武汉大学物理科学与技术学院导师教师师资介绍简介-任峰

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个人简介 Personal profile
任峰
教授理学博士博士生导师
地址：武汉大学物理科学与技术学院

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主要学习及工作经历

2001.9年至2006.6 武汉大学物理科学与技术学院硕博连读。
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2006.9至2008.7 武汉大学物理科学与技术学院任教。
2008.7至2010.1 美国Lawrence Berkeley国家实验室环境能源科学部博士后。期间2008年11月晋升为副教授。
2010.2至2010.7 美国Los Alamos国家实验室材料科学与技术部离子束材料实验室客座研究员。
2010.8至2014.11 武汉大学物理学院副教授，博士生导师
2014.11至今武汉大学物理学院教授，博士生导师

社会兼职Personal profile
2019-09-01-至今
中国核学会核物理学会理事
2015-11-01-至今
任湖北省核学会副秘书长/理事

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同专业博导
凝聚态物理
方鹏飞

张文献

陈志权

肖孟

管志强

袁超

粒子物理与原子核物理
郭立平

付德君

陈志权

材料物理与化学
金先波

蔡杰

史建平

龚少龙

闵杰

方鹏飞

陈志权

郭立平

访问量：最后更新时间：--

获奖信息

同专业硕导
凝聚态物理
方鹏飞

张文献

陈志权

肖孟

管志强

袁超

粒子物理与原子核物理
郭立平

付德君

陈志权

材料物理与化学
金先波

蔡杰

史建平

龚少龙

闵杰

方鹏飞

陈志权

郭立平

访问量：最后更新时间：--

获奖信息

个人简介 Personal profile
任峰
教授理学博士博士生导师
地址：武汉大学物理科学与技术学院

-----------------------------
主要学习及工作经历

获奖信息

研究领域
清洁能源的开发是当前人类社会可持续发展的重大任务。
离子束技术是一项重要的材料制备和改性技术，已得到广泛的应用，如半导体离子注入掺杂芯片制备、人工关节Ti合金表面处理、辐照育种、空间用器件辐射加固等等。

本课题组的研究重点是离子束技术在能源材料应用研究，包括:
（1）用于催化分解水制氢的半导体、金属光/光电/电催化电极的离子束改性
氢气是一种高效清洁的能源，通过催化产氢的方法可以将各种不稳定的清洁能源转变成H₂而稳定储存。开发高效、廉价、稳定的催化产氢材料成为了当下研究的热点。离子注入是一种重要的材料改性技术，可以提高材料的比表面积、提高整体电导率、调节能带结构以及改变材料的表面电子态结构，从而实现催化产氢效率的提升。

（2）新型先进核反应堆用纳米结构抗辐照核材料的制备和离子束性能评价
核能作为一种清洁低碳高效的能源，是解决全球能源危机和环境污染最有效的方法之一。然而，在先进核反应堆中，材料会遭受高离位损伤和大量的氢、氦等嬗变产物，大量气泡和缺陷的形成会导致材料性能严重的退化。提高核反应堆的使用寿命对核电站的安全性和经济性至关重要，而长寿命反应堆的发展取决于材料的性能。为下一代先进核能系统开发同时具有优异的热学、力学性能和高抗辐照损伤能力的先进核材料，是当前面临的一项重大挑战和紧迫任务。
近年来，课题组通过在材料中引入大量的缺陷陷阱（sinks），如晶界、相界、自由表面和界面，开发了多种抗辐照核材料并进行了相关性能和机理研究。

论文
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2021
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73.Huizhou Zhong#, Guoping Gao#, Xuening Wang, Hengyi Wu, Shaohua Shen, Wenbin Zuo, Guangxu Cai, Guo Wei, Ying Shi, Dejun Fu, Changzhong Jiang, Lin-Wang Wang, Feng Ren*, Ion Irradiation Inducing Oxygen Vacancy-rich NiO/NiFe₂O₄ Heterostructure for Enhanced Electrocatalytic Water Splitting, Small, accepted (IF 11.46)
72. Jun Tang, Tao Cheng, Yongqiang Wang, Lulu Hu, Mengqing Hong, Wenjing Qin, Guangxu Cai, Changzhong Jiang, Feng Ren*. Constructing high-performance radiation-resistant ternary ZrO₂-MgO-CNT nanocomposites via tailored nanostructures, Journal of the European Ceramic Society, 41 (2021) 5280-5291.(二区top)
71.Shuqin Zhao, Hengyi Wu, Ran Yin, Xuening Wang, Huizhou Zhong, Qiang Fu, Wenjin Wan, Tao Cheng, Ying Shi, Guangxu Cai, Changzhong Jiang, Feng Ren*, Preparation and electrocatalytic properties of (FeCrCoNiAl_0.1)Ox high-entropy oxide and NiCo-(FeCrCoNiAl_0.1)O_x heterojunction films, Journal of Alloys and Compounds, 868 (2021) 159108. (二区top)
70.Ran Yin, Lulu Hu, Jun Tang, Tao Cheng, Dongxun Zhang*, Guikai Zhang, Zhiquan Chen, Mengqing Hong, Guangxu Cai, Yin Shi, Changzhong Jiang, Feng Ren*, In-situ Oxidation of Aluminized Stainless-steel to Form Alumina as Tritium Permeation Barrier Coating, Fusion Engineering and Design, 163 (2021) 112154.
69.XudongZheng,LiangWu,FengRen*,OxygenvacancyenhancedroomtemperatureferromagnetisminAr⁺ionirradiatedWO₃films,CeramicsInternational,47 (2021) 5091-5098.（二区top）
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2020
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68. Xuening Wang, Wenjing Wan, Shaohua Shen, Hengyi Wu, Huizhou Zhong, Changzhong Jiang,Feng Ren*, Application of Ion beam Technology in (Photo)electrocatalytic Materials for Renewable Energy,Applied Physics Reviews 7(2020) 041303 (IF 17.05)(SCI 一区)

67.Jun Tang#,Guo Wei#, Xuecheng Cai, Shuanglin Hu, Tongde Shen, Tao Cheng, Ran Yin, Jian Zhang, Xuefeng Ruan, Bing Yang, Yongqiang Wang, Guangxu Cai, Changzhong Jiang,Feng Ren*, Smart 3D network nanocomposites collect irradiation-induced “trash”,Matter (Cell Press), 3 (2020) 1631-1645. DOI:https://doi.org/10.1016/j.matt.2020.08.010

66. Lulu Hu, Guo Wei, Ran Yin, Mengqing Hong, Tao Cheng, Dongxun Zhang*, Shuqin Zhao, Bing Yang, Guikai Zhang, Guangxu Cai, Ying Shi, Changzhong Jiang,Feng Ren*, Significant Hydrogen Isotopes Permeation Resistance Via Nitride Nano-multilayer Coating,International Journal of Hydrogen Energy,45 (2020) 19583-19589.(SCI 二区)
65. Liang Wu, Hengyi Wu, Xuening Wang, Huizhou Zhong, Zhaowu Wang,* Guangxu Cai, Changzhong Jiang,Feng Ren*, A General Method for Large-Scale Fabrication of Metal Nanoparticles Embedded N-doped Carbon Fiber Cloth with Highly Efficient Hydrogen Production in All pH Range, Electrochimica Acta,353 (2020)136475.(SCI 二区)
64. Yunxia Wang,Feng Ren*, Tao Ding*, Generation of High Quality, Uniform and Stable Plasmonic Colorants via Laser Direct Writing,Advanced Optical Materials2020 (2020), **.(SCI 一区)
63. N. Qi, H. X. Zhang, Z. Q. Chen,F. Ren*, B. Zhao, M. Jiang*, A. Uedono, Selective trapping of positrons by Ag nanolayers in a V/Ag multilayer system,AIP Advances, 10 (2020) 035012.
62. Hengyi Wu, Liang Wu, Shaohua Shen, Yichao Liu, Guangxu Cai, Xuening Wang, Yunhang Qiu, Huizhou Zhong, Zhuo Xing, Zhongqin Dai, Changzhong Jiang,Feng Ren*, Enhanced photoelectrochemical performance of an α-Fe2O3nanorods photoanode with embedded nanocavities formed by helium ions implantation,International Journal of Hydrogen Energy, 45 (2020) 9408-9415. (SCI 二区)

