基本信息
全保刚 男 中国科学院物理研究所
电子邮件: quanbaogang@iphy.ac.cn
通信地址: 北京市海淀区中关村南三街8号
电话:010-82648160
招生信息
招生专业
070205-凝聚态物理
招生方向
微加工技术,新能源技术,微纳光学
超材料,超表面,表面等离激元
纳米器件
超材料,超表面,表面等离激元
纳米器件
教育背景
2003-09--2006-06 中国科学院物理研究所 博士学位
2001-09--2003-07 哈尔滨工业大学 硕士学位
1996-09--2000-07 哈尔滨工程大学 学士学位
2001-09--2003-07 哈尔滨工业大学 硕士学位
1996-09--2000-07 哈尔滨工程大学 学士学位
工作经历
工作简历
2020-08~现在, 中国科学院物理研究所, 主任工程师
2011-03~2020-08,中国科学院物理研究所, 副主任工程师
2010-10~2010-12,法国国家健康和医学研究院(INSERM), 访问学者
2008-06~2011-03,国家纳米科学中心, 高级工程师
2006-06~2008-06,国家纳米科学中心, 博士后
2011-03~2020-08,中国科学院物理研究所, 副主任工程师
2010-10~2010-12,法国国家健康和医学研究院(INSERM), 访问学者
2008-06~2011-03,国家纳米科学中心, 高级工程师
2006-06~2008-06,国家纳米科学中心, 博士后
教授课程
光电传感实验
近代物理实验
近代物理实验
专利与奖励
奖励信息
(1) 北京物质科学与纳米技术区域中心年2019度优秀仪器管理员, 一等奖, 院级, 2019
(2) 2017年度中国科学院院所两级公共技术服务中心优秀集体奖, 院级, 2017
(3) 2013年度北京纳米科学大型仪器区域中心“优秀管理员”, 特等奖, 院级, 2014
(2) 2017年度中国科学院院所两级公共技术服务中心优秀集体奖, 院级, 2017
(3) 2013年度北京纳米科学大型仪器区域中心“优秀管理员”, 特等奖, 院级, 2014
专利成果
[1] 李明飞, 吴令安, 全保刚. 一种编码盘以及基于旋转编码的抗干扰成像系统. CN: CN117979175A, 2024-05-03.
[2] 全保刚, 李俊杰, 顾长志, 徐新龙, 杜婉怡. 基于金刚石薄膜的太赫兹产生装置及其产生方法. CN: CN113794086A, 2021-12-14.
[3] 麻皓月, 李俊杰, 杨海方, 全保刚. 任意曲率球面微结构的可控加工方法. CN: CN113341663A, 2021-09-03.
[4] 顾长志, 胡莎, 潘如豪, 全保刚, 李俊杰. 一种三维集成超表面器件、其制备方法及应用. CN: CN111025463B, 2020-12-11.
[5] 全保刚, 闫昭, 孙悦, 陆浩, 李俊杰, 李泓, 顾长志. 用于测试和评价硅基负极半电池的电解液体系性能的方法. CN: CN109738823A, 2019-05-10.
[6] 李俊杰, 潘如豪, 刘哲, 全保刚, 顾长志. 一种纳米间隙的制备方法. CN: CN106842814A, 2017-06-13.
[7] 李俊杰, 王玉瑾, 全保刚, 顾长志. 表面增强拉曼衬底的制备方法及表面增强拉曼衬底结构. CN: CN105842227A, 2016-08-10.
[8] 顾长志, 王玉瑾, 李俊杰, 全保刚. 悬浮金属纳米间隙对结构的制备方法. CN: CN105858597A, 2016-08-17.
[9] 顾长志, 张慧珍, 杨海方, 唐成春, 全保刚, 李俊杰. 一种制备纳米尺度的石墨烯结构的方法. CN: CN105668546A, 2016-06-15.
[10] 李俊杰, 孙鹏, 唐成春, 全保刚, 刘哲, 顾长志. 金刚石纳米线阵列、其制备方法及用于电化学分析的电极. CN: CN104709872A, 2015-06-17.
[11] 唐成春, 李俊杰, 姜倩晴, 顾长志, 全保刚, 金爱子. 一种大面积制备微纳米凸球透镜阵列的方法. CN: CN104698514A, 2015-06-10.
