论文发表-彭伟SPR课题组

2022年发表的文章

196. Xinran Wei, Rui Li, Yuzhang Liang*, Shuwen Chu, Xin Zhang, Yurui Fang, and Wei Peng, “Theoretical Design of Broadband Tunable Nanograting-Coupled Fiber-Optic Surface Plasmon Resonance for Advanced Sensing,” Journal of Lightwave Technology, doi: 10.1109/JLT.2022.3217050 (2022). (Early Access)

195. Rui Li, Xinran Wei, Yuzhang Liang*, Huixuan Gao, Svetlana Kurikina, and Wei Peng, “Electrically switchable capabilities of conductive polymers-based plasmonic nanodisk arrays,” Optics Express, 30(19) 33627-33638 (2022).

194. Xuhui Zhang, Xiaotong Li, Xinpu Zhang*, and Wei Peng, “Optics-mechanics synergistic fiber optic sensor for hydrogen detection,” Optics Express, 30(18), 32769-32782 (2022).

193. Huixuan Gao, Yuzhang Liang, Yuhang Huang, Hui Huang, and Wei Peng*, “Angle-invariant eye-friendly color filter capitalizing on multi-layer nano-resonator integrated with highly reflective/absorbing media,” Optics Express, 30(17), 31136-31146 (2022).

192. Ang Li, Zhenguo Jing*, Qiang Liu, Yueying Liu, Yang Cheung, Yang Zhang, Da-Peng Zhou, and Wei Peng, “IFOG based on rhombic optical path difference bias configuration for high-frequency angular vibration measurement,” IEEE Sensors Journal, 22(17), 16892-16897 (2022).

191. Shuwen Chu, Yuzhang Liang*, Huizhen Yuan, Li Yu, Qiang Liu, and Wei Peng, “Ultra-narrow linewidth coupling resonance in flexible plasmonic nanopillar array for enhanced biomolecule detection,” Advanced Materials Interfaces 9(27), 2201011 (2022).

190. Kaili Kuang, Qiao Wang*, Xiaomin Yuan, Li Yu, Yuzhang Liang, Yang Zhang, and Wei Peng, “Ultra-broadband perfect absorber using triple-layer nanofilm in long wave near-infrared regime,” Applied Optics.

189. Xuhui Zhang, Xinpu Zhang*, Xiaotong Li, Qiang Liu, Yang Zhang, Yuzhang Liang, Yun Liu, and Wei Peng, “The nanophotonic machinal cavity and its hydrogen sensing application,” Sensors and Actuators B: Chemical, 367, 132095 (2022).

188. Ying Zhao#, Qiang Liu#, Yang Cheung, Zhenguo Jing, and Wei Peng*, “Passive quadrature phase demodulation of a dual-cavity Fabry-Pérot ultrasound sensor,” IEEE Photonics Technology Letters, 34(14), 733-736 (2022).

187. Yueying Liu, Zhenguo Jing*, Qiang Liu, Ang Li, Wenwen Li, Sen Zhang, Ang Lee, Fu Tian, Rui Li, and Wei Peng, “Fiber-optic integrated aerodynamic three-hole vector probe for high-velocity flow field measurement,” iScience, 25(6), 104402 (2022).

186. Ming Lin, Mengdi Lu*, Yuzhang Liang, Li Yu, and Wei Peng, “Polyelectrolyte-enhanced localized surface plasmon resonance optical fiber sensors: Properties Interrogation and Bioapplication,” ACS Applied Nano Materials, 5(5), 6171-6180 (2022).

185. Xinpu Zhang*, Xiaotong Li, Xuhui Zhang, Ang Li, Yang Zhang, and Wei Peng, “Photothermal-assisted hydrogen permeation enhancement,” Sensors and Actuators B: Chemical, 365, 131935 (2022).

184. Xinpu Zhang, Xuhui Zhang, Yang Zhang, and Wei Peng*, “High-temperature resistant, all-fiber miniature interferometer,” Optik, 255, 168711 (2022).

183. Xinpu Zhang, Xuhui Zhang, Yang Zhang, and Wei Peng*, “In-fibre micro-channel: its potential for in-fibre detection,” Analyst, 147, 828-833 (2022).

182. Li Yu, Yuzhang Liang*, Huixuan Gao, Kaili Kuang, Qiao Wang, and Wei Peng, “Multi-resonant absorptions in asymmetric step-shaped plasmonic metamaterials for versatile sensing application scenarios,” Optics Express, 30(2), 2006-2017 (2022).

181. Xinyu Xu, Da-Peng Zhou*, and Wei Peng, “Spectral analysis of Brillouin dynamic gratings in polarization-maintaining fibers,” Applied Optics, 61(10), 2552-2557 (2022).

180. Yifan Duan, Yang Zhang*, Fang Wang, Yuting Sun, Ming Chen, Zhenguo Jing, Qiao Wang, Mengdi Lu, and Wei Peng, “4-Mercaptopyridine modified fiber optic plasmonic sensor for sub-nM mercury (II) detection,” Photonic Sensors, 12, 23-30 (2022).

179. Huixuan Gao, Yuzhang Liang*, Rui Li, Hui Huang, and Wei Peng*, “Eye-friendly reflective structural colors with shortwave infrared shielding”, Advanced Optical Materials, 150, 107940 (2022).

2021年发表的文章

178. Huixuan Gao, Yuzhang Liang*, Rui Li, Hui Huang and Wei Peng*, “Eye-friendly reflective structural colors with shortwave infrared shielding”, Advanced Optical Materials, 2101342, 2021. (第一标注)

177. Qiang Liu, Zhenguo Jing*, Yueying Liu, Ang Li, Zhenjie Xia, and Wei Peng*, “Absolute Measurement of Dynamic Low-Finesse Fabry–Perot Cavity Using Phase-Shifting White-Light Interferometry”, Journal of Lightwave Technology, 39(12), 3926-3931, 2021. (第一标注)

176. Qiang Liu, Ang Li, Yueying Liu, Zhenguo Jing, and Wei Peng*, “TWDM-Assisted Active Quadrature Demodulation of Fiber-Optic Fabry–Perot Acoustic Sensor Network”, Journal of Lightwave Technology, 39(12), 3991-3997, 2021. (第一标注)