61. Lan Dong, Guo Wei, Tao Cheng, Jun Tang, Xiaobin Ye, Mengqing Hong, Lulu Hu, Ran Yin, Shuqin Zhao, Guangxu Cai, Yin Shi, Bicai Pan, Changzhong Jiang,Feng Ren*, Thermal conductivity, electrical resistivity and microstructure of Cu/W multilayered nanofilms,ACS Applied Materials & Interfaces, 12 (2020) 8886-8896.(SCI 一区)
60.Guo Wei, Jingwen Li, Yonggang Li, Huiqiu Deng, Changzhong Jiang, Feng Ren*, A better nanochannel tungsten film in releasing helium atoms,Journal of Nuclear Materials，532 (2020)152044.(SCI 一区)
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2019
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59. Wenjing Qin, Shuoxue Jin, Xingzhong Cao, Yongqiang Wang*, Paula Peres, Seo-Youn Choi, Changzhong Jiang,Feng Ren*, Influence of nanochannel structure on helium-vacancy cluster evolution and helium retention,Journal of Nuclear Materials527 (2019) 151822.(SCI 一区)
58. Wenjing Qin#, Mengqing Hong#, Yongqiang Wang, Jun Tang, Guangxu Cai, Ran Yin, Xuefeng Ruan, Bing Yang, Changzhong Jiang,Feng Ren*, Different Radiation Tolerances of Ultrafine-Grained Zirconia–Magnesia Composite Ceramics with Dierent Grain Sizes,Materials12 (2019) 2649.
57.Guo Wei,Feng Ren*, Jingzhong Fang, Wangyu Hu, Fei Gao, Wenjing Qin, Tao Cheng, Yongqiang Wang, Changzhong Jiang, Huiqiu Deng*, Understanding of helium atoms releasing from nanochannel tungsten: A molecular dynamics simulation,Nuclear Fusion59 (2019) 076020.(SCI 二区)
56. Xuening Wang, Liang Wu, Zhaowu Wang_*, Hengyi Wu, Xuemei Zhou, Hongyu Ma, Huizhou Zhong, Zhuo Xing, Guangxu Cai, Changzhong Jiang,Feng Ren*, C/N vacancy co-enhanced visible-light-driven hydrogen evolution of g-C3N4nanosheets through controlled He⁺ion irradiation, Solar RRL 2019 (2019) **.(Back Cover)(SCI 一区)

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2018
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55. Zhuo Xing, Hengyi Wu, Liang Wu, Xuening Wang, Huizhou Zhong, Feng Li, Jinchao Shi, Dengyuan Song, Wei Xiao, Changzhong Jiang,Feng Ren*, Multifunctional Vanadium-doped Cobalt Oxide Layer on Silicon Photoanodes for Efficient and Stable Photoelectrochemical Water Oxidation,Journal of Materials Chemistry A6 (2018) 21167. (SCI 一区 )

54. Wenjing Qin,Feng Ren*, Russell P. Doerner, Guo Wei, Yawei Lv, Sheng Chang, Ming Tang, Huiqiu Deng, Changzhong Jiang, Yongqiang Wang*, Nanochannel structures in W enhance radiation tolerance,Acta Materialia153 (2018) 147-155. (SCI 一区)
53. Guo Wei,Feng Ren*, Wenjing Qin, Wangyu Hu, Huiqiu Deng*, Changzhong Jiang, Evolution of helium bubbles below different tungsten surfaces under neutron irradiation and non-irradiation conditions,Computational Materials Science, 148 (2018) 242-248.
52. Hengyi Wu, Zhaowu Wang, Shuoxue Jin, Xingzhong Cao,Feng Ren*, Liang Wu, Zhuo Xing, Xuening Wang, Guangxu Cai, Changzhong Jiang, Enhanced Photoelectrochemical Performance of TiO₂ through Controlled Ar+ Ion Irradiation: A Combined Experimental and Theoretical Study,International Journal of Hydrogen Energy43 (2018) 6936-6944.(SCI 二区 )
51. Xudong Zheng,Feng Ren*, Hengyi Wu, Wenjing Qin, Changzhong Jiang, Formation of tungsten oxide nanowires by ion irradiation and vacuum annealing,Nanotechnology29 (2018) 155301.(SCI 二区 )
50. Wenjing Qin, Yongqiang Wang, Ming Tang, Feng Ren*, Qiang Fu, Guangxu Cai, Lan Dong, Lulu Hu, Guo Wei, Changzhong Jiang, Microstructure and hardness evolution of nanochannel W films irradiated by helium at high temperature, Journal of Nuclear Materials 502 (2018) 132-140.
49. Hui Wang,Feng Ren*, Jun Tang, Wenjing Qin, Lulu Hu, Lan Dong, Bin Yang, Guangxu Cai, Changzhong Jiang, Enhanced Radiation Tolerance of YSZ/Al₂O₃ Multilayered Nanofilms with Pre-Existing Nanovoids,Acta Materialia144 (2018) 691-699.(SCI 一区)
48. Yichao Liu,Feng Ren*, Shaohua Shen, Jianan Chen, Yanming Fu, Guangxu Cai, Xuening Wang, Zhuo Xing, Liang Wu, Xudong Zheng , Changzhong Jiang, Vancancy-doped homojunction structural TiO2 nanorod photoelectrodes with greatly enhanced photoelectrochemical activity,International Journal of Hydrogen Energy43 (2018) 2057-2063.(SCI 二区 )
47. Wenjing Qin, Feng Ren*, Jian Zhang, Xiaonan Dong, Yongjin Feng, Hui Wang, Jun Tang, Guangxu Cai, Yongqiang Wang, Changzhong Jiang, Helium retention in krypton ion pre-irradiated nanochannel W film,Nuclear Fusion58 (2018) 026021. (SCI 二区 TOP)
46. Liang Wu, Feng Ren*, Guangxu Cai, Zhuo Xing, Hengyi Wu, Xudong Zheng, Xuening Wang, Changzhong Jiang, Fabrication of Nanoporous Si Electrocathode by High-Energy Argon Ion Irradiation for Improved Electrocatalytic Hydrogen Production,International Journal of Hydrogen Energy43 (2018) 64-71.(SCI 二区 )
45. Jun Tang, Mengqing Hong, Wenjing Qin, Feng Ren*, Lan Dong, Hui Wang, Lulu Hu, Guangxu Cai, Changzhong Jiang, Microstructural evolution of nanochannel CrN films under ion irradiation at elevated temperature and post-irradiation annealing,Journal of Nuclear Materials500 (2018) 242-251.(SCI 一区 )

