第一作者论文和通信作者论文(*标志)
[1] Jiapeng Zheng, Xiaobo Xing*(通信作者), Jianxin Yang, Kezhang Shi, and Sailing He. Hybrid optofluidics and three-dimensional manipulation based on hybrid photothermal waveguides. NPG Asia Materials, 2018, 10: 340-351. IF = 9.157.
[2] Zongbao Li, Jianxin Yang, Meng Shi, Liu Yang, Yupeng Cheng, Xiaowen Hu, Xiaofang Jiang, Xiaobo Xing*(通信作者), and Sailing He*. Upconversion luminescence of graphene oxide through hybrid waveguide. The Journal of Physical Chemistry C, 2018, 122 (29): 16866–16871. IF = 4.536.
[3] Xiaobo Xing, Heng Zhu, Yuqing Wang, Baojun Li. Ultracompact photonic coupling splitters twisted by PTT nanowires. Nano Letters, 2008, 8: 2839-2843. IF = 12.712.
[4] Jiapeng Zheng, Xiaobo Xing*(通信作者), Julian Evans, Sailing He*. Optofluidic vortex arrays generated by graphene oxide for tweezers, motors, and self-assembly. NPG Asia Materials, 2016, 8: e257. IF = 9.157.
[5] Debin Zhu*, Lan Zhang, Wenge Ma, Suqin Lu, Xiaobo Xing*. Detection of microRNA in clinical tumor samples by isothermal enzyme-free amplification and label-free grapheme oxide-based SYBR Green I fluorescence platform. Biosensors and Bioelectronics, 2015, 65: 152-158. IF = 7.78.
[6] Jianxin Yang, Zongbao Li, Haiyan Wang, Debin Zhu, Xiang Cai, Yupeng Cheng, Mingyu Chen, Xiaowen Hu, and Xiaobo Xing*. Optofluidic trapping and delivery of massive mesoscopic matters using mobile vortex array. Applied Physics Letters, 2017, 111: 191901. IF = 3.411.
[7] YuPeng Cheng, JianXin Yang, ZongBao Li, DeBin Zhu, Xiang Cai, Xiaowen Hu, Wen Huang, and XiaoBo Xing*. Microbubble-assisted optofluidic control using a photothermal waveguide. Applied Physics Letters, 2017, 111: 151903. IF = 3.411.
[8] Xiaobo Xing*, Jiapeng Zheng, Fengjia Li, Chao Sun, Xiang Cai, Debin Zhu, Liang Lei, Ting Wu, Bin Zhou, Julian Evans, Ziyi Chen. Dynamic behaviors of ellipsoidal microbubbles photothermally generated by a graphene oxide-microheater. Scientific Reports, 2014, 4: 6086. 2016IF = 4.259.
[9] Xiaobo Xing*, Jiapeng Zheng, Chao Sun, Fengjia Li, Debin Zhu, Liang Lei, Xiang Cai, Ting Wu. Graphene oxide-deposited microfiber: a new photothermal device for various microbubble generation. Optics Express, 2013, 21: 31862-31871. IF = 3.307.
[10] Xiaobo Xing*, Yuqing Wang, Baojun Li. Nanofiber drawing and nanodevice assembly in poly(trimethylene terephthalate). Optics Express, 2008, 16: 10815-10822. IF = 3.307.
[11] Zongbao Li, Xin Wang, Shaojing Liu, Jianxin Yang, KeZhang Shi, Haiyan Wang, Debin Zhu, Xiaobo Xing*. Broadband photoluminescence of silicon nanowires excited by near-infrared continuous wave lasers. Optics and Laser Technology, 2017, 99: 81-85. IF = 2.109.
[12] Zongbao Li, Xia Wang, Xiaobo Xing*, and Ying Wang. Tailoring the electronic structure of anatase TiO2(001) surface through W and N codoping: a DFT calculation. Journal of the Korean Physical Society, 2017, 70: 286-291. IF = 0.467.