175. Huizhen Yuan†, Guangyi Sun†, Wei Peng*, Wei Ji*, Shuwen Chu, Qiang Liu, Yuzhang Liang, “Thymine-Functionalized Gold Nanoparticles (Au NPs) for a Highly Sensitive Fiber-Optic Surface Plasmon Resonance Mercury Ion Nanosensor”, Nanomaterials, 11(2), 397, 2021. (第一标注)

174. Qiang Liu, Zhenguo Jing, Ang Li, Yueying Liu, Zhenjie Xia, and Wei Peng*, “Simultaneous Measurement of Vibration and Temperature Using Frequency-Scanned Parallel Phase-Shifting Interferometry”, Journal of Lightwave Technology, 39(12), 4094-4100, 2021. (第一标注)

173. Qiang Liu†, Shimin Li†, Dapeng Zhou*, Zhenguo Jing, and Wei Peng*, “Compressed-sensing fiber-optic white light interferometry”, Optics Letters, 46(19), 4944-4947, 2021. (第一标注)

172. Ang Li, Zhenguo Jing*, Qiang Liu, Yueying Liu, Yang Cheung, Zhiyuan Huang, Da-Peng Zhou, and Wei Peng, “Rhombic optical path difference bias white light interferometric fiber-optic gyroscope,” Optics Letters, 46(7), 1502-1505, 2021. (第一标注)

171. Xuhui Zhang, Xinpu Zhang*, Yang Zhang, Yun Liu, and Wei Peng, “Carbon Nanotubes/Graphene Oxide Composite Applications in Fiber RH Sensor”, IEEE Transactions on Insreumentation and Measurement, 70, 1-8, 2021. (第三标注)

170. Yueying Liu, Zhenguo Jing*, Qiang Liu, Ang Li, Ang Lee, Yang Cheung, Yang Zhang, and Wei Peng, “All-silica fiber-optic temperature-depth-salinity sensor based on cascaded EFPIs and FBG for deep sea exploration”, Optics Express, 29(15), 23953-23966, 2021. (第一标注)

169. Li Yu, Yuzhang Liang*, Shuwen Chu, HuixuanGao, Qiao Wang, and Wei Peng*, “Freestanding bilayer plasmonic waveguide coupling mechanism for ultranarrow electromagnetic‑induced transparency band generation”, Scientifc Reports, 11, 1437, 2021. (第二标注)

168. Fang Wang, Yang Zhang*, Mengdi Lu, Yunting Du, Ming Chen, Shan Meng, Wei Ji, Changsen Sun, Wei Peng*, “Near-infrared band Gold nanoparticles-Au film “hot spot” model based label-free ultratrace lead (II) ions detection via fiber SPR DNAzyme biosensor”, Sensors and Actuators B: Chemical, 337, 129816, 2021. (第二标注)

167. Fang Wang, Bowen Wang, Xuhui Zhang, Mengdi Lu, Yang Zhang*, Changsen Sun, Wei Peng, “High sensitivity humidity detection based on functional GO / MWCNTs hybrid nano-materials coated titled fiber Bragg grating”, Nanomaterials, 11(5), 1134, 2021. (第一标注)

166. Fang Wang, Yifan Duan, Mengdi Lu, Yang Zhang*, Zhenguo Jing, Changsen Sun, Wei Peng, “Fiber-optic hot-wire anemometer with directional response based on symmetry-breaking induced heat transfer mechanism”, Journal of Lightwave Technology, 39(12), 3919-3925, 2021. (第二标注)

165. Yifan Duan†, Fang Wang†, Xinpu Zhang, Qiang Liu, Mengdi Lu, Wei Ji, Yang Zhang*, Zhenguo Jing, and Wei Peng, “TFBG-SPR DNA-biosensor for Renewable Ultra-trace Detection of Mercury Ions,” Journal of Lightwave Technology, 39(12), 3903-3910, 2021. (第二标注)

164. Jianye Guang, Mengdi Lu*, Qiang Liu, Zigeng Liu, Huizhen Yuan, Yun Liu, Shuwen Chu, and Wei Peng*, “Highly sensitive and selective VOC vapor optical fiber sensor using hierarchical nanostructures of butterfly wing scales,” Journal of Lightwave Technology, 39(12), 4186-4192, 2021. (第二标注)

163. Hongchen Chen, Changyu Shen*, Xiaoman Chen, zhenlin Huang, Zhihao Wang, Yueming Zhang, “High-sensitivity optical fiber hydrogen sensor based on the metal organic frameworks of UiO-66-NH2,” Optics Letters, 46(21), 5405-5408, 2021. (第二标注)

162. Huitong Deng, Xiaoman Chen, Zhenlin Huang, Shiqi Kang, Weijia Zhang, Hongliang Li, Fangzhou Shu, Tingting Lang, Chunliu Zhao, Changyu Shen*, “Optical Fiber Based Mach-Zehnder Interferometer for APES Detection,” Sensors, 21(17), 5870, 2021. (第二标注)

161. Lifeng Bao, Xinyong Dong*, Perry Ping Shum, Changyu Shen, “High sensitivity liquid level sensor based on a hollow core fiber structure,” Optics Communications, 499, 127279, 2021. (第四标注)

160. Tianliang Wang, Yi Li*, Jinchao Tao, Xu Wang, Yanqing Qiu, Bangning Mao, Miaogen Chen, Yanlong Meng, Chunliu Zhao, Juan Kang, Yong Guo, Changyu Shen, “Deep-learning-assisted fiber Bragg grating interrogation by random speckles,” Optics Letters, 46(22), 5711-5714, 2021. (第五标注)

159. Shuo Chang, Yameng Zheng, Zhaokun Wang*, Changyu Shen, “Raman-scattering-assistant large energy dissipative soliton and multicolor coherent noise-like pulse complex in an Yb-doped fiber laser,” Optics Letters, 46(22), 5695-5698, 2021. (第一标注)

158. Jing Yang, Yi Li*, Yanqing Qiu, Bangning Mao, Yanlong Meng, Chunliu Zhao, Juan Kang, Changyu Shen, Miaogeng Chen, Yong Guo, “Variable-fiber optical power splitter design based on a triangular prism,” Applied Optics, 60(30), 9390-9395, 2021. (第五标注)