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2017
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44. 王雪凝, 任峰*, 吴恒毅, 刘艺超, 吴亮, 蒋昌忠*, 离子注入技术在光解水电极材料改性中的应用, 科学通报, 62 (2017) 2893-2904.
43. Lan Dong, Hongxiu Zhang, Hiroshi Amekura,Feng Ren*, Abdelhak Chettah, Mengqing Hong, Wenjing Qin, Jun Tang, Lulu Hu, Hui Wang, Changzhong Jiang, Period-thickness dependent responses of Cu/W multilayered nanofilms to ions irradiation under different ion energies,Journal of Nuclear Materials497 (2017) 117-127.
42. Xudong Zheng,Feng Ren*, Shunping Zhang, Xiaolei Zhang, Hengyi Wu, Xingang Zhang, Zhuo Xing, Wenjing Qin, Yong Liu, Changzhong Jiang*, A General Method for Large-Scale Fabrication of Semiconducting Oxides with High SERS Sensitivity,ACS Appl. Mater. & Interfaces 9 (2017) 14534–14544.(SCI 一区 )
41. Zhuo Xing,Feng Ren*, Hengyi Wu, Liang Wu, Xuening Wang, Jingli Wang, Da Wan, Guozhen Zhang, Changzhong Jiang, Enhanced PEC performance of nanoporous Si photoelectrodes by covering HfO2 and TiO2 passivation layers,Scientific Reports7 (2017) 43901.
40. Hengyi Wu,Feng Ren*, Zhuo Xing, Xudong Zheng, Liang Wu, Changzhong Jiang, Cathodic shift of onset potential for water oxidation of WO3 photoanode by Zr⁺ions implantation,Journal of Applied Physics121 (2017) 085305.

39. Yichao Liu, Shaohua Shen,Fen Ren*, Jianan Chen, Yanming Fu, Xudong Zheng, Guangxu Cai, Zhuo Xing, Hengyi Wu, Changzhong Jiang*, Fabrication of porous TiO₂nanorod arrays photoelectrodes with enhanced hydrogen production by Helium ions implantation,Nanoscale8 (2016) 10642.(SCI 一区 )
38. Hongxiu Zhang,Feng Ren*, Yongqiang Wang, Mengqing Hong, Xiangheng Xiao, Wenjing Qin, Changzhong Jiang, In situ TEM observation of helium bubble evolution in V/Ag multilayer during annealing,Journal Nuclear Materials467 (2015) 537-543.
37. Ying Liu,Feng Ren*, Shaohua Shen, Yanming Fu, Chao Chen, Chang Liu, Zhuo Xing, Dan Liu, Xiangheng Xiao, Wei Wu, Xudong Zheng, Yichao Liu, and Changzhong Jiang, Efficient enhancement of hydrogen production by Ag/Cu₂O/ZnO tandem triple-junction photoelectrochemical cell,Applied Physics Letters106 (2015) 123901.(SCI 二区 )
36. Xudong Zheng, Shaohua Shen, Feng Ren*, Guangxu Cai, Zhuo Xing, Yichao Liu, Dan liu, Guozhen Zhang, Xiangheng Xiao, Wei Wu, Changzhong Jiang, Irradiation-Induced TiO₂ Nanorods for Photoelectrochemical Hydrogen Production,International Journal of Hydrogen Energy, 40 (2015 ) 5034-5041.(SCI 二区 )
35. Mengqing Hong, Feng Ren*, Yongqiang Wang, Hongxiu Zhang, Xiangheng Xiao, Dejun Fu, Bing Yang, Changzhong Jiang, Size-dependent radiation tolerance and corrosion resistance in ion irradiated CrN/AlTiN nano?lms,Nuclear Instruments and Methods in Physics Research B342 (2015) 137–143.
34. Qingyong Tian, Wei Wu*, Lingling Sun, Shuanglei Yang, Mei Lei, Juan Zhou, Ying Liu, Xiangheng Xiao, Feng Ren*, Changzhong Jiang, Vellaisamy A. L. Roy*, Tube-Like Ternaryalpha-Fe₂O₃@SO₂@Cu₂OSandwich Heterostructures: Synthesis and Enhanced Photocatalytic Properties,ACS Appl. Mater. & Interfaces6 (2014) 13088?13097.(SCI 一区 )
33. Zhuo Xing, Shaohua Shen, Meng Wang, Feng Ren*, Ying Liu, Xudong Zheng, Yichao Liu, Xiangheng Xiao, Wei Wu, Changzhong Jiang, Efficient enhancement of solar-water-splitting by modified “Z-scheme” structural WO3-W-Si photoelectrodes,Applied Physics Letters105 (2014) 143902.(SCI 二区 )
32. Hongxiu Zhang,Feng Ren*, Yongqiang Wang, Mengqing Hong, Xiangheng Xiao, Dan Liu, Wenjing Qin, Xudong Zheng, Yichao Liu, and Changzhong Jiang, Enhanced radiation tolerance of nanochannel V films through defects release,Nuclear Instruments and Methods in Physics Research Section B334 (2014) 1–7.
31. Mengqing Hong, Yongqiang Wang, Feng Ren*, Hongxiu Zhang, Dejun Fu, Bing Yang, Xiangheng Xiao and Changzhong Jiang, Helium release and amorphization resistance in ion irradiated nanochannel films,Europhysics Letters106 (2014) 12001.
30. D. Liu,F. Ren*, G. X. Cai, Y. C. Liu, M. Q. Hong, J. J. Yin, Y. Liu, J. Zou, W.Wu, X. H. Xiao, C. Z. Jiang, Fabrication of TiO₂-based composite films by sequential ion implantation and subsequent annealing,Materials Research Express1 (2014) 025703.
29. X. D. Zheng,F. Ren*, G. X. Cai, M. Q. Hong, X. H. Xiao, W. Wu, Y. C. Liu, W. Q. Li, J. J. Ying, C. Z. Jiang, Formation of TiO₂Nanorods by Ion Irradiation, Journal of Applied Physics, 115 (2014) 184306.
28. Yichao Liu,Feng Ren*, Guangxu Cai, Xiaodong Zhou, Mengqing Hong, Wenqing Li, Xiangheng Xiao, Wei Wu, Changzhong Jiang, Energy dependence on formation of TiO₂ nanofilms by Ti ion implantation and annealing,Materials Research Bulletin51 (2014) 376–380.
27. Shaofeng Zhang,Feng Ren*, Wei Wu, Juan Zhou, Lingling Sun, Changzhong Jiang*, Size Effects of Ag Nanaoparticles on Plasmon-induced Enhancement of Photocatalysis of Ag-α-Fe₂O₃Nanocomposites,Journal of Colloid and Interface Science427 (2014) 29-34. (SCI 二区 )
26. Juan Zhou,Feng Ren*, Shaofeng Zhang, Wei Wu, Xiangheng Xiao, Ying Liu, Changzhong Jiang*, SiO₂-Ag-SiO₂-TiO₂ multi-shell structures: plasmon enhanced photocatalysts with wide-spectral-response,Journal of Materials Chemistry A1 (2013) 13128-13138.(SCI 一区 )
38. Guangxu Cai,Feng Ren*, Yichao Liu, Wei Wu, Dejun Fu, Xiangheng Xiao, and Changzhong Jiang*, A Novel Way to Fabricate Superhydrophilic and Antibacterial TiO2 Nanofilms on Glass by Ion Implantation and Subsequent Annealing,Jpn. J. Appl. Phys.52 (2013) 100207.
25.Feng Ren, Xiao-Dong Zhou, Yi-Chao Liu, Yong-Qiang Wang, Guang-Xu Cai, Xiang-Heng Xiao, Zhi-Gao Dai, Wen-Qing Li, Shao-Jian Yan,Wei Wu, Chao Zhang, Hong-Wei Ni, and Chang-Zhong Jiang, Fabrication and properties of TiO₂nanofilms on different substrates by a novel and universal method of Ti-ion implantation and subsequent annealing, Nanotechnology 24 (2013) 255603.(SCI 二区 )
24. Shaofeng Zhang,Feng Ren,* Wei Wu, Juan Zhou, Xiangheng Xiao, Lingling Sun, Ying Liu, Changzhong Jiang*, Controllable synthesis of recyclable core–shellγ-Fe₂O₃@SnO₂hollow nanoparticles with enhanced photocatalytic and gas sensing properties,Physical Chemistry Chemical Physics15 (2013) 8228-8236.(SCI 二区 )
23. Mengqing Hong, Feng Ren*, Hongxiu Zhang, Xiangheng Xiao, Bing Yang, Canxin Tian, Dejun Fu, Yongqiang Wang, and Changzhong Jiang*,Enhanced radiation tolerance in nitride multilayered nanofilms with small period-thicknesses,Applied Physics Letters101 (2012) 153117.
22. Juan Zhou,Feng Ren*, Wei Wu, Shaofeng Zhang, Xiangheng Xiao, Jinxia Xu, Changzhong Jiang*, Controllable synthesis and catalysis application of hierarchical PS/Au core–shell nanocomposites, Journal of Colloid and Interface Science,Journal of Colloid and Interface Science387 (2012) 47-55.
21. Shaofeng Zhang,Feng Ren*, Wei Wu, Juan Zhou, Lingling Sun, Xiangheng Xiao, Jinxia Xu, Changzhong Jiang*, Modified in situ and self-catalytic growth method for fabrication of Ag-coated nanocomposites with tailorable optical properties,Journal of Nanoparticle Research14 (2012) 1105.
20. Shaofeng Zhang, Wei Wu, Xiangheng Xiao, Juan Zhou, Jinxia Xu,Feng Ren*, Changzhong Jiang*, Polymer SupportedAg@AgAuBimetallic Nanocomposites: Synthesis and Catalytic Properties,Chemistry - An Asian Journal7 (2012) 1781-1788.
19. X. D. Zhou,F. Ren*, X. H. Xiao, J. X. Xu, Z. G. Dai , G. X. Cai, C. Z. Jiang*, Origin of white light luminescence from Si⁺/C⁺sequentially implanted and annealed silica,Journal of Applied Physics111 (2012) 084304.
18. Wei Wu, Shaofeng Zhang, Juan Zhou, Xiangheng Xiao, Fen Ren*, and Changzhong Jiang*, Controlled Synthesis of Monodisperse Sub-100 nm Hollow SnO₂ Nanospheres: Template- and Surfactant-Free Solution Phase Route, Growth Mechanism, Optical Properties and Application as Photocatalyst, Chemistry - A European Journal 17 ( 2011) 9718-9719.