[13] Xiaobo Xing, Hua Jin, Yuhong Lu, Qiulan Wang, Yunlong Pan, Jiye Cai, Haiyan Wang. Detection of erythrocytes in patient with elliptocytosis complicating ITP using atomic force microscopy. Micron, 2011, 42: 42-46. IF = 1.98.
[14] Xiaobo Xing, Xiaoqing Deng, Baojun Li, Bharat Chaudhariet. Analysis of GaN-based single-mode rib waveguide with large cross-section. Journal of Micro/ Nanolithography, 2006, 5: 033009. IF = 1.428.
[15] Yinglian Wang, Haiyan Wang, and Xiaobo Xing*. Nanosilver surface plasmon response enhanced the photovoltaic performance of organic solar cells. Optik, 2014, 125(19): 5600-5602. IF = 0.769.
[16] Jianxin Yang, Zongbao Li, Yupeng Cheng, Jiapeng Zheng, Haiyan Wang, Debin Zhu, Wen Huang, and Xiaobo Xing*. Vortex-Mode Optofluidic Manipulation Based on Hybrid Photothermal Waveguide. 2017 16th International Conference on Optical Communications and Networks (ICOCN). EI收录.
[17] Yupeng Cheng, Mingyu Chen, Haiyan Wang, Jianlin Huang, ChunLin Tan, Yuntao Zhu, Zongbao Li, Jianxin Yang, Xiaowen Hu, Debin Zhu, Xiaobo Xing*. Visible light plasmonic-enhanced photocatalysis for highly efficient gas sensor. 2017 Asia Communications and Photonics Conference (ACP). EI收录.
[18] Chunlin Tan, Kezhang Shi, Debin Zhu, Jianxin Yang, Xiang Cai, Sailing He, and Xiaobo Xing*. An Improved One-pot Aqueous Phase Synthesis of CdTe QDs. 2016 Progress In Electromagnetic Research Symposium (PIERS), Shanghai, China, 8–11 August EI收录
[19] Chunlin Tan, Jianxin Yang, Debin Zhu, Kezhang Shi, Jiapeng Zheng, Xiang Cai, Xiaobo Xing*, and Sailing He*. Linear Dependence of Absorbance of CdTe Quantum Dots on the Ratio of Te:Cd in the Aqueous Phase Synthesis. 2016 Progress In Electromagnetic Research Symposium (PIERS), Shanghai, China, 8–11 August. EI收录
[20] Haiyan wang, Huang Chen, Jiapeng Zheng, Wei Chen, Debin Zhu, and Xiaobo Xing*. Polymer active nanowire waveguide and their applications. The 6th International Photonics and OptoElectronics Meetings (POEM 2013). Nanophotonics, Nanoelectronics and Nanosensor. Wuhan, May 25-26, 2013, ISBN: 978-1-55752-976-3 POEM (N3) Technical Digest © OSA 2013 EI收录.
[21] Xiaobo Xing, Heng Zhu, Yuqing Wang, Baojun Li. Ultrasmall optical beam splitters assembled by polymer nanowires. Physics Express, 2011, 1: 89-92. EI收录.
[22] Xiaobo Xing*, Baojun Li. Optimal design of tunable optical add-drop multiplexer in silicon-on-insulator. Advanced Materials Research, 2011, 216: 654-660. EI收录.
[23] Xiaobo Xing*, Baojun Li. A planar lightwave circuit based on optical add-drop multiplexer with 16 tunable wavelength channels. Advanced Materials Research, 2011, 216: 661-665. EI收录.
[24] Xiaobo Xing*, Baojun Li. Terahertz confinement and dispersion in subwavelength slot waveguide. Advanced Materials Research, 2011, 308: 323-327. EI收录.
[25] Xiaobo Xing, et al. Optical polymer nanofibers as bulilding blocks for miniaturized photonic circuits. Proceding of the 19th Annual Wireless and Optical Communications Conference, 2010. IEEE explore. EI收录.
