多個著名期刊,h因子為10。主持或參與了多個基金項目,包括
國家自然科學基金、國家重大科研儀器項目子項目、浙江省
自然科學基金、日本學術振興會基金項目、歐盟合作基金等。2009年榮獲日本納米學會青年學者獎,2010年入選東京大學科研獎勵計畫,2011年獲得
日本東京大學優秀博士畢業生,2014年獲得浙江大學1311計畫求是青年學者。與不同國家多個課題組保持著良好的合作關係,曾獲邀在多個國際會議上做綜述或邀請報告。
教育背景
2008年10月—2011年09月:日本東京大學機械工程專業,工學博士
2006年09月—2008年07月:浙江大學物理系
凝聚態物理專業,理學碩士
2002年10月—2006年07月:浙江大學物理系,理學學士
工作經歷
2015年12月—至今 浙江大學航空航天學院,副教授
2013年10月—2015年12月:浙江大學航空航天學院,講師
2011年10月—2013年09月:日本東京大學
機械工程專業,博士後研究員
2011年05月—2011年06月:德國伍茲伯格大學物理化學專業,
訪問學者研究方向
微納米力學,實驗固體力學,二維材料力學,石墨烯力學
所獲榮譽
浙江大學求是青年學者,2014
東京大學優秀博士畢業生,2011
日本納米學會青年學者,2009
門薩協會國際會員
發表論文
1. Du S.; Lu, W.; Ali, A.; Zhao, P.; Shehzad, K.; Guo, H.; et al. A broadband fluorographene photodetector. Advanced Materials 2017, 29, 1700463.
2. Sun H.; Chen, D.; Wu, Y.; Yuan, Q.; Guo, L.; Dai, D.; Xu, Y.; Zhao, P.; Jiang, N.; Lin, C. High quality graphene films with a clean surface prepared by an UV/ozone assisted transfer process. Journal of Materials Chemistry C 2017, 5, 1880-1884.
3. Song, Y.; Zhuang, J.; Song, M.; Yin, S.; Zhang, X.; Wang, M.; Xiang, R.; Xia, Y.; Maruyama, S.; Zhao, P.; Ding, F.; Wang, H. Epitaxial nucleation of CVD bilayer graphene on copper. Nanoscale 2016, 8, 20001-20008. (featured as back cover)
4. Zhao, P.; Cheng, Y.; Zhao, D.; Yin, K.; Zhang, X.; Song, M.; Yin, S.; Song, Y.; Wang, P.; Wang, M.; Xia, Y.; Wang, H. The role of hydrogen in oxygen-assited chemical vapor deposition growth of millimeter-sized graphene single crystals. Nanoscale 2016, 8, 7646-7653.
5. Chen, X.; Xiang, R.; Zhao, P.; An, H.; Inoue, T.; Chiashi, S.; Maruyama, S. Chemical vapor deposition growth of large single-crystal bernal-stacked bilayer graphene from ethanol. Carbon 2016, 107, 852-856.
6. Song, M.; Xu, P.; Han, L.; Yi, L.; Wang, X.; Li, Z.; Shang, X.; Wang, X.; Wu, H.; Zhao, P.; Song, Y.; Wang, M. Enhanced field emisstion performance from carbon nanotube emitters on nickel foam cathodes. Journal of Electronic Materials 2016, 45, 2299.
7. Cheng, Y.; Song, Y.; Zhao, D.; Zhang, X.; Wang, P.; Wang, M.; Xia, Y. Maruyama, S.; Zhao, P.; Wang, H. Direct identification of multilayer graphene stacks on copper by optical spectroscopy. Chemistry of Materials 2016, 28, 2165-2171.
8. Song, Y.; Pan, D.; Cheng, Y.; Wang, P.; Zhao, P.; Wang, H. Growth of large graphene single crystal inside a restricted chamber by chemical vapor deposition. Carbon 2015, 95, 1027-1032.
9. Song, M.; Xu, P.; Song, Y.; Wang, X.; Li, Z.; Shang, X.; Wu, H.; Zhao, P.; Wang, M. Water-Processed Carbon Nanotube/Graphene Hybrids with Enhanced Field Emission Properties,AIP Advances 2015, 5, 097130.
10. Zhao, P.; Kim, S.; Chen, X.; Einarsson, E.; Wang, M.; Song, Y.; Wang, H.; Chiashi, S.; Xiang, R.; Maruyama, S. Equilibrium Chemical Vapor Deposition Growth of Bernal-Stacked Bilayer Graphene, ACS Nano 2014, 8, 11631-11638.
11. Zhao, P.; Kumamoto, A.; Kim, S.; Chen, X.; Hou, B.;Chiashi, S.; Einarsson, E.; Ikuhara, Y.; Maruyama, S. Self-Limiting Chemical Vapor Deposition Growth of Monolayer Graphene from Ethanol. Journal of Physical Chemistry C 2013, 117, 10755-10763.
12. Zhao, P.; Hou, B.; Chen, X.; Kim, S.; Chiashi, S.; Einarsson, E.; Maruyama, S. Investigation of non-segregation graphene growth on Ni via isotope-labeled alcohol catalytic chemical vapor deposition. Nanoscale 2013, 5, 6530-6537.
13. Zhao, P.; Einarsson, E.; Xiang, R.; Murakami, Y.; Chiashi, S.; Shiomi, J.; Maruyama, S. Isotope-induced elastic scattering of optical phonons in individual suspended single-walled carbon nanotubes. Applied Physics Letters 2011, 99, 093104.