17.29. X. D. Zhou, X. H. Xiao, J. X. Xu, G. X. Cai, F. Ren*, C. Z. Jiang*, Mechanism of the enhancement and quenching of ZnO photoluminescence by ZnO-Ag coupling, Europhysics Letters, 93 (2011) 57009.
16. T. Xu, N. N. Zhao, F. Ren, H. R. Lee, M. Tsang, J. Shu, S. S. Mao, B. Helms, Sub-Nanometer Porous Thin Films by the Co-assembly of Nanotube Subunits and Block Copolymers, ACS Nano 5 (2011) 1376–1384.
15. S. F. Zhang, W. Wu, X. H. Xia, J. Zhou, F. Ren*, C. Z. Jiang*, Preparation and Characterization of Spindle-like Fe3O4 Mesoporous Nanoparticles, Nanoscale Research Letters, 6 (2011) 89.
14. Feng Ren, Chang Zhong Jiang, Guang Xu Cai, Xiang Heng Xiao, Engineering embedded metal nanoparticles with ion beam technology and their stability study, Applied Physics A 96 (2009) 317–325.
13. Feng Ren, Guang Xu Cai, Xiang Heng Xiao, Li Xia Fan, Changzhong Jiang, Ion irradiation induced hollow and sandwiched nanoclusters, Journal of Applied Physics 103 (2008) 155610.
12. F. Ren, L. Y. Zhang, X. H. Xiao, L. Liao, G. X. Cai, L. X. Fan, C. Z. Jiang, Controlling the growth of ZnO Quantum Dots embedded in silica by Zn/F sequential ion implantation and subsequent annealing, Nanotechnology 19 (2008) 155610.
11. F. Ren, C. Z. Jiang, G. X. Cai, Q. Fu, Y. Shi, Fabrication of hollow nanoclusters by ion implantation, Nuclear Instruments and Methods in Physics Research B 262 (2007) 201–204.
10. F. Ren, C. Z. Jiang, X. H. Xiao, Fabrication of single-crystal ZnO film by Zn ion implantation and subsequent annealing, Nanotechnology 18 (2007) 285609.
9. F. Ren, C. Z. Jiang, J. B. Wang, C. Liu, T. Oku, Controlling the morphology of Ag Nanoclusters by Ion Implantation to Different Doses and Subsequent Annealing, Physical Review Letters 97 (2006) 165501. (Selected in Virtual J. Nanoscale Science & Technology, October 30, 2006 issue)
8. F. Ren, C. Z. Jiang, C. Liu, J. B. Wang, Fabrication and annihilation of nanovoids in Cu nanoclusters by ion implantation into silica and subsequent annealing, Applied Physics Letters 88 (2006) 183114.
7. F. Ren, L. P. Guo, Y. Shi, D. L. Chen, Z. Y. Wu, C. Z. Jiang, Formation of Zn-ZnO core-shell nanoclusters by Zn/F sequential ion implantation, Journal of Physics D: Applied Physics 39 (2006) 488–491.
6. F. Ren, C. Z. Jiang, Y. H. Wang, Q. Q. Wang, D. J. Chen, Y. Shi, The problem of core/shell nanoclusters formation during ion implantation, Nuclear Instruments and Methods in Physics Research B 245 (2006) 427-430.
5. Feng Ren, Chang-Zhong Jiang, De-Jun Fu, Qiang Fu, Raman scattering studies on Ag nanoclusters composites formed by ion implantation into silica, Japanese Journal of Applied Physics part 1, 44 (2005) 8512-8514.
4. F. Ren, C. Z. Jiang, C. Liu, D. J. Fu, Y. Shi, Interface influence on the surface plasmon resonance of Ag nanocluster composite, Solid State Communications 135 (2005) 268-272.
3. Feng Ren, Chang-Zhong Jiang, Chang Liu, Yin Shi, Jian-Bo Wang, Alloy and core-shell nanoclusters formed by sequential ion implantation and thermal annealing, Journal of the Korean Physical Society 46 (2005) S43-S47.
2. F. Ren, C. Z. Jiang, H. B. Chen, Y. Shi, C. liu, J. B. Wang, Metal alloy and monoelemental nanoclusters in silica formed by sequential ion implantation and annealing in selected atmosphere, Physica B 353 (2004) 92–97.
1. F. Ren, C. Z. Jiang, L. Zhang, Y. Shi, J.B. Wang, R.H. Wang, Formation and microstructural investigation of Ag-Cu alloy nanoclusters embedded in SiO2 formed by sequential ion implantation, Micron 35 (2004) 489–493.