[26] 邢晓波,刘叶新,陈晓文,傅思镜,林位株. 行波电吸收调制器中脊宽对频带宽度的影响. 光子学报,2005,34:1795-1798. EI收录.
[27] 周瑞雪,王海燕,朱德斌,胡小文,邢晓波*. 光镊技术在生物学中的应用新进展. 激光生物学报. 26(4) ,397-401 (2017).
[28] 张劲超,周瑞雪,刘绍静,陈依琳,程煜鹏,张俊优,何赛灵,邢晓波*. 微纳米光纤腐蚀动力学及其光学特性研究. 华南师范大学学报(自然科学版) 49 (1) , 62-66 (2017).
[29] 邢晓波, 陈伊琳,刘绍静,杨剑鑫,史可樟,程煜鹏,朱德斌*. 基于微纳光纤的光热捕获研究及应用. 华南师范大学学报(自然科学版) 48 (5), 15-18 (2016).
[30] 黄雯,王美霞,陈伊琳,刘绍静,盛良翮,徐萌,朱德斌,邢晓波*. 原子力显微镜研究多西他赛对人肺腺癌A549细胞的作用机制. 激光生物学报. 25(4) ,330-335(2016).
[31] 杨剑鑫,史可樟,李锡均,郑嘉鹏,史萌,蔡祥,朱德斌,邢晓波*. 基于氧化石墨烯-微纳光纤的微加热器制备及其性能研究. 华南师范大学学报(自然科学版),2015,47(4):30-34. 中文核心.
[32] 史可樟,杨剑鑫,李锡均,郑嘉鹏,史萌,蔡祥,朱德斌,邢晓波*.微热气泡驱动下的微流控理论研究. 华南师范大学学报(自然科学版),2015,47(6):28-31.中文核心.
[33] 古颖龙,王海燕,吴羽,姜恒和,郑嘉鹏,邢晓波*,朱德斌. 空化微流体在生物医学方面的应用. 激光生物学报,2014,23(4):289-293.中文核心.
[34] 邢晓波,黄训,朱德斌,王海燕,蔡继业. 原子力显微镜研究不同刺激条件下T细胞的形态和生物力学特性. 激光生物学报,2013,22:96-104. 中文核心.
[35] 王海燕,陈岚,邢晓波*. 原子力显微镜技术在细胞力学和病理学研究中的应用. 激光生物学报,2013,22:97-102. 中文核心.
[36] 邢晓波*,朱德斌,柯长洪,陈伟,金花,蔡继业. AFM探测缺铁性贫血病人的红细胞. 激光生物学报,2012,21:268-272. 中文核心.
[37] 邢晓波*,盛良翮,尹洪民,金花,蔡继业. 原子力显微镜研究高乌甲素对人脐静脉内皮细胞形态的影响. 激光生物学报,2011,20:521-527.中文核心.
[38] 邢晓波,潘运龙,金花,陈家楠,蔡继业. 近场扫描光学成像结合量子点标记的纳米技术在细胞生物学中的应用. 激光生物学报,2010,19(5):678-684。
[39] 邢晓波,蔡继业,王宇清,朱恒,何文. 基于聚合物纳米光纤的微光子学器件及其应用. 激光与光电子学进展,2010,10:1-9. 中文核心.
2. 部分合作论文
[1] Xiaowen Hu,* Xiao-Fang Jiang, Xiaobo Xing, Li Nian, Xiaoyang Liu, Rong Huang, Kai Wang,* Hin-Lap Yip,* and Guofu Zhou*. Wide-bandgap perovskite solar cells with large open-circuit voltage of 1653mV through interfacial engineering. Sol. RRL 2018, 1800083
[2] Debin Zhu, Xiaobo Xing, Wenge Ma, Suqin Lu, and Bihua Su. Isothermal protein detection assay based on high efficient T7 RNA polymerase transcription-mediated amplification system and graphene oxide fluorescence switch platform. Sensors and Actuators B: Chemical. 193, 178–184 (2014). IF = 3.84.