[12] 唐成春, 顾长志, 李俊杰, 杨海方, 全保刚, 姜倩晴. 纳米对电极及其制备方法. CN: CN104465327A, 2015-03-25.
[13] 顾长志, 孙伟杰, 李俊杰, 全保刚, 夏晓翔. 一种微腔结构阵列的制备方法. CN: CN105329847A, 2016-02-17.
[14] 李俊杰, 胡赵胜, 全保刚, 顾长志. 多层垛积金属纳米球阵列及其制备方法. CN: CN104630772A, 2015-05-20.
[15] 王进泽, 孟庆波, 杨国桢, 李冬梅, 全保刚, 黄庆礼, 许信. 反射式光学元件及其设计方法和在太阳能电池中的应用. CN: CN103645530A, 2014-03-19.
[16] 顾长志, 胡赵胜, 李俊杰, 全保刚. 一种大面积制备伞状硅锥复合结构阵列的方法. CN: CN104332398A, 2015-02-04.
[17] 李俊杰, 孙伟杰, 李林, 全保刚, 夏晓翔, 顾长志. 一种金属纳米叉指光栅的制备方法. CN: CN104142530A, 2014-11-12.
[18] 顾长志, 尹红星, 李俊杰, 田士兵, 全保刚, 夏晓翔, 杨海方. 一种制备自封闭纳米通道的方法. CN: CN104229724A, 2014-12-24.
[19] 杨国桢, 黄庆礼, 叶佳声, 王进泽, 孟庆波, 全保刚, 张岩. 基于常规光学元件设计衍射光学元件的方法. CN: CN102981195A, 2013-03-20.
[20] 夏霖, 全保刚, 魏志祥. 葡萄糖氧化酶电极及其制备方法和应用. CN: CN103134841A, 2013-06-05.
[2] 全保刚, 李俊杰, 顾长志, 徐新龙, 杜婉怡. 基于金刚石薄膜的太赫兹产生装置及其产生方法. CN: CN113794086A, 2021-12-14.
[3] 麻皓月, 李俊杰, 杨海方, 全保刚. 任意曲率球面微结构的可控加工方法. CN: CN113341663A, 2021-09-03.
[4] 顾长志, 胡莎, 潘如豪, 全保刚, 李俊杰. 一种三维集成超表面器件、其制备方法及应用. CN: CN111025463B, 2020-12-11.
[5] 全保刚, 闫昭, 孙悦, 陆浩, 李俊杰, 李泓, 顾长志. 用于测试和评价硅基负极半电池的电解液体系性能的方法. CN: CN109738823A, 2019-05-10.
[6] 李俊杰, 潘如豪, 刘哲, 全保刚, 顾长志. 一种纳米间隙的制备方法. CN: CN106842814A, 2017-06-13.
[7] 李俊杰, 王玉瑾, 全保刚, 顾长志. 表面增强拉曼衬底的制备方法及表面增强拉曼衬底结构. CN: CN105842227A, 2016-08-10.
[8] 顾长志, 王玉瑾, 李俊杰, 全保刚. 悬浮金属纳米间隙对结构的制备方法. CN: CN105858597A, 2016-08-17.
[9] 顾长志, 张慧珍, 杨海方, 唐成春, 全保刚, 李俊杰. 一种制备纳米尺度的石墨烯结构的方法. CN: CN105668546A, 2016-06-15.
[10] 李俊杰, 孙鹏, 唐成春, 全保刚, 刘哲, 顾长志. 金刚石纳米线阵列、其制备方法及用于电化学分析的电极. CN: CN104709872A, 2015-06-17.
[11] 唐成春, 李俊杰, 姜倩晴, 顾长志, 全保刚, 金爱子. 一种大面积制备微纳米凸球透镜阵列的方法. CN: CN104698514A, 2015-06-10.
[12] 唐成春, 顾长志, 李俊杰, 杨海方, 全保刚, 姜倩晴. 纳米对电极及其制备方法. CN: CN104465327A, 2015-03-25.
[13] 顾长志, 孙伟杰, 李俊杰, 全保刚, 夏晓翔. 一种微腔结构阵列的制备方法. CN: CN105329847A, 2016-02-17.
[14] 李俊杰, 胡赵胜, 全保刚, 顾长志. 多层垛积金属纳米球阵列及其制备方法. CN: CN104630772A, 2015-05-20.