157. Xinyu Gao, Yi Li*, Yanqing Qiu, Bangning Mao, Miaogen Chen, Yanlong Meng, Chunliu Zhao, Juan Kang, Yong Guo, Changyu Shen, “Improvement of image classification by multiple optical scattering,” IEEE Photonics Journal, 13(5): 8500105, 2021. (第五标注)

156. Yanting Zhu, Chenxia Li*, Degang Deng*, Bowen Chen, Hua Yu, Hao Li, Le Wang, Changyu Shen, Xufeng Jing, Shiqing Xu, “A high-sensitivity dual-mode optical thermometry based on one-step synthesis of Mn2+: BaAl12O19-Mn4+: SrAl12O19 solid solution phosphors,” Journal of Alloys and Compounds, 853, 157262, 2021. (第七标注)

155. Dejun Liu, Wei Li, Qiang Wu, Fengzi Ling, Ke Tian, Changyu Shen, Fangfang Wei, Gerald Farrell, Yuliya Semenova, Pengfei Wang*, “Strain-, curvature-and twist-independent temperature sensor based on a small air core hollow core fiber structure,” Optics Express, 2021, 29(17), 26353-26365. (第六标注)

154. Dejun Liu, Wei Li, Qiang Wu, Haoyu Zhao, Fengzi Ling, Ke Tian, Changyu Shen, Wei Han, Fangfang Wei, Gerald Farrell, Yuliya Semenova, Pengfei Wang*, “High sensitivity liquid level sensor for microfluidic applications using a hollow core fiber structure,” Sensors and Actuators A: Physical, 332, 113134, 2021. (第七标注)

2020年发表的文章

153. Shimeng Chen, Chuan Liu, Yun Liu*, Qiang Liu, Mengdi Lu, Sheng Bi, Zhenguo Jing, Qingxu Yu and Wei Peng*,“Label-Free Near-Infrared Plasmonic Sensing Technique for DNA Detection at Ultralow Concentrations”, Advanced Science, 2000763, 2020. (IF:15.84)

152. Mengdi Lu, Hu Zhu, Long Hong, Jijun Zhao, Jean-Francois Masson*, and Wei Peng*, “Wavelength-Tunable Optical Fiber Localized Surface Plasmon Resonance Biosensor via a Diblock Copolymer-Templated Nanorod Monolayer”, ACS Applied Materials & Interfaces, 12(45), 50929-50940, 2020. (IF:8.758)

151. Mengdi Lu, Hu Zhu, Ming Lin, Fang Wang, Long Hong, Jean-Francois Masson*, and Wei Peng*, “Comparative study of block copolymer-templated localized surface plasmon resonance optical fiber biosensors: CTAB or citrate-stabilized gold nanorods”, Sensors and Actuators: B. Chemical, 2020 (Accepted). (IF:7.1)

150. Yuan Huizhen, Ji Wei*, Chu Sshuwen, Liu Qiang, Guang Jianye, Sun Guangyi, Zhang Yang, Han Xiuyou, Masson JF, Peng Wei*, “Au nanoparticles as label-free competitive reporters for sensitivity enhanced fiber-optic SPR heparin sensor”, Biosens& Bioelectron, 154, 112039, 2020. (IF:10.257)

149. Shimeng Chen, Yun Liu*, QingxuYu and Wei Peng*, “Self-referencing SPR Biosensing with an Ultralow Limit-of-detection using Long-wavelength Excitation”, Sensors and Actuators B: Chemical, 327(15), 128935, 2020. (IF:7.1)

148. Shimeng Chen, Yun Liu*, QingxuYu and Wei Peng*, “Microcapillary-Based Integrated LSPR Device for Refractive Index Detection and Biosensing”, Journal of Lightwave Technology, 38(8): 2485-2492, 2020. (IF:4.288) )

147. Fang Wang, Yifan Duan, Mengdi Lu, Yang Zhang*, Zhenguo Jing, Changsen Sun, Wei Peng, “Linear-response and simple hot-wire fiber-optic anemometer using high-order cladding mode”, Optics Express, 8(18), 27028-27036, 2020. (IF:3.669)

146. Fang Wang, Yifan Duan, Mengdi Lu, Yang Zhang*, Zhenguo Jing, Changsen Sun, Wei Peng, “Fiber-optic hot-wire anemometer with directional response based on symmetry-breaking induced heat transfer mechanism”, Journal of Lightwave Technology, 2020 (online). (IF:4.288)

145. Shuwen Chu, Qiao Wang*, Li Yu, Huixuan Gao, Yuzhang Liang and Wei Peng*, “Numerical Investigation on Multiple Resonant Modes of Double-Layer Plasmonic Grooves for Sensing Application”, Nanomaterials, 10(2), 308, 2020. (IF:4.324)

144. Shuwen Chu, Yuzhang Liang*, Huizhen Yuan, Li Yu, Huixuan Gao, Qiao Wang and Wei Peng*, “Plasmonic hybridization generation in self-aligned disk/hole nanocavities for multi-resonance sensing”, Optics Express, 28(24), 36455-36465, 2020. (IF:3.669)

143. Qiang Liu, Zhenguo Jing*, Yueying Liu, Ang Li, Zhenjie Xia, and Wei Peng*, “Absolute Measurement of Dynamic Low-Finesse Fabry-Perot Cavity Using Phase-Shifting White-Light Interferometry”, Journal of Lightwave Technology, 2020 (Accepted). (IF:4.288)

142. Qiang Liu, Zhenguo Jing*, Zhenjie Xia, Zhuiyuan Huang, and Wei Peng*, “Fiber-Optic Ultrasonic Sensing via Quasi-Continuous Quadrature Frequency Modulation,” IEEE Photonics Technology Letters, 32(21), 1385-1388, 2020. (IF:2.451)

141. Yueying Liu, Zhenguo Jing*, Rui Li*, Yang Zhang, Qiang Liu, Ang Li, Chao Zhang, and Wei Peng, “Miniature fiber-optic tip pressure sensor assembled by hydroxide catalysis bonding technology,” Optics Express, 28, 948-958, 2020. (IF:3.669)