研究项目
18. 湖北省自然科学基金创新群体项目，(2020-2024)，主持

17. 国家自然科学基金重点项目(No. **)，(2020.1-2024.12) ，主持

16. 国家自然科学基金面上项目(No. **)，(2019.1-2022.12)，主持

15. 国家重点研发计划“可再生能源与氢能技术”重点专项（2018YFB**），(2019.1-2022.12) ，参加。

14. 江苏省自然科学基金面上项目，（No.BK**）(2016-2018)，主持

13. "纳米尺度下离子束与固体相互作用(Interactions of Ion beam and nanostructural materials)"，国家自然科学基金优秀青年基金（No. **）(2016-2018)，主持。

12. 国家自然科学基金面上项目(National Natural Science Foundation of China) (No.**)(2015-2018)，主持。

11. 苏州市纳米科学技术专项（2013-2015），主持。

10. 教育部新世纪优秀人才支持计划（2013-2015），主持。

9. 国家自然科学基金面上项目 (National Natural Science Foundation of China)(No. **) (2012-2015) ，主持。

8. 湖北省自然科学基金 (National Natural Science Foundation of Hubei Province)(2009-2011)，主持。

7.国家自然科学基金，(National Natural Science Foundation of China) (No.**) (2010.1-2012.12) ，主持。

6.教育部博士点基金（新教师基金）(Specialized Research Fund for the Doctoral Program of Higher Education) (No. ) (2008-2010)，主持。

5. 武汉市晨光计划 (No. 1) (2009-2010)，主持。

4. 国家自然科学基金 (No. **) (2008.1-2010.12)，参加

3. 国家高技术研究发展计划 (863计划) (No. 2007AA12Z322) (2008-2010)，参加。

2. 国家自然科学基金重点项目 (No. **) (2005-2008) ，参加。

1. 国家自然科学基金重大研究计划/培育项目(No. **) (2011-2013) ，参加

专利
1. 一种单晶ZnO纳米薄膜材料的制备方法，任峰，蒋昌忠， (专利号ZL 5.7)
2. 一种聚苯乙烯/金复合微球的制备方法，周娟，任峰，张少峰，吴伟，肖湘衡，蒋昌忠 (专利号ZL0.9)
3. 一种负载型银纳米复合材料的制备方法，任峰，张少锋，周娟，吴伟，肖湘衡，蒋昌忠, (专利号 ZL4.7)。
4. 一种抗辐照纳米孔膜，任峰，洪梦庆，张红秀，秦文静，刘丹，肖湘衡，蒋昌忠，（专利号 ZL1.0）
5. 高灵敏度表面增强拉曼散射基底的制备方法，任峰，郑旭东，吴恒毅，蔡光旭，蒋昌忠（专利号 ZL8.9）2017.5.27
6. 金属-碳氮复合电催化材料及其制备方法，任峰，吴亮，王雪凝，钟惠舟，蔡光旭，蒋昌忠（申请号20**810）

实验设备

科研团队
暂无内容

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获奖信息

论文
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2021
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73.Huizhou Zhong#, Guoping Gao#, Xuening Wang, Hengyi Wu, Shaohua Shen, Wenbin Zuo, Guangxu Cai, Guo Wei, Ying Shi, Dejun Fu, Changzhong Jiang, Lin-Wang Wang, Feng Ren*, Ion Irradiation Inducing Oxygen Vacancy-rich NiO/NiFe₂O₄ Heterostructure for Enhanced Electrocatalytic Water Splitting, Small, accepted (IF 11.46)
72. Jun Tang, Tao Cheng, Yongqiang Wang, Lulu Hu, Mengqing Hong, Wenjing Qin, Guangxu Cai, Changzhong Jiang, Feng Ren*. Constructing high-performance radiation-resistant ternary ZrO₂-MgO-CNT nanocomposites via tailored nanostructures, Journal of the European Ceramic Society, 41 (2021) 5280-5291.(二区top)
71.Shuqin Zhao, Hengyi Wu, Ran Yin, Xuening Wang, Huizhou Zhong, Qiang Fu, Wenjin Wan, Tao Cheng, Ying Shi, Guangxu Cai, Changzhong Jiang, Feng Ren*, Preparation and electrocatalytic properties of (FeCrCoNiAl_0.1)Ox high-entropy oxide and NiCo-(FeCrCoNiAl_0.1)O_x heterojunction films, Journal of Alloys and Compounds, 868 (2021) 159108. (二区top)
70.Ran Yin, Lulu Hu, Jun Tang, Tao Cheng, Dongxun Zhang*, Guikai Zhang, Zhiquan Chen, Mengqing Hong, Guangxu Cai, Yin Shi, Changzhong Jiang, Feng Ren*, In-situ Oxidation of Aluminized Stainless-steel to Form Alumina as Tritium Permeation Barrier Coating, Fusion Engineering and Design, 163 (2021) 112154.
69.XudongZheng,LiangWu,FengRen*,OxygenvacancyenhancedroomtemperatureferromagnetisminAr⁺ionirradiatedWO₃films,CeramicsInternational,47 (2021) 5091-5098.（二区top）
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2020
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68. Xuening Wang, Wenjing Wan, Shaohua Shen, Hengyi Wu, Huizhou Zhong, Changzhong Jiang,Feng Ren*, Application of Ion beam Technology in (Photo)electrocatalytic Materials for Renewable Energy,Applied Physics Reviews 7(2020) 041303 (IF 17.05)(SCI 一区)

67.Jun Tang#,Guo Wei#, Xuecheng Cai, Shuanglin Hu, Tongde Shen, Tao Cheng, Ran Yin, Jian Zhang, Xuefeng Ruan, Bing Yang, Yongqiang Wang, Guangxu Cai, Changzhong Jiang,Feng Ren*, Smart 3D network nanocomposites collect irradiation-induced “trash”,Matter (Cell Press), 3 (2020) 1631-1645. DOI:https://doi.org/10.1016/j.matt.2020.08.010

66. Lulu Hu, Guo Wei, Ran Yin, Mengqing Hong, Tao Cheng, Dongxun Zhang*, Shuqin Zhao, Bing Yang, Guikai Zhang, Guangxu Cai, Ying Shi, Changzhong Jiang,Feng Ren*, Significant Hydrogen Isotopes Permeation Resistance Via Nitride Nano-multilayer Coating,International Journal of Hydrogen Energy,45 (2020) 19583-19589.(SCI 二区)
65. Liang Wu, Hengyi Wu, Xuening Wang, Huizhou Zhong, Zhaowu Wang,* Guangxu Cai, Changzhong Jiang,Feng Ren*, A General Method for Large-Scale Fabrication of Metal Nanoparticles Embedded N-doped Carbon Fiber Cloth with Highly Efficient Hydrogen Production in All pH Range, Electrochimica Acta,353 (2020)136475.(SCI 二区)
64. Yunxia Wang,Feng Ren*, Tao Ding*, Generation of High Quality, Uniform and Stable Plasmonic Colorants via Laser Direct Writing,Advanced Optical Materials2020 (2020), **.(SCI 一区)
63. N. Qi, H. X. Zhang, Z. Q. Chen,F. Ren*, B. Zhao, M. Jiang*, A. Uedono, Selective trapping of positrons by Ag nanolayers in a V/Ag multilayer system,AIP Advances, 10 (2020) 035012.
62. Hengyi Wu, Liang Wu, Shaohua Shen, Yichao Liu, Guangxu Cai, Xuening Wang, Yunhang Qiu, Huizhou Zhong, Zhuo Xing, Zhongqin Dai, Changzhong Jiang,Feng Ren*, Enhanced photoelectrochemical performance of an α-Fe2O3nanorods photoanode with embedded nanocavities formed by helium ions implantation,International Journal of Hydrogen Energy, 45 (2020) 9408-9415. (SCI 二区)