[15] 王进泽, 孟庆波, 杨国桢, 李冬梅, 全保刚, 黄庆礼, 许信. 反射式光学元件及其设计方法和在太阳能电池中的应用. CN: CN103645530A, 2014-03-19.
[16] 顾长志, 胡赵胜, 李俊杰, 全保刚. 一种大面积制备伞状硅锥复合结构阵列的方法. CN: CN104332398A, 2015-02-04.
[17] 李俊杰, 孙伟杰, 李林, 全保刚, 夏晓翔, 顾长志. 一种金属纳米叉指光栅的制备方法. CN: CN104142530A, 2014-11-12.
[18] 顾长志, 尹红星, 李俊杰, 田士兵, 全保刚, 夏晓翔, 杨海方. 一种制备自封闭纳米通道的方法. CN: CN104229724A, 2014-12-24.
[19] 杨国桢, 黄庆礼, 叶佳声, 王进泽, 孟庆波, 全保刚, 张岩. 基于常规光学元件设计衍射光学元件的方法. CN: CN102981195A, 2013-03-20.
[20] 夏霖, 全保刚, 魏志祥. 葡萄糖氧化酶电极及其制备方法和应用. CN: CN103134841A, 2013-06-05.
出版信息
发表论文
[1] Xue, Xinyi, Du, Wanyi, Tao, Wei, Huang, Yuanyuan, Lei, Zhen, Zhu, Lipeng, Zou, Yuxiao, Liu, Ying, Liu, Gangqin, Gu, Changzhi, Li, Yunliang, Quan, Baogang, Xu, Xinlong. Giant Photon-Drag-Induced Ultrafast Photocurrent in Diamond for Nonlinear Photonics. LASER & PHOTONICS REVIEWS[J]. 2024, 第 12 作者 通讯作者 18(6): http://dx.doi.org/10.1002/lpor.202301146.
[2] Fang, Shuangquan, Guo, Wenpeng, Huang, Yuanyuan, Shi, Mingjian, Tian, Xuezeng, Quan, Baogang, Xu, Xinlong, Yi, Jian, Jiang, Nan, Gu, Changzhi. Angular dependent terahertz emission from the interplay between nanocrystal diamond film and plasmonic metasurface. ISCIENCE[J]. 2024, 第 6 作者 通讯作者 27(2): http://dx.doi.org/10.1016/j.isci.2024.108939.
[3] Wen, Yongzheng, Giorgianni, Flavio, Ilyakov, Igor, Quan, Baogang, Kovalev, Sergey, Wang, Chen, Vicario, Carlo, Deinert, JanChristoph, Xiong, Xiaoyu, Bailey, Joe, Chen, Min, Ponomaryov, Alexey, Awari, Nilesh, Rovere, Andrea, Sun, Jingbo, Morandotti, Roberto, Razzari, Luca, Aeppli, Gabriel, Li, Junjie, Zhou, Ji. A universal route to efficient non-linear response via Thomson scattering in linear solids. NATIONAL SCIENCE REVIEW[J]. 2023, 第 4 作者10(7): http://dx.doi.org/10.1093/nsr/nwad136.
[4] Cai, Jiahua, Chen, Sai, Geng, Chunyan, Li, Jianghao, Quan, Baogang, Wu, Xiaojun. Ultrafast strong-field terahertz nonlinear nanometasurfaces. NANOPHOTONICS[J]. 2023, 第 5 作者12(13): 2517-2526, https://doaj.org/article/507afbb5f8104506aff179bba979527a.
[5] Yin, Shan, Chen, Yuting, Quan, Baogang, Liu, Songyi, Huang, Wei, Liu, Meng, Zhang, Wentao, Han, Jiaguang. Coupling-enabled chirality in terahertz metasurfaces. NANOPHOTONICS[J]. 2023, 第 3 作者12(7): 1317-1326, https://doaj.org/article/d8fc09bdb96c4afeab7c8c2a1afe99c6.
[6] 全保刚. Tunable slow light device based on a graphene metasurface. Optics Letters[J]. 2023, 第 1 作者
[7] Yao, Zehan, Quan, Baogang, Yang, Tianzhong, Li, Junjie, Gu, Changzhi. Flexible supercapacitors based on vertical graphene/carbon fabric with high rate performance. APPLIED SURFACE SCIENCE[J]. 2023, 第 2 作者610: http://dx.doi.org/10.1016/j.apsusc.2022.155535.