140. Yueying Liu, Zhenguo Jing*, Qiang Liu, Ang Li, Chang-an Teng, Yang Cheung, Ang Lee, Fu Tian, and Wei Peng, “Differential-pressure fiber-optic airflow sensor for wind tunnel testing,” Optics Express, 28, 25101-25113, 2020. (IF:3.669)

139. Ang Li, Zhenguo Jing, Yueying Liu, Qiang Liu, Zhiyuan Huang, Yang Cheung, Yang Zhang, Ming Han, and Wei Peng. “Quadrature Operating Point Stabilizing Technique for Fiber-Optic Fabry-Perot Sensors Using Vernier-Tuned Distributed Bragg Reflectors Laser,” IEEE Sensors Journal, 21(2), 2020.(IF: 3.073)

138. Huixuan Gao, Wei Peng*, Yuzhang Liang, Shuwen Chu, Li Yu, Zhi Liu, Yue Zhang, “Plasmonic Broadband Perf ect Absorber for Visible Light Solar Cells Application,” Plasmonics, 15, 573-580, 2020. (IF:2.335)

137. Yifan Duan, Fang Wang, Xinpu Zhang, Qiang Liu, Mengdi Lu, Wei Ji, Yang Zhang*, Zhenguo Jing, and Wei Peng, “TFBG-SPR DNA-biosensor for Renewable Ultra-trace Detection of Mercury Ions,” Journal of Lightwave Technology, 2020 (online). (IF:4.288)

136. Jianye Guang, Mengdi Lu*, Qiang Liu, Zigeng Liu, Huizhen Yuan, Yun Liu, Shuwen Chu, and Wei Peng*, "Highly sensitive and selective VOC vapor optical fiber sensor using hierarchical nanostructures of butterfly wing scales," Journal of Lightwave Technology, 2020 (online). (IF:4.288)

135. 刘强, 荆振国*，李昂，黄致远，彭伟*. 调制光栅Y分支激光器准连续调谐特性. 中国激光, 2020, 47(12): 1206004.

134. Zhenfeng Gong, Yewei Chen, Tianli Gao, Ke Chen*, Yexiang Jiao, Min Guo, Bo Zhang, Shuai Liu, Liang Mei, Wei Peng, Qingxu Yu, “Parylene-C diaphragm-based low-frequency photoacoustic sensor for space-limited trace gas detection”, Optics and Lasers in Engineering, 134, 106288, 2020. (IF:4.273)

133. Ke Chen, Hong Deng, Min Guo, Chen Luo, Shuai Liu, Bo Zhang, Fengxiang Ma, Feng Zhu, Zhenfeng Gong, Wei Peng and Qingxu Yu, “Tube-cantilever double resonance enhanced fiber-optic photoacoustic spectrometer,” Optics and Laser Technology, 123, 105894, 2020. (IF:3.233)

132. Ke Chen, Beilei Yang, Min Guo, Hong Deng, Bo Zhang, Shuai Liu, Chenyang Li, Ran An, Wei Peng, and Qingxu Yu, “Fiber-optic photoacoustic gas sensor with temperature self-compensation”, Optics Letters, 45, 2458-61, 2020. (IF:3.714)

131. Ke Chen, Beilei Yang, Hong Deng, Min Guo, Bo Zhang, Yang Yang, Shuai Liu, Yaming Zhao, Wei Peng, and Qingxu Yu, “Simultaneous measurement of acoustic pressure and temperature using a Fabry-Perot interferometric fiber-optic cantilever sensor”, Optics Express, 28, 15050-15061, 2020.(IF:3.669)

130. Ke Chen, Bo Zhang, Min Guo, Hong Deng, Beilei Yang, Zhenfeng Gong, Wei Peng, and Qingxu Yu, “All-Optical Photoacoustic Multigas Analyzer Using Digital Fiber-Optic Acoustic Detector”, IEEE Transactions on Instrumentation and Measurement, 69(10), 8486-8493, 2020.(IF:3.658)

129. Bo Zhang, Ke Chen, Yewei Chen, Beilei Yang, Min Guo, Hong Deng, Fengxiang Ma, Feng Zhu, Zhenfeng Gong, Wei Peng, and Qingxu Yu. “High-sensitivity photoacoustic gas detector by employing multi-pass cell and fiber-optic microphone”, Optics Express, 28(5), 6618-6630, 2020.(IF:3.669)

128. Zhenfeng Gong, Tianli Gao, Yewei Chen, Bo Zhang, Wei Peng, QingxuYu, Fengxiang Ma, Liang Mei, Ke Chen. “Sub-ppb level detection of nitrogen dioxide based on an optimized H-type longitudinal acoustic resonator and a lock-in white-light interferometry demodulation algorithm”, Journal of Quantitative Spectroscopy and Radiative Transfer, 253, 107136, 2020. (IF:3.047)

127. D. P. Zhou et al., “Performance enhancement of Brillouin sensing systems based on compressive sampling,” OSA Continuum 3, 3116-3124, 2020.

126. D. Shu et al., “Signal-to-noise ratio analysis of computational distributed fiber-optic sensing,” Optics Express, 28, 9563-9571, 2020. (IF:3.669)

125. XingWang, FuanWang, Liping Qi, Ran Guo, Biao Li, Da Chen, Helin Zou, "Orientation transition, dielectric, and ferroelectric behaviors of sol-gel derived PZT thin films deposited on Ti-Pt alloy layers: A Ti content-dependent study," Ceramics International, 46(8), 10256-10261, 2020. (IF:3.83)

124. Wang, X; Qi, LP; Wang, LC; Ding, F; Li, B; Chen, D; Zou, HL. Enhancements of the electrical properties in Pb-1.25(Zr-0.(52),Ti-0.48)O-3/Pb-1.1(Zr-0(.52),Ti-0(.48))O-3 ferroelectric multilayered thin films, Materials Chemistry and Physics 241, 122396, 2020. (IF:3.408)

123. Mengdan Chen, Tingting Lang, Bobo Cao, Yuzhen Yu, Changyu Shen. " D-type optical fiber immunoglobulin G sensor based on surface plasmon resonance ", Optics and laser Technology, 131, 106445, 2020.(IF:3.233)