61. Lan Dong, Guo Wei, Tao Cheng, Jun Tang, Xiaobin Ye, Mengqing Hong, Lulu Hu, Ran Yin, Shuqin Zhao, Guangxu Cai, Yin Shi, Bicai Pan, Changzhong Jiang,Feng Ren*, Thermal conductivity, electrical resistivity and microstructure of Cu/W multilayered nanofilms,ACS Applied Materials & Interfaces, 12 (2020) 8886-8896.(SCI 一区)
60.Guo Wei, Jingwen Li, Yonggang Li, Huiqiu Deng, Changzhong Jiang, Feng Ren*, A better nanochannel tungsten film in releasing helium atoms,Journal of Nuclear Materials，532 (2020)152044.(SCI 一区)
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2019
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59. Wenjing Qin, Shuoxue Jin, Xingzhong Cao, Yongqiang Wang*, Paula Peres, Seo-Youn Choi, Changzhong Jiang,Feng Ren*, Influence of nanochannel structure on helium-vacancy cluster evolution and helium retention,Journal of Nuclear Materials527 (2019) 151822.(SCI 一区)
58. Wenjing Qin#, Mengqing Hong#, Yongqiang Wang, Jun Tang, Guangxu Cai, Ran Yin, Xuefeng Ruan, Bing Yang, Changzhong Jiang,Feng Ren*, Different Radiation Tolerances of Ultrafine-Grained Zirconia–Magnesia Composite Ceramics with Dierent Grain Sizes,Materials12 (2019) 2649.
57.Guo Wei,Feng Ren*, Jingzhong Fang, Wangyu Hu, Fei Gao, Wenjing Qin, Tao Cheng, Yongqiang Wang, Changzhong Jiang, Huiqiu Deng*, Understanding of helium atoms releasing from nanochannel tungsten: A molecular dynamics simulation,Nuclear Fusion59 (2019) 076020.(SCI 二区)
56. Xuening Wang, Liang Wu, Zhaowu Wang_*, Hengyi Wu, Xuemei Zhou, Hongyu Ma, Huizhou Zhong, Zhuo Xing, Guangxu Cai, Changzhong Jiang,Feng Ren*, C/N vacancy co-enhanced visible-light-driven hydrogen evolution of g-C3N4nanosheets through controlled He⁺ion irradiation, Solar RRL 2019 (2019) **.(Back Cover)(SCI 一区)

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2018
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55. Zhuo Xing, Hengyi Wu, Liang Wu, Xuening Wang, Huizhou Zhong, Feng Li, Jinchao Shi, Dengyuan Song, Wei Xiao, Changzhong Jiang,Feng Ren*, Multifunctional Vanadium-doped Cobalt Oxide Layer on Silicon Photoanodes for Efficient and Stable Photoelectrochemical Water Oxidation,Journal of Materials Chemistry A6 (2018) 21167. (SCI 一区 )

54. Wenjing Qin,Feng Ren*, Russell P. Doerner, Guo Wei, Yawei Lv, Sheng Chang, Ming Tang, Huiqiu Deng, Changzhong Jiang, Yongqiang Wang*, Nanochannel structures in W enhance radiation tolerance,Acta Materialia153 (2018) 147-155. (SCI 一区)
53. Guo Wei,Feng Ren*, Wenjing Qin, Wangyu Hu, Huiqiu Deng*, Changzhong Jiang, Evolution of helium bubbles below different tungsten surfaces under neutron irradiation and non-irradiation conditions,Computational Materials Science, 148 (2018) 242-248.
52. Hengyi Wu, Zhaowu Wang, Shuoxue Jin, Xingzhong Cao,Feng Ren*, Liang Wu, Zhuo Xing, Xuening Wang, Guangxu Cai, Changzhong Jiang, Enhanced Photoelectrochemical Performance of TiO₂ through Controlled Ar+ Ion Irradiation: A Combined Experimental and Theoretical Study,International Journal of Hydrogen Energy43 (2018) 6936-6944.(SCI 二区 )
51. Xudong Zheng,Feng Ren*, Hengyi Wu, Wenjing Qin, Changzhong Jiang, Formation of tungsten oxide nanowires by ion irradiation and vacuum annealing,Nanotechnology29 (2018) 155301.(SCI 二区 )
50. Wenjing Qin, Yongqiang Wang, Ming Tang, Feng Ren*, Qiang Fu, Guangxu Cai, Lan Dong, Lulu Hu, Guo Wei, Changzhong Jiang, Microstructure and hardness evolution of nanochannel W films irradiated by helium at high temperature, Journal of Nuclear Materials 502 (2018) 132-140.
49. Hui Wang,Feng Ren*, Jun Tang, Wenjing Qin, Lulu Hu, Lan Dong, Bin Yang, Guangxu Cai, Changzhong Jiang, Enhanced Radiation Tolerance of YSZ/Al₂O₃ Multilayered Nanofilms with Pre-Existing Nanovoids,Acta Materialia144 (2018) 691-699.(SCI 一区)
48. Yichao Liu,Feng Ren*, Shaohua Shen, Jianan Chen, Yanming Fu, Guangxu Cai, Xuening Wang, Zhuo Xing, Liang Wu, Xudong Zheng , Changzhong Jiang, Vancancy-doped homojunction structural TiO2 nanorod photoelectrodes with greatly enhanced photoelectrochemical activity,International Journal of Hydrogen Energy43 (2018) 2057-2063.(SCI 二区 )
47. Wenjing Qin, Feng Ren*, Jian Zhang, Xiaonan Dong, Yongjin Feng, Hui Wang, Jun Tang, Guangxu Cai, Yongqiang Wang, Changzhong Jiang, Helium retention in krypton ion pre-irradiated nanochannel W film,Nuclear Fusion58 (2018) 026021. (SCI 二区 TOP)
46. Liang Wu, Feng Ren*, Guangxu Cai, Zhuo Xing, Hengyi Wu, Xudong Zheng, Xuening Wang, Changzhong Jiang, Fabrication of Nanoporous Si Electrocathode by High-Energy Argon Ion Irradiation for Improved Electrocatalytic Hydrogen Production,International Journal of Hydrogen Energy43 (2018) 64-71.(SCI 二区 )
45. Jun Tang, Mengqing Hong, Wenjing Qin, Feng Ren*, Lan Dong, Hui Wang, Lulu Hu, Guangxu Cai, Changzhong Jiang, Microstructural evolution of nanochannel CrN films under ion irradiation at elevated temperature and post-irradiation annealing,Journal of Nuclear Materials500 (2018) 242-251.(SCI 一区 )

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2017
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44. 王雪凝, 任峰*, 吴恒毅, 刘艺超, 吴亮, 蒋昌忠*, 离子注入技术在光解水电极材料改性中的应用, 科学通报, 62 (2017) 2893-2904.
43. Lan Dong, Hongxiu Zhang, Hiroshi Amekura,Feng Ren*, Abdelhak Chettah, Mengqing Hong, Wenjing Qin, Jun Tang, Lulu Hu, Hui Wang, Changzhong Jiang, Period-thickness dependent responses of Cu/W multilayered nanofilms to ions irradiation under different ion energies,Journal of Nuclear Materials497 (2017) 117-127.
42. Xudong Zheng,Feng Ren*, Shunping Zhang, Xiaolei Zhang, Hengyi Wu, Xingang Zhang, Zhuo Xing, Wenjing Qin, Yong Liu, Changzhong Jiang*, A General Method for Large-Scale Fabrication of Semiconducting Oxides with High SERS Sensitivity,ACS Appl. Mater. & Interfaces 9 (2017) 14534–14544.(SCI 一区 )
41. Zhuo Xing,Feng Ren*, Hengyi Wu, Liang Wu, Xuening Wang, Jingli Wang, Da Wan, Guozhen Zhang, Changzhong Jiang, Enhanced PEC performance of nanoporous Si photoelectrodes by covering HfO2 and TiO2 passivation layers,Scientific Reports7 (2017) 43901.
40. Hengyi Wu,Feng Ren*, Zhuo Xing, Xudong Zheng, Liang Wu, Changzhong Jiang, Cathodic shift of onset potential for water oxidation of WO3 photoanode by Zr⁺ions implantation,Journal of Applied Physics121 (2017) 085305.