[8] Wen, Yongzheng, Giorgianni, Flavio, Ilyakov, Igor, Quan, Baogang, Kovalev, Sergey, Wang, Chen, Vicario, Carlo, Deinert, JanChristoph, Xiong, Xiaoyu, Bailey, Joe, Chen, Min, Ponomaryov, Alexey, Awari, Nilesh, Rovere, Andrea, Sun, Jingbo, Morandotti, Roberto, Razzari, Luca, Aeppli, Gabriel, Li, Junjie, Zhou, Ji. A universal route to efficient non-linear response via Thomson scattering in linear solids. NATIONAL SCIENCE REVIEW[J]. 2023, 第 4 作者10(7): 198-207, http://dx.doi.org/10.1093/nsr/nwad136.
[9] Cai, Jiahua, Chen, Sai, Geng, Chunyan, Li, Jianghao, Quan, Baogang, Wu, Xiaojun. Ultrafast strong-field terahertz nonlinear nanometasurfaces. NANOPHOTONICS[J]. 2023, 第 5 作者12(13): 2517-2526, https://doaj.org/article/507afbb5f8104506aff179bba979527a.
[10] 全保刚. Tunable slow light device based on a graphene metasurface. Optics Letters[J]. 2023, 第 1 作者
[11] Yin, Shan, Chen, Yuting, Quan, Baogang, Liu, Songyi, Huang, Wei, Liu, Meng, Zhang, Wentao, Han, Jiaguang. Coupling-enabled chirality in terahertz metasurfaces. NANOPHOTONICS[J]. 2023, 第 3 作者12(7): 1317-1326, https://doaj.org/article/d8fc09bdb96c4afeab7c8c2a1afe99c6.
[12] Yao, Zehan, Quan, Baogang, Yang, Tianzhong, Li, Junjie, Gu, Changzhi. Flexible supercapacitors based on vertical graphene/carbon fabric with high rate performance. APPLIED SURFACE SCIENCE[J]. 2023, 第 2 作者610: http://dx.doi.org/10.1016/j.apsusc.2022.155535.
[13] Gong, Yumin, Quan, Baogang, Hu, Fangrong, Wang, Hong, Zhang, Longhui, Jiang, Mingzhu, Zeng, Lizhen, Zhang, Xiaowen, Xu, Weilin. Active control of terahertz amplitude and phase based on graphene metasurface. PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES[J]. 2022, 第 2 作者143: http://dx.doi.org/10.1016/j.physe.2022.115334.
[14] Tong Li, Baogang Quan, Guangyou Fang, Tianwu Wang. Flexible THz Carrier-Envelope Phase Shifter Based on Metamaterials. Advanced Optical Materials[J]. 2022, 第 2 作者2200541-2200541, https://doi.org/10.1002/adom.202200541.
[15] Gong, Yumin, Quan, Baogang, Hu, Fangrong, Wang, Hong, Zhang, Longhui, Jiang, Mingzhu, Zeng, Lizhen, Zhang, Xiaowen, Xu, Weilin. Active control of terahertz amplitude and phase based on graphene metasurface. PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES[J]. 2022, 第 2 作者143: http://dx.doi.org/10.1016/j.physe.2022.115334.
[16] Tong Li, Baogang Quan, Guangyou Fang, Tianwu Wang. Flexible THz Carrier-Envelope Phase Shifter Based on Metamaterials. Advanced Optical Materials[J]. 2022, 第 2 作者2200541-2200541, https://doi.org/10.1002/adom.202200541.
[17] He, YuHang, Huang, YiYi, Zeng, ZhiRong, Li, YiFei, Tan, JunHao, Chen, LiMing, Wu, LingAn, Li, MingFei, Quan, BaoGang, Wang, SongLin, Liang, TianJiao. Single-pixel imaging with neutrons. SCIENCE BULLETIN[J]. 2021, 第 9 作者66(2): 133-138, http://dx.doi.org/10.1016/j.scib.2020.09.030.