122. Chenia Li , Bowen Chen, Degang Deng, MingWu, HuaYu, Hao Li, Changyu Shen, Le Wang, Shiqing Xu, "Ratiometric optical thermometer with high-sensitive temperature sensing based on synergetic luminescence of Ce3+-Eu2+ in LiSr4(BO3)3 phosphors", Journal of Alloys and Compounds, 838(15), 155675, 2020. (IF:4.65)

121. Dejun Liu, Wei Li, Qiang Wu el. "Negative Curvature Hollow Core Fiber Based All-Fiber Interferometer and Its Sensing Applications to Temperature and Strain", Sensors, 20(17), 4763, 2020. (IF:3.275)

120. Tingting Lang, Tingting Shen, Gangqi Wang, and Changyu Shen, "Tunable broadband all-silicon terahertz absorber based on a simple metamaterial structure,"Applied Optics, 59, 6265-6270, 2020. (IF:1.961)

119. Bang Ning Mao, Wen Wei Chen, Chun Liu Zhao, Yan Shi, Chang Yu Shen, and Shang Zhong Jin, "Reflective temperature sensor based on a fiber Bragg grating combined with a fiber loop ringdown technique," Applied Optics, 59, 5693-5696 (2020) (IF:1.961)

118. Changyu Shen, Dejun Liu, Xiaokang Lian, Tingting Lang, Chunliu Zhao, Yuliya Semenova, and Jacques Albert, "Microfluidic flow direction and rate vector sensor based on a partially gold-coated TFBG," Optics Letters, 45, 2776-2779 (2020) (IF:3.714)

117. Chenxia Li, Bowen Chen, Degang Deng, HuaYu, HaoLi, Changyu Shen, Le Wang, Shiqing Xua, "A ratiometric optical thermometer with tunable sensitivity and superior signal discriminability based on Eu2+/Eu3+ co-doped La1-yGdyAlO3 phosphors," Journal of Luminescence, 221, 117036, 2020. (IF:3.28)

116. Jinfeng Wang, Tingting Lang*, Tingting Shen, Changyu Shen, Zhi Hong, Congcong Lu, "Numerical Study of an Ultra-Broadband All-Silicon Terahertz Absorber", Applied Sciences, 10(2), 436, 2020. (IF:2.474)

2019年发表的文章

115.Huizhen Yuan, Wei Ji*, Shuwen Chu, Qiang Liu, Siyu Qian, Jianye Guang, Jiabin Wang, Xiuyou Han, Jean-Francois Masson, and Wei Peng*, Mercaptopyridine-Functionalized Gold Nanoparticles for Fiber-Optic Surface Plasmon Resonance Hg2+ Sensing[J]. ACS Sensors, 2019, 4(3): 704-710.

114.Yun Liu, Ping Li, Ning Zhang, and Xiaoyong Li. "A low-cost and compact fiber-optic sensor based on modal interference for humidity sensing." In Advances in Optoelectronic Technology and Industry Development: Proceedings of the 12th International Symposium on Photonics and Optoelectronics (SOPO 2019), August 17-19, 2019, Xi'an, China, p. 197. CRC Press, 2019.

113.Mengdi Lu, Hu Zhu, C. Geraldine Bazuin, Wei Peng*, and Jean-Francois Masson*. Polymer-Templated Gold Nanoparticles on Optical Fibers for Enhanced-Sensitivity Localized Surface Plasmon Resonance Biosensors[J]. ACS Sensors, 2019, 4(3): 613-622.

112.Qiang Liu, Zhenguo Jing*, Yueying Liu, Ang Li, Yang Zhang, Zhiyuan Huang, Ming Han and Wei Peng*. Quadrature phase-stabilized three-wavelength interrogation of a fiber-optic Fabry-Perot acoustic sensor.[J]. Optics Letters, 2019, 44(22).

111.Qiang Liu, Zhenguo Jing*, Ang Li, Yueying Liu, Zhiyuan Huang, Yang Zhang and Wei Peng*.Common-path dual-wavelength quadrature phase demodulation of EFPI sensors using a broadly tunable MG-Y laser[J]. Optics Express, 2019, 27(20): 27873-27881.

110.Zigeng Liu, Fang Wang, Yang Zhang, Zhenguo Jing, and Wei Peng*. Low-Power-Consumption Fiber-Optic Anemometer Based on Lon

g-Period Grating With SWCNT Coating[J]. IEEE Sensors Journal, 2019, 19(7): 2592-2597.

109.Zigeng Liu, Guigen Liu, Qiwen Sheng, Zhenguo Jing, Ming Han, and Wei Peng*. Fiber-Optic Current Sensor Based on Ohmic Heating of Tin Sphere With Embedded Silicon Fabry–Perot Interferometer[J]. Journal of Lightwave Technology, 2019, 37(10): 2165-2171.

108.Zigeng Liu, Guigen Liu, Yupeng Zhu, Qiwen Sheng, Xin Wang, Yun Liu, Zhenguo Jing, Wei Peng*, and Ming Han. Unambiguous Peak Identification of a Silicon Fabry-Perot Temperature Sensor Assisted With an In-Line Fiber Bragg Grating[J]. Journal of Lightwave Technology, 2019, 37(17): 4210-4215.

107.Huixuan Gao, Wei Peng*, Yuzhang Liang, Shuwen Chu, Li Yu, Zhi Liu, Yue Zhang. Plasmonic Broadband Perf

ect Absorber for Visible Light Solar Cells Application[J].已接收

106.Huixuan Gao, Wei Peng∗, Wenli Cui, Shuwen Chu, Li Yu, Xiong Yang. Ultraviolet to near infrared titanium nitride broadband plasmonic absorber[J]. Optical Materials, 2019, 97,109377.

105.Huixuan Gao, Dapeng Zhou, Wenli Cui, Zhi Liu, Yun Liu, Zhenguo Jing , and Wei Peng*. Ultraviolet broadband plasmonic absorber with dual visible and near-infrared narrow bands[J]. Journal of The Optical Society of America A-optics Image Science and Vision, 2019, 36(2): 264-269.

104.Wenli Cui, Wei Peng*, Li Yu, Xiaolin Luo, Huixuan Gao, Shuwen Chu and Jean-Francois Masson. Hybrid Nanodisk Film for Ultra-Narrowband Filtering, Near-Perfect Absorption and Wide Range Sensing[J]. Nanomaterials, 2019, 9(3).