14. Zhao, P.; Einarsson, E.; Lagoudas, G.; Shiomi, J.; Chiashi, S.; Maruyama, S. Tunable separation of single-walled carbon nanotubes by dual-surfactant density gradient ultracentrifugation. Nano Research 2011, 4, 623-634.
15. Zhao, P.; Einarsson, E.; Xiang, R.; Murakami, Y.; Maruyama, S. Controllable Expansion of Single-Walled Carbon Nanotube Dispersions Using Density Gradient Ultracentrifugation. Journal of Physical Chemistry C 2010, 114, 4831-4834.
16. Zhao, P.; Li, Z.; Shang, X.; Wang, H.; Zhou, J.; Wang, M. Synthesis by Arc-discharge Method and Electrochemical Lithium Insertion Properties of Double-Walled Carbon Nanotubes. Russian Journal of Electrochemistry 2008, 44, 1240-1243.
17. Zhao, P.; Shang, X.; Ma, Y.; Zhou, J.; Gu, Z.; Li, Z.; Xu, Y.; Wang, M. High-current-density field emission display fabricated from single-walled carbon nanotubeelectron sources. European Physical Journal-Applied Physics 2008, 42, 251-254.
18. Chen, X.; Zhao, P.; Xiang, R.; Kim, S.; Cha, J.; Chiashi, S.; Maruyama, S. Chemical vapor deposition growth of 5 mm hexagonal single-crystal graphene from ethanol. Carbon 2015, 94, 810-815.
19. Kim, S.; Zhao, P.; Aikawa, S.; Einarsson, E.; Chiashi, S.; Maruyama, S. Highly Stable and Tunable n-Type Graphene Field-Effect Transistors with Poly(vinyl alcohol) Films, ACS Applied Materials & Interfaces 2015, 7, 9702-9708.
20. Cui, K.; Chiba, T.; Omiya, S.; Thurakitseree, T.; Zhao, P.; Fujii, S.; Kataura, H.; Einarsson, E.; Chiashi, S.; Maruyama, S. Self-Assembled Microhoneycomb Network of Single-Walled Carbon Nanotubes for Solar Cells. Journal of Physical Chemistry Letters 2013, 4, 2571-2576.
21. Xiang, R.; Hou, B.; Einarsson, E.; Zhao, P.; Harish, S.; Morimoto, K.; Miyauchi, Y.; Chiashi, S.; Tang, Z.; Maruyama, S. Carbon Atoms in Ethanol Do Not Contribute Equally to Formation of Single-Walled Carbon Nanotubes. ACS Nano 2013, 7, 3095-3103.
22. Zhang, G.; Song, M.; Li, Z.; Zhao, P.; Gu, Z.; Wang, H.; Xu, Y.; Wang, M. A novel heat dissipation material for high-brightness light-emitting-diode devices. Materials Chemistry and Physics 2013, 139, 741-746.
23. Thurakitseree, T.; Kramberger, C.; Zhao, P.; Chiashi, S.; Einarsson, E.; Maruyama, S. Reduction of single-walled carbon nanotube diameter to sub-nm via feedstock. Physica Status Solidi B-Basic Solid State Physics 2012, 249, 2404-2407.
24. Watahiki, R.; Shimada, T.; Zhao, P.; Chiashi, S.; Iwamoto, S.; Arakawa, Y.; Maruyama, S.; Kato, Y. K. Enhancement of carbon nanotube photoluminescence by photonic crystal nanocavities. Applied Physics Letters 2012, 101, 141124.
25. Harish, S.; Ishikawa, K.; Einarsson, E.; Aikawa, S.; Inoue, T.; Zhao, P.; Watanabe, M.; Chiashi, S.; Shiomi, J.; Maruyama, S. Temperature Dependent Thermal Conductivity Increase of Aqueous Nanofluid with Single Walled Carbon Nanotube Inclusion. Materials Express 2012, 2, 213-223.
26. Thurakitseree, T; Kramberger, C; Zhao, P; Aikawa, S; Harish, S; Chiashi, S; Einarsson, E; Maruyama, S. Diameter-controlled and nitrogen-doped vertically aligned single-walled carbon nanotubes. Carbon 2012, 50, 2635-2640.
27. Thurakitseree, T.; Einarsson, E.; Xiang, R.; Zhao, P.; Aikawa, S.; Chiashi, S.; Shiomi, J.; Maruyama, S. Diameter Controlled Chemical Vapor Deposition Synthesis of Single-Walled Carbon Nanotubes. Journal of Nanoscience and Nanotechnology 2012, 12, 370-376.
28. Shang, X.; Zhou, J.; Zhao, P.; Li, Z.; Qu, S.; Gu, Z.; Xu, Y.; Wang, M. The enhanced field-emission properties of screen-printed single-wall carbon-nanotube film by electrostatic field. Applied Surface Science 2010, 256, 2005-2008.
29. Li, Z.; Jiang, Y.; Zhao, P.; Shang, X.; Yang, H.; Wang, M. Synthesis of Single-Walled Carbon Nanotube Films with Large Area and High Purity by Arc-Discharge. Acta Physico-Chimica Sinica 2009, 25, 2395-2398.
30. Shang, X.; Wang, M.; Qu, S.; Zhao, P.; Zhou, J.; Xu, Y.; Tan, M.; Li, Z. A model calculation of the tip field distribution for a carbon nanotube array and the optimum intertube distance. Nanotechnology 2008, 19, 065708.