获奖信息

研究项目
18. 湖北省自然科学基金创新群体项目，(2020-2024)，主持

17. 国家自然科学基金重点项目(No. **)，(2020.1-2024.12) ，主持

16. 国家自然科学基金面上项目(No. **)，(2019.1-2022.12)，主持

15. 国家重点研发计划“可再生能源与氢能技术”重点专项（2018YFB**），(2019.1-2022.12) ，参加。

14. 江苏省自然科学基金面上项目，（No.BK**）(2016-2018)，主持

13. "纳米尺度下离子束与固体相互作用(Interactions of Ion beam and nanostructural materials)"，国家自然科学基金优秀青年基金（No. **）(2016-2018)，主持。

12. 国家自然科学基金面上项目(National Natural Science Foundation of China) (No.**)(2015-2018)，主持。

11. 苏州市纳米科学技术专项（2013-2015），主持。

10. 教育部新世纪优秀人才支持计划（2013-2015），主持。

9. 国家自然科学基金面上项目 (National Natural Science Foundation of China)(No. **) (2012-2015) ，主持。

8. 湖北省自然科学基金 (National Natural Science Foundation of Hubei Province)(2009-2011)，主持。

7.国家自然科学基金，(National Natural Science Foundation of China) (No.**) (2010.1-2012.12) ，主持。

6.教育部博士点基金（新教师基金）(Specialized Research Fund for the Doctoral Program of Higher Education) (No. ) (2008-2010)，主持。

5. 武汉市晨光计划 (No. 1) (2009-2010)，主持。

4. 国家自然科学基金 (No. **) (2008.1-2010.12)，参加

3. 国家高技术研究发展计划 (863计划) (No. 2007AA12Z322) (2008-2010)，参加。

2. 国家自然科学基金重点项目 (No. **) (2005-2008) ，参加。

1. 国家自然科学基金重大研究计划/培育项目(No. **) (2011-2013) ，参加

访问量：最后更新时间：--

获奖信息

专利
1. 一种单晶ZnO纳米薄膜材料的制备方法，任峰，蒋昌忠， (专利号ZL 5.7)
2. 一种聚苯乙烯/金复合微球的制备方法，周娟，任峰，张少峰，吴伟，肖湘衡，蒋昌忠 (专利号ZL0.9)
3. 一种负载型银纳米复合材料的制备方法，任峰，张少锋，周娟，吴伟，肖湘衡，蒋昌忠, (专利号 ZL4.7)。
4. 一种抗辐照纳米孔膜，任峰，洪梦庆，张红秀，秦文静，刘丹，肖湘衡，蒋昌忠，（专利号 ZL1.0）
5. 高灵敏度表面增强拉曼散射基底的制备方法，任峰，郑旭东，吴恒毅，蔡光旭，蒋昌忠（专利号 ZL8.9）2017.5.27
6. 金属-碳氮复合电催化材料及其制备方法，任峰，吴亮，王雪凝，钟惠舟，蔡光旭，蒋昌忠（申请号20**810）

访问量：最后更新时间：--

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实验设备

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科研团队
共0条0/0

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亮点工作五
[1]. Acta Mater.：具有纳米空洞的YSZ/Al2O3多层膜的抗辐射性能研究

亮点工作四
[1]. Acta Mater.: 具有纳米孔道结构钨的抗辐照性能研究

亮点工作三
[1]. Solar RRL：通过He离子辐照实现g-C3N4缺陷调控提高光催化性能

亮点工作二
Applied Physics Reviews刊登任峰教授课题组综述论文

亮点工作一
利用晶界和C纳米管联合作用提高核材料的热学、力学、抗辐照等性能
核能作为一种清洁低碳高效的能源，是解决全球能源危机和环境污染最有效的方法之一。然而，在先进核反应堆中，材料会遭受高离位损伤和大量的氢、氦等嬗变产物，大量气泡和缺陷的形成会导致材料性能严重的退化。提高核反应堆的使用寿命对核电站的安全性和经济性至关重要，而长寿命反应堆的发展取决于材料的性能。近年来，在核材料中引入大量的缺陷陷阱（sinks），如晶界、相界、自由表面和界面，被认为是实现提高抗辐照性能的有效策略。例如，纳米晶、纳米多层膜等纳米结构材料。这些纳米结构材料虽然相对于粗晶材料有着显著提高的抗辐照性能，但是仍然有许多不足之处。第一，大量晶界和界面引起的高硬度会造成材料脆化，特别是对于BCC结构的金属材料；第二，纳米晶和纳米多层膜等纳米结构材料由于界面或晶界存储辐照缺陷、嬗变溶质和气体原子的容量有限，因此服役在强中子辐照、高温、高应力等极端环境的先进核反应堆中仍然可能失效，例如基体产生裂纹、界面混合等等。第三，大量的晶界和界面可以散射电子和声子，从而显著降低材料的导热性能，这对反应堆效率和服役在高温和强应力环境下的结构材料的热力学性能产生不利影响。因此，为下一代先进核能系统开发同时具有优异的热学、力学性能和高抗辐照损伤能力的能大规模生产的先进材料，是当前面临的一项重大挑战和紧迫任务。
近日，武汉大学物理科学与技术学院任峰教授团队在Cell Press旗下材料旗舰期刊Matter上发表了题为：Smart 3D network nanocomposites collect irradiation-induced “trash”的研究论文。研究人员从自然界雨水收集和河流排水的现象中受到启发，首次报道了将纳米晶晶界与碳纳米管结合起来设计制备具有增强力学性能、导热性能、热稳定性和优异抗辐照性能的块体纳米晶-碳纳米管三维网络复合结构材料。

图1. Fe-CNT纳米复合材料的微观结构表征、力学和热导性能测试。
在这项工作中，研究人员将铁纳米晶和碳纳米管网复合，通过放电等离子体烧结制备出了相比于纳米晶铁有着更高力学性能、导热性能、热稳定性和抗辐照性能的块体Fe-CNT纳米复合材料。高结晶质量的三维碳纳米管网不仅可以为电子和声子提供传递热量的快速通道，而且通过在铁纳米晶基体和碳纳米管之间的直接应力载荷传递机制，可以起到显著的强化作用，提高材料的导热性能和压缩塑性应变。这些碳纳米管网沿着晶界分布，在600和700 ^oC真空退火过程中可以抑制晶粒粗化，提高纳米晶的热稳定性。通过载能150 keV He⁺离子和1.2 MeV Kr³⁺离子400 ^oC加温辐照实验，不仅发现了与丰富晶界结合的三维碳纳米管网可以直接捕获和存储附近的He原子和点缺陷（“加载-卸载”机制），还发现了铁基体中辐照产生的He原子和点缺陷首先可以被晶界所捕获，然后通过晶界输运到碳纳米管中释放。最后碳纳米管可以作为巨大容量的“纳米垃圾箱”来存储大量的气体原子和缺陷（“加载-输运-卸载”机制），从而减少了材料内部的晶界脆化和基体开裂，以及空洞形成造成的肿胀，保持了微观结构的稳定。辐照后的纳米压痕硬度测试，发现该纳米复合材料可以有效地控制甚至消除辐照引起的缺陷和嬗变气体原子，保持其力学性能的稳定。因此，相比于纯铁纳米晶，拥有丰富晶界和三维碳纳米管网的Fe-CNT纳米复合材料表现出更高的抗辐照性能。分子动力学模拟证明了晶界-碳纳米管构型中“加载-输运-卸载”抗辐照机制的存在。通过第一性原理计算揭示了纳米复合材料中He/缺陷与晶界和Fe-CNT界面相互作用的能量图景，不仅发现Fe-CNT界面处的He原子、间隙原子、空位形成能都很低，有利于三维碳纳米管网收集这些辐照产生的He原子和点缺陷；还发现在纳米晶铁中嵌入碳纳米管后可以增加铁基体中的空位形成能，从而抑制基体中空洞的形成。