103.Qiao Wang, Shuwen Chu, Li Yu, Huixuan Gao and Wei Peng *. Near-Field Enhancement and Polarization Selection of a Nano-System for He-Ne Laser Application[J]. Nanomaterials, 2019, 9(10).

102.Qiao Wang, Li Yu, Huixuan Gao, Shuwen Chu and Wei Peng *. Electromagnetically induced transparency in an all-dielectric nano-metamaterial for slow light application[J]. Optics Express, 2019, 27(24): 35012-35026.

101.Dapeng Zhou*, Wei Peng, Liang Chen, Xiaoyi Bao. Computational distributed fiber-optic sensing[J]. Optics Express, 2019, 27(12): 17069-17079.

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100.Yun Liu, Jianye Guang, Chuan Liu, Sheng Bi, Qiang Liu, Ping Li, Ning Zhang et al. Simple and Low-Cost Plasmonic Fiber-Optic Probe as SERS and Biosensing Platform[J]. Advanced Optical Materials, 2019, 7(19).

99.Yun Liu, Ning Zhang, Ping Li, Sheng Bi, Xuhui Zhang, Shimeng Chen, and Wei Peng. Nanopatterned evanescent-field fiber-optic interferometer as a versatile platform for gas sensing[J]. Sensors and Actuators B: Chemical 2019, 301(12), 127136.

98.Yun Liu*, Ning Zhang, Ping Li, Li Yu, Shimeng Chen, Yang Zhang, Zhenguo Jing, and Wei Peng. Low-Cost Localized Surface Plasmon Resonance Biosensing Platform with a Response Enhancement for Protein Detection. Nanomaterials, 2019, 9(7).

97.Yun Liu, Ping Li, Ning Zhang, Shimeng Chen, Zigeng Liu, and Jianye Guang. A compact biosensor for binding kinetics analysis of protein-protein interaction. IEEE Sensors Journal, 2019, 1-1.

96.Yun Liu, Ping Li, Ning Zhang, Xuhui Zhang, Shimeng Chen, Zigeng Liu, Jianye Guang, and Wei Peng. Fiber-optic evanescent field humidity sensor based on a micro-capillary coated with graphene oxide. Optical Materials Express 2019, 9(11), 4418-4428.

2018年及之前发表的文章

95. Huizhen Yuan, Wei Ji*, Shuwen Chu, Siyu Qian, Fang Wang, Jean-Francois Masson, Xiuyou Han and Wei Peng*. “Fiber-Optic Surface Plasmon Resonance Glucose Sensor Enhanced with Phenylboronic Acid Modified Au Nanoparticles.” Biosensors and Bioelectronics, 117, 637-643, (2018). (SCI检索，IF: 8.173)

94. Huixuan Gao, Wei Peng*, Shuwen Chu, Wenli Cui, Zhi Liu, Li Yu and Zhenguo Jing. “Refractory Ultra-Broadband Perfect Absorber from Visible to Near-Infrared.”, Nanomaterials (2018). (SCI检索，IF: 3.504, 在线出版)

93. Changyu Shen*, Xiaokang Lian, Vishnu Kavungal, Chuan Zhong, Dejun Liu, Yuliya Semenova, Gerald Farrell, Jacques Albert, and John F. Donegan, “Optical spectral sweep comb liquid flow rate sensor.” Optics Letters, 43, 751-754 (2018) (SCI检索，IF: 3.589)

92. Changyu Shen*, Chuan Zhong, Dejun Liu, Xiaokang Lian, Jianyao Zheng, Jingjing Wang, Yuliya Semenova, Gerald Farrell, Jacques Albert, and John F. Donegan, “Measurements of milli Newton surface tension forces with tilted fiber Bragg gratings”, Optics Letters, 43, 255-258 (2018) (SCI检索，IF: 3.589)

91. Yingfang Zheng, Tingting Lang*, Tingting Shen, Changyu Shen, “Simple immunoglobulin G sensor based on thin core single-mode fiber”, Optical Fiber Technology, 41, 104-108 (2018) (SCI检索，IF: 1.350)

90. Weimin Lou, Fengying Shentu, Youqing Wang, Changyu Shen*, Xinyong Dong, “Transverse load sensor based on Mach-Zehnder interferometer constructed by a bowknot type taper.” Optical Fiber Technology, 40:52-55(2018) (SCI检索，IF: 1.350)

89. Jun Huang*, Shenneng Huang, Changyu Shen, Yongxing Jin, “Simultaneous bending-curvature and temperature measurements based on a fiber Bragg grating and a Mach-Zehnder interferometer.” Optical Engineering, 57(2), 020501 (2018). (SCI检索，IF: 0.993)

88. Jie Hu, Tingting Lang, Zhi Hong, Changyu Shen* and Guohua Shi, “Comparison of Electromagnetically Induced Transparency Performance in Metallic and All-Dielectric Metamaterials.”, Journal of Lightwave Technology, 36(11):2083-2093(2018). (SCI检索，IF: 3.652)

87. Zexu Liu, Changyu Shen*, Yike Xiao, Jiaqi Gong, Jianfeng Wang, Tingting Lang, Chunliu Zhao, Changqing Huang, Yongxing Jin, Xinyong Dong, Yang Zhang, Zhenguo Jing, Wei Peng, and Yuliya Semenova. “Liquid Surface Tension and Refractive Index sensor based on a Tilted Fiber Bragg Grating.”, Journal of the Optical Society of America B, 35(6):1282-1287(2018). (SCI检索，IF: 2.048)

86. Lifeng Bao, Xinyong Dong, Perry Ping Shum, Changyu Shen*, “Compact Temperature Sensor with Highly Germania-doped Fiber-based Michelson Interferometer.”, IEEE Sensors Journal, 18(19) 8017-8021(2018). (SCI检索，IF: 2.698)

85. Lifeng Bao, Xinyong Dong, Shuqin Zhang, Changyu Shen* and Perry Ping Shum, “Magnetic Field Sensor Based on Magnetic Fluid-infiltrated Phase-Shifted Fiber Bragg Grating.”, IEEE Sensors Journal,18(10),4008-4012(2018).(SCI检索，IF: 2.698)