[3] Hua Jin, Xiaobo Xing, Hongxia Zhao, Yong Chen, Xun Huang, Shuyuan Ma, Hongyan Ye, Jiye Cai. Detection of erythrocytes influenced by aging and type 2 diabetes using atomic force microscope. Biochemical and Biophysical Research Communications 391, 1698-1702 (2010). IF = 1.988.
[4] Xiaofang Cai, Xiaobo Xing, Jiye Cai, Qian Chen, Shixian Wu, Feicheng Huang. Connection between biomechanics and cytoskeleton structure of lymphocyte and Jurkat cells: an AFM study. Micron 41, 257-262 (2010). 2014IF = 1.988.
3. 专著章节:
[1] Xiaobo Xing*, Huaqing Yu, Debin Zhu, Jiapeng Zheng, Huang Chen, Wei Chen, and Jiye Cai. Optical communication: Subwavelength and nanometer diameter optical polymer fibers as bulilding blocks for miniaturized photonics integration. ISBN 979-953-307-1063-6. IN-TECH, Austria.
[2] Baojun Li and Xiaobo Xing. Nanowires science and technology:Polymer nanowires. ISBN 978-953-7619-89-3. IN-TECH, Vienna, Austria.
4. 专利:
[1] 中国发明专利:邢晓波,朱德斌,郑嘉鹏,孙朝,孔瑞轩,陈伟。一种微泡发生器及其制作方法与应用. 专利号:ZL 201310674638. (已授权)
[2] 中国发明专利:李宝军,邢晓波,王宇清,朱恒,张垚.一种聚合物纳米光纤的制作方法. 专利号:200810029828.4. (已授权)
[3] 中国发明专利:李宝军,邢晓波,朱恒,王宇清,张垚.一种聚合物纳米光波导耦合分束器的组装方法. 专利号:200810029829.9. (已授权)
[4] 中国发明专利:邢晓波、陈明玉、刘前林、程煜鹏、朱德斌、李宗宝、薛盛、杨剑鑫.一种用于甲醛气体、湿度和温度多功能检测的纳米复合敏感膜及其制备.申请号:201711476624.0
[5] 中国发明专利:邢晓波、程煜鹏、刘前林、陈明玉、朱德斌、李宗宝、薛盛、杨剑鑫.一种甲醛气体、湿度和温度集成监测设备. 申请号:201711468550.6
[6] 中国发明专利:邢晓波,郑嘉鹏,周瑞雪,张俊优,何赛灵,杨剑鑫,史可樟. 基于光热波导的微流控芯片及其微流控方法. 申请号 : CN201611217086.9
[7] 中国发明专利:邢晓波,郑嘉鹏,周瑞雪,张俊优,何赛灵,杨剑鑫,史可樟. 基于光流漩涡阵列的材料分布式控制平台及控制方法. 申请号: CN201611217086.9.
[8] 中国发明专利:李宗宝,王霞,邢晓波. 一种过渡金属表面沉积二氧化钛的合成方法. CN201510869040.4.
[9] 实用新型专利:邢晓波,吴羽,何赛灵. 一种微纳光纤多环微腔的生物传感器. 专利号:201521141678.8.
[10] 实用新型专利:邢晓波,张俊优,何赛灵,谭春林. 基于氧化石墨烯的微纳光纤湿度和气体传感器及其检测装置. 专利号:201521143648.0
[11] 实用新型专利:邢晓波,张俊优,何赛灵,谭春林. 一种多路增压式湿度发生器. 专利号:201521143575.5.
[12] 实用新型专利:谭春林,张俊优,何赛灵,邢晓波. 一种饱和盐水平衡混合湿度发生器. 专利号:201521144125.8.
[13] 实用新型专利: 邢晓波,郑嘉鹏,周瑞雪,张俊优,何赛灵,杨剑鑫,史可樟. 基于微纳光纤的微流体镊子。专利号:201621437168.X.
实用新型专利:吴羽,邢晓波,黄文恺,何耀辉. 一种甲烷传感器检测传输系统. 专利号:CN201720240011.6.