图2. Fe-CNT纳米复合材料在高剂量He离子加温辐照中的抗辐照性能测试和抗辐照机理分析。
总体来说，该论文设计并开发了一种由纳米晶和碳纳米管组成的具有优异的热学、力学性能和辐照损伤自愈合能力的智能三维网络纳米复合材料的总体概念，以铁纳米晶与碳纳米管复合制备的Fe-CNT纳米复合材料为研究模型，通过实验与理论计算相结合进行了验证。这种智能三维网络纳米复合材料的发现，克服了纳米晶材料存在的一些问题，进一步提高了我们对如何通过改变材料微观结构和成分来同时增强材料的力学完整性、热传导和辐照损伤自修复能力的基本理解，它为结构材料在核能应用中面临大量嬗变产物和严重离位损伤以及强的热力学应力的挑战提供了一种新的解决方案。
▌论文标题：

Smart 3D Network Nanocomposites Collect Irradiation-Induced “Trash”

▌论文网址：
https://www.cell.com/matter/fulltext/S2590-2385(20)30437-9

▌DOI：
https://doi.org/10.1016/j.matt.2020.08.010

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亮点工作五
1.Acta Mater.：具有纳米空洞的YSZ/Al2O3多层膜的抗辐射性能研究发布时间：2020-10-13 点击次数：

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亮点工作四
1.Acta Mater.: 具有纳米孔道结构钨的抗辐照性能研究发布时间：2020-10-13 点击次数：

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亮点工作三
1.Solar RRL：通过He离子辐照实现g-C3N4缺陷调控提高光催化性能发布时间：2020-10-13 点击次数：

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亮点工作二
Applied Physics Reviews刊登任峰教授课题组综述论文

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亮点工作一
利用晶界和C纳米管联合作用提高核材料的热学、力学、抗辐照等性能
核能作为一种清洁低碳高效的能源，是解决全球能源危机和环境污染最有效的方法之一。然而，在先进核反应堆中，材料会遭受高离位损伤和大量的氢、氦等嬗变产物，大量气泡和缺陷的形成会导致材料性能严重的退化。提高核反应堆的使用寿命对核电站的安全性和经济性至关重要，而长寿命反应堆的发展取决于材料的性能。近年来，在核材料中引入大量的缺陷陷阱（sinks），如晶界、相界、自由表面和界面，被认为是实现提高抗辐照性能的有效策略。例如，纳米晶、纳米多层膜等纳米结构材料。这些纳米结构材料虽然相对于粗晶材料有着显著提高的抗辐照性能，但是仍然有许多不足之处。第一，大量晶界和界面引起的高硬度会造成材料脆化，特别是对于BCC结构的金属材料；第二，纳米晶和纳米多层膜等纳米结构材料由于界面或晶界存储辐照缺陷、嬗变溶质和气体原子的容量有限，因此服役在强中子辐照、高温、高应力等极端环境的先进核反应堆中仍然可能失效，例如基体产生裂纹、界面混合等等。第三，大量的晶界和界面可以散射电子和声子，从而显著降低材料的导热性能，这对反应堆效率和服役在高温和强应力环境下的结构材料的热力学性能产生不利影响。因此，为下一代先进核能系统开发同时具有优异的热学、力学性能和高抗辐照损伤能力的能大规模生产的先进材料，是当前面临的一项重大挑战和紧迫任务。
近日，武汉大学物理科学与技术学院任峰教授团队在Cell Press旗下材料旗舰期刊Matter上发表了题为：Smart 3D network nanocomposites collect irradiation-induced “trash”的研究论文。研究人员从自然界雨水收集和河流排水的现象中受到启发，首次报道了将纳米晶晶界与碳纳米管结合起来设计制备具有增强力学性能、导热性能、热稳定性和优异抗辐照性能的块体纳米晶-碳纳米管三维网络复合结构材料。

图1. Fe-CNT纳米复合材料的微观结构表征、力学和热导性能测试。
在这项工作中，研究人员将铁纳米晶和碳纳米管网复合，通过放电等离子体烧结制备出了相比于纳米晶铁有着更高力学性能、导热性能、热稳定性和抗辐照性能的块体Fe-CNT纳米复合材料。高结晶质量的三维碳纳米管网不仅可以为电子和声子提供传递热量的快速通道，而且通过在铁纳米晶基体和碳纳米管之间的直接应力载荷传递机制，可以起到显著的强化作用，提高材料的导热性能和压缩塑性应变。这些碳纳米管网沿着晶界分布，在600和700 ^oC真空退火过程中可以抑制晶粒粗化，提高纳米晶的热稳定性。通过载能150 keV He⁺离子和1.2 MeV Kr³⁺离子400 ^oC加温辐照实验，不仅发现了与丰富晶界结合的三维碳纳米管网可以直接捕获和存储附近的He原子和点缺陷（“加载-卸载”机制），还发现了铁基体中辐照产生的He原子和点缺陷首先可以被晶界所捕获，然后通过晶界输运到碳纳米管中释放。最后碳纳米管可以作为巨大容量的“纳米垃圾箱”来存储大量的气体原子和缺陷（“加载-输运-卸载”机制），从而减少了材料内部的晶界脆化和基体开裂，以及空洞形成造成的肿胀，保持了微观结构的稳定。辐照后的纳米压痕硬度测试，发现该纳米复合材料可以有效地控制甚至消除辐照引起的缺陷和嬗变气体原子，保持其力学性能的稳定。因此，相比于纯铁纳米晶，拥有丰富晶界和三维碳纳米管网的Fe-CNT纳米复合材料表现出更高的抗辐照性能。分子动力学模拟证明了晶界-碳纳米管构型中“加载-输运-卸载”抗辐照机制的存在。通过第一性原理计算揭示了纳米复合材料中He/缺陷与晶界和Fe-CNT界面相互作用的能量图景，不仅发现Fe-CNT界面处的He原子、间隙原子、空位形成能都很低，有利于三维碳纳米管网收集这些辐照产生的He原子和点缺陷；还发现在纳米晶铁中嵌入碳纳米管后可以增加铁基体中的空位形成能，从而抑制基体中空洞的形成。

图2. Fe-CNT纳米复合材料在高剂量He离子加温辐照中的抗辐照性能测试和抗辐照机理分析。
总体来说，该论文设计并开发了一种由纳米晶和碳纳米管组成的具有优异的热学、力学性能和辐照损伤自愈合能力的智能三维网络纳米复合材料的总体概念，以铁纳米晶与碳纳米管复合制备的Fe-CNT纳米复合材料为研究模型，通过实验与理论计算相结合进行了验证。这种智能三维网络纳米复合材料的发现，克服了纳米晶材料存在的一些问题，进一步提高了我们对如何通过改变材料微观结构和成分来同时增强材料的力学完整性、热传导和辐照损伤自修复能力的基本理解，它为结构材料在核能应用中面临大量嬗变产物和严重离位损伤以及强的热力学应力的挑战提供了一种新的解决方案。
▌论文标题：

Smart 3D Network Nanocomposites Collect Irradiation-Induced “Trash”

▌论文网址：
https://www.cell.com/matter/fulltext/S2590-2385(20)30437-9

▌DOI：
https://doi.org/10.1016/j.matt.2020.08.010

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本科生教学
《光学》、《大学物理》、《辐射物理与防护》、《综合实验》、《科研训练》

研究生教学
《原子核物理2》

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