84. Weimin Lou, Changyu Shen, Zhouhong Zhu, Zexu Liu, Fengying Shentu, Weixin Xu, Tingting Lang*, Yang Zhang, Zhenguo Jing, and Wei Peng, “Equipment Based on Low-Frequency Electromagnetic Technique in 20# Steel Plat.”, IEEE Sensors Journal, 18(16),6540-6546(2018). (SCI检索，IF: 2.698)

83. Mengru Wu, Tingting Lang*, Changyu Shen*, Guohua Shi & Zhanghua Han, “THz wavefront manipulation based on metal waveguides”, Journal of Modern Optics, 65:12,1416-1423(2018). (SCI检索，IF: 1.269)

82. Zhiqiang Sun, Zexu Liu, Yike Xiao, Jiaqi Gong, Shaojie Shuai, Tingting Lang, Chunliu Zhao, Changyu Shen*, “ Thermal stability of optical fiber metal organic framework based on graphene oxide and nickel and its hydrogen adsorption application.”, Optics Express, 26(4)，31648-31656，(2018). (SCI检索，IF: 3.356)

81. Zexu Liu, Changyu Shen*, Yike Xiao, Jiaqi Gong, Youqing Wang, TingTing Lang, Yang Zhang, Weixin Xu, Tianhu Zhang, Zhenguo Jing, Yongxin Jin and Wei Peng, “Sensitivity-enhanced strain sensor based on thin-core fiber modal interferometer interacted with tilted fiber Bragg grating.”, IEEE Sensors Journal (2018). (SCI检索，IF: 2.698, 在线出版)

80.Mengdi Lu, Long Hong, Yuzhang Liang, Benjamin Charron, Hu Zhu, Wei Peng*, and Jean-Francois Masson*, “Enhancement of Gold Nanoparticle Coupling with a 2D Plasmonic Crystal at High Incidence Angles.” Analytical Chemistry, 90 (11), 6683-6692, 2018. (SCI检索，IF: 6.042)

79.S. Qian, M. Lin, W. Ji, H. Yuan, Y. Zhang, Z. Jing, J Zhao, JF Masson and W. Peng*, “Boronic Acid Functionalized Au Nanoparticles for Selective MicroRNA Signal Amplification in Fiber-Optic Surface Plasmon Resonance Sensing System.” ACS Sensors, 3(5), 929-935, 2018. (SCI检索, IF: 5.711)

78.Siyu Qian, Yang Zhang, Huizhen Yuan, Wei Ji, Yun Liu, Jianzhang Zhao, Ming Han, and Wei Peng*, “Boronic acid functionalized fiber-optic SPR sensors for high sensitivity glycoprotein detection.” Sensors and Actuators B: Chemical, 260, 976-982, 2018. (SCI检索, IF: 5.667)

77.Da-Peng Zhou, Wei Peng, Liang Chen, and Xiaoyi Bao, “Brillouin optical time-domain analysis via compressed sensing.” Optics Letters, 43(22), 5496-5499, (2018). (SCI检索, IF: 3.589)

76.Qiang Liu, Yun Liu, Huizhen Yuan, Fang Wang and Wei Peng* “A smartphone based red-green dual color fiber optic surface plasmon resonance sensor.” IEEE Photonics Technology Letters, published Online, 30(10), 927-930, (2018). (SCI检索，IF: 2.375)

75.Qiang Liu, Huizhen Yuan, Yun Liu, Jiabin Wang, Zhenguo Jing* and Wei Peng*. “Real-time biodetection using a smartphone-based dual-color surface plasmon resonance sensor.” Journal of Biomedical Optics, 23(4), 047003, (2018). (SCI检索，IF: 2.367)

74.W. Cui, Y. Liang, Q. Wang, Y. Liu, L. Li, M. Lu, et al., "Dual-channel narrowband polarization absorber with high field enhancement and refractive index sensitivity based on a nanorod array," Journal of the Optical Society of America B, vol. 35, pp. 237-243, 2018/02/01 2018.

73.H. Yuan, W. Ji, S. Chu, S. Qian, F. Wang, J.-F. Masson, et al., "Fiber-optic surface plasmon resonance glucose sensor enhanced with phenylboronic acid modified Au nanoparticles," Biosensors and Bioelectronics, vol. 117, pp. 637-643, 2018/10/15/ 2018.

72.Q. Liu, Y. Liu, H. Yuan, F. Wang, and W. Peng, "A Smartphone-Based Red–Green Dual Color Fiber Optic Surface Plasmon Resonance Sensor," IEEE Photonics Technology Letters, vol. 30, pp. 927-930, 2018.

71.Q. Liu, H. Yuan, Y. Liu, J. Wang, Z. Jing, and W. Peng, "Real-time biodetection using a smartphone-based dual-color surface plasmon resonance sensor," 2018, p.

70.M. Lu, L. Hong, Y. Liang, B. Charron, H. Zhu, W. Peng, et al., "Enhancement of Gold Nanoparticle Coupling with a 2D Plasmonic Crystal at High Incidence Angles," Analytical Chemistry, vol. 90, pp. 6683-6692, 2018/06/05 2018.

69.L. Hong, M. Lu, M.-P. Dinel, P. Blain, W. Peng, H. Gu, et al., "Hybridization conditions of oligonucleotide-capped gold nanoparticles for SPR sensing of microRNA," Biosensors and Bioelectronics, vol. 109, pp. 230-236, 2018/06/30/ 2018.

68.S. Qian, M. Lin, W. Ji, H. Yuan, Y. Zhang, Z. Jing, et al., "Boronic Acid Functionalized Au Nanoparticles for Selective MicroRNA Signal Amplification in Fiber-Optic Surface Plasmon Resonance Sensing System," ACS Sensors, vol. 3, pp. 929-935, 2018/05/25 2018.

67.S. Qian, Y. Zhang, H. Yuan, W. Ji, Y. Liu, J. Zhao, et al., "Boronic acid functionalized fiber-optic SPR sensors for high sensitivity glycoprotein detection," Sensors and Actuators B: Chemical, vol. 260, pp. 976-982, 2018/05/01/ 2018.