[18] Shanshan Chen, Zhiguang Liu, Huifeng Du, Chengchun Tang, ChangYin Ji, Baogang Quan, Ruhao Pan, Lechen Yang, Xinhao Li, Changzhi Gu, Xiangdong Zhang, Yugui Yao, Junjie Li, Nicholas X Fang, Jiafang Li. Electromechanically reconfigurable optical nano-kirigami. NATURECOMMUNICATIONS[J]. 2021, 第 6 作者12(1): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7910307/.
[19] Dong, Tian, Li, Shaoxian, Manjappa, Manukumara, Yang, Peidi, Zhou, Jiangping, Kong, Deyin, Quan, Baogang, Chen, Xieyu, Ouyang, Chen, Dai, Fei, Han, Jiaguang, Ouyang, Chunmei, Zhang, Xueqian, Li, Junjie, Li, Yang, Miao, Jungang, Li, Yutong, Wang, Li, Singh, Ranjan, Zhang, Weili, Wu, Xiaojun. Nonlinear THz-Nano Metasurfaces. ADVANCED FUNCTIONAL MATERIALS[J]. 2021, 第 7 作者31(24): http://dx.doi.org/10.1002/adfm.202100463.
[20] 何雨航, 黄祎祎, 曾智蓉, 李毅飞, 谭军豪, 陈黎明, 吴令安, 李明飞, 全保刚, 王松林, 梁天骄. ���������������������. 科学通报:英文版[J]. 2021, 第 9 作者66(2): 133-138, http://lib.cqvip.com/Qikan/Article/Detail?id=7104243528.
[21] He, YuHang, Huang, YiYi, Zeng, ZhiRong, Li, YiFei, Tan, JunHao, Chen, LiMing, Wu, LingAn, Li, MingFei, Quan, BaoGang, Wang, SongLin, Liang, TianJiao. Single-pixel imaging with neutrons. SCIENCE BULLETIN[J]. 2021, 第 9 作者66(2): 133-138, http://dx.doi.org/10.1016/j.scib.2020.09.030.
[22] Jiang, Mingzhu, Hu, Fangrong, Zhang, Longhui, Quan, Baogang, Xu, Weilin, Du, Haotian, Xie, Duan, Chen, Ying. Electrically Triggered VO2 Reconfigurable Metasurface for Amplitude and Phase Modulation of Terahertz Wave. JOURNAL OF LIGHTWAVE TECHNOLOGY[J]. 2021, 第 4 作者39(11): 3488-3494,
[23] Shanshan Chen, Zhiguang Liu, Huifeng Du, Chengchun Tang, ChangYin Ji, Baogang Quan, Ruhao Pan, Lechen Yang, Xinhao Li, Changzhi Gu, Xiangdong Zhang, Yugui Yao, Junjie Li, Nicholas X Fang, Jiafang Li. Electromechanically reconfigurable optical nano-kirigami. NATURECOMMUNICATIONS[J]. 2021, 第 6 作者12(1): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7910307/.
[24] Dong, Tian, Li, Shaoxian, Manjappa, Manukumara, Yang, Peidi, Zhou, Jiangping, Kong, Deyin, Quan, Baogang, Chen, Xieyu, Ouyang, Chen, Dai, Fei, Han, Jiaguang, Ouyang, Chunmei, Zhang, Xueqian, Li, Junjie, Li, Yang, Miao, Jungang, Li, Yutong, Wang, Li, Singh, Ranjan, Zhang, Weili, Wu, Xiaojun. Nonlinear THz-Nano Metasurfaces. ADVANCED FUNCTIONAL MATERIALS[J]. 2021, 第 7 作者31(24): http://dx.doi.org/10.1002/adfm.202100463.
[25] 何雨航, 黄祎祎, 曾智蓉, 李毅飞, 谭军豪, 陈黎明, 吴令安, 李明飞, 全保刚, 王松林, 梁天骄. 中子单像素成像. 科学通报:英文版[J]. 2021, 第 9 作者66(2): 133-138, http://lib.cqvip.com/Qikan/Article/Detail?id=7104243528.
[26] He, YuHang, Zhang, AiXin, Li, MingFei, Huang, YiYi, Quan, BaoGang, Li, DaZhang, Wu, LingAn, Chen, LiMing. High-resolution sub-sampling incoherent x-ray imaging with a single-pixel detector. APL PHOTONICS[J]. 2020, 第 5 作者5(5): https://doaj.org/article/32bd0d016d9941e49e2aad394a1b5ad7.
[27] Wang, Kunqi, Qu, Cangyu, Wang, Jin, Quan, Baogang, Zheng, Quanshui. Characterization of a Microscale Superlubric Graphite Interface. PHYSICAL REVIEW LETTERS[J]. 2020, 第 4 作者125(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000546518700005.
[28] Liang, Baihui, Quan, Baogang, Li, Junjie, Loton, Chantal, Bredeche, MarieFlorence, Lindner, Ariel B, Xu, Luping. Artificial modulation of cell width significantly affects the division time of Escherichia coli. SCIENTIFIC REPORTS[J]. 2020, 第 2 作者10(1): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7576201/.
[29] Teng Han, Shubhi Bansal, Xiaochen Shi, Yanjun Chen, Baogang Quan, Feng Tian, Hongan Wang, Sriram Subramanian. HapBead : On-Skin Microfluidic Haptic Interface using Tunable Bead. ACM CHI. 2020, 第 5 作者
[30] He, YuHang, Zhang, AiXin, Li, MingFei, Huang, YiYi, Quan, BaoGang, Li, DaZhang, Wu, LingAn, Chen, LiMing. High-resolution sub-sampling incoherent x-ray imaging with a single-pixel detector. APL PHOTONICS[J]. 2020, 第 5 作者5(5): https://doaj.org/article/32bd0d016d9941e49e2aad394a1b5ad7.
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发表著作
(1) 微纳加工及在纳米材料与器件研究中的应用, 科学出版社, 2013-06, 第 2 作者
(2) 微纳加工及在纳米材料与器件研究中的应用, 科学出版社, 2021-06, 第 2 作者
(2) 微纳加工及在纳米材料与器件研究中的应用, 科学出版社, 2021-06, 第 2 作者
科研活动
科研项目
( 1 ) 电池单体电性能衰减机理研究, 主持, 国家级, 2016-07--2021-06
( 2 ) 苝酰亚胺纳米带的可控自组装及其传感器的制作, 主持, 国家级, 2012-01--2014-12
( 3 ) 面向新一代生物芯片的多组分生物分子纳米阵列的建构, 参与, 国家级, 2010-01--2012-12
( 4 ) 离子束刻蚀系统(IBE)的可控化学辅助刻蚀功能的拓展, 主持, 部委级, 2014-09--2015-08
( 5 ) 拉曼标记生物功能化纳米粒子的可控组装与超灵敏生物分子检测, 参与, 国家级, 2010-01--2012-12
( 6 ) 用于大面积、高深宽比微结构复制的微注射成型机研制, 主持, 部委级, 2020-09--2022-08
( 2 ) 苝酰亚胺纳米带的可控自组装及其传感器的制作, 主持, 国家级, 2012-01--2014-12
( 3 ) 面向新一代生物芯片的多组分生物分子纳米阵列的建构, 参与, 国家级, 2010-01--2012-12
( 4 ) 离子束刻蚀系统(IBE)的可控化学辅助刻蚀功能的拓展, 主持, 部委级, 2014-09--2015-08
( 5 ) 拉曼标记生物功能化纳米粒子的可控组装与超灵敏生物分子检测, 参与, 国家级, 2010-01--2012-12
( 6 ) 用于大面积、高深宽比微结构复制的微注射成型机研制, 主持, 部委级, 2020-09--2022-08
参与会议
(1)负极的微纳米结构化对于提高锂离子电池性能的贡献 2019年纳米和表面科学与技术全国会议 2019-10-07
(2)Fabrication of Inverted Pyramidal Pits with Nano-Opening by Laser Interference Lithography and Wet Etching 2015-09-21
(3)Controllable Synthesis of Single Conducting Polymer Nanowire on Electrodes Fabricated by Focused Ion 2015-05-26
(4)Sensing properties of infrared nanostructured plasmonic crystals fabricated by electron beam lithography and argon ion milling 2012-05-29
(2)Fabrication of Inverted Pyramidal Pits with Nano-Opening by Laser Interference Lithography and Wet Etching 2015-09-21
(3)Controllable Synthesis of Single Conducting Polymer Nanowire on Electrodes Fabricated by Focused Ion 2015-05-26
(4)Sensing properties of infrared nanostructured plasmonic crystals fabricated by electron beam lithography and argon ion milling 2012-05-29