66.Y. Zhang, F. Wang, Z. Liu, Z. Duan, W. Cui, J. Han, et al., "Fiber-optic anemometer based on single-walled carbon nanotube coated tilted fiber Bragg grating," Optics Express, vol. 25, pp. 24521-24530, 2017/10/02 2017.

65.Y. Zhang, F. Wang, S. Qian, Z. Liu, Q. Wang, Y. Gu, et al., "A Novel Fiber Optic Surface Plasmon Resonance Biosensors with Special Boronic Acid Derivative to Detect Glycoprotein," Sensors, vol. 17, p. 2259, 2017.

64.Y. Zhang, F. Wang, Z. Duan, Z. Liu, Z. Liu, Z. Wu, et al., "A Novel Low-Power-Consumption All-Fiber-Optic Anemometer with Simple System Design," Sensors, vol. 17, p. 2107, 2017.

63.F. Wang, Y. Zhang, Z. Liu, S. Qian, Y. Gu, Z. Jing, et al., "Detection of glycoprotein using fiber optic surface plasmon resonance sensors with boronic acid," in 2017 25th Optical Fiber Sensors Conference (OFS), 2017, pp. 1-4.

62.F. Wang, Y. Zhang, Z. Duan, Z. Liu, J. Han, H. Yuan, et al., "Non-linear optical properties of carbon nanotube-coated optical fiber gratings," in Asia Communications and Photonics Conference, Guangzhou, Guangdong, 2017, p. Su2A.107.

61.M. Lu, Y. Liang, S. Qian, L. Li, Z. Jing, J.-F. Masson, et al., "Optimization of Surface Plasmon Resonance Biosensor with Ag/Au Multilayer Structure and Fiber-Optic Miniaturization," Plasmonics, vol. 12, pp. 663-673, June 01 2017.

60.W. Cui, S. Chu, L. Yu, Y. Liang, and W. Peng, "Extraordinary Optical Transmission Performances of Nanosandwiched Grating for Wideband Multi-Function Integration," Plasmonics, vol. 12, pp. 1281-1288, October 01 2017.

59.Z. Liu, D. Han, X. Zhang, Y. Liu, W. Peng, and Y. Wang, "Fiber Bragg grating-based temperature sensor for neutral gas in capacitively coupled plasmas," in SPIE/COS Photonics Asia, 2017, p. 6.

58.L. Yun, C. Shimeng, L. Zigeng, G. Jianye, and P. Wei, "Fiber-optic evanescent-field sensor for attitude measurement," Smart Materials and Structures, vol. 26, p. 115018, 2017.

57.Q. Liu, Y. Liu, S. Chen, F. Wang, and W. Peng, "A Low-Cost and Portable Dual-Channel Fiber Optic Surface Plasmon Resonance System," Sensors, vol. 17, 2017.

56.M. Lu, W. Peng, Q. Liu, Y. Liu, L. Li, Y. Liang, et al., "Dual channel multilayer-coated surface plasmon resonance sensor for dual refractive index range measurements," Optics Express, vol. 25, pp. 8563-8570, 2017/04/17 2017.

55.Mengdi Lu, Xinpu Zhang, Yuzhang Liang, Lixia Li, Jean-Francois Masson and Wei Peng*, “Liquid crystal filled surface plasmon resonance thermometer”, Optics Express, 24(10), (2016).

54.Lixia Li, Xinpu Zhang, Yuzhang based on a hybrid interrogation of intensity and wavelength modulation", Journal of Biomedical Optics, 21(12), 127001, (2016).

53.Lixia Li, Yuzhang Liang, Qiang Liu and Wei Peng*, "Dual-channel fiber-optic biosensor for self-compensated refractive index measurement", IEEE Photonics Technology Letters, 28(19), 2110-2113, 2016.

52.Mengdi Lu, Yuzhang Liang, Siyu Qian, Lixia Li, Zhengguo Jing, Jean-Francois Masson and Wei Peng*, "Optimization of Surface Plasmon Resonance Biosensor with Ag/Au Multilayer Structure and Fiber-Optic Miniaturization", Plasmonics, 1-11, 2016.

51.Shimeng Chen, Yun Liu, Qiang Liu, Zigeng Liu and Wei Peng*, “Self-reference Surface Plasmon Resonance Biosensor based on Multiple-beam Interference”, IEEE Sensors Joural, 16(21), 7568-7571, (2016).

50.Shimeng Chen, Yun Liu, Zigeng Liu and Wei Peng*, “Micro-capillary-based Self-referencing Surface Plasmon Resonance Biosensor for Determination of Transferrin”, Applied Optics, 55(33), 1-5, (2016).

49.Yun Liu, Xiuxin Liu, Shimeng Chen, Qiang Liu and Wei Peng*, “Investigation of capillary-based surface plasmon resonance sensor for biosensing”, IEEE Journal of Lightwave Technology, 34(16), 4036-4042, (2016).

48.Shimeng Chen, Yun Liu, Qiang Liu, and Wei Peng*, “Localized surface plasmon resonance-based micro-capillary biosensor”, IEEE Photonics Technology Letters, 28(20), 2195-2198, (2016).

47.Lixia Li, Yuzhang Liang, Mengdi Lu, and Wei Peng*, “Fano resonances in thin metallic grating for refractive index sensing with high figure of merit”,Plasmonics, 11(1), 139-149, (2016).

46.Zigeng Liu, Xinpu Zhang, Zhenfeng Gong, Yang Zhang, Wei Peng*, “Fiber Ring Laser Based Displacement Sensor”, IEEE Photonics Technology Letters, 28(16), 1723-1726, (2016).

45.Yuzhang Liang, Mengdi Lu, Shuwen Chu, Lixia Li and Wei Peng*, “Tunable plasmonic resonances in the hexagonal nanoarrays of annular aperture for biosensing”, Plasmonics, 11(1), 205-212, (2016).

44.Yun Liu, Qiang Liu, Shimeng Chen, Fang Cheng, Hanqi Wang, and Wei Peng*, “Surface Plasmon Resonance Biosensor Based on Smart Phone Platforms”, Scientific Reports, 5, 12864, (2015).

43.Xinpu Zhang, Wei Peng* and Yang Zhang, “Fiber Fabry–Perot interferometer with controllable temperature sensitivity”, Optics Letters, 40(23), 5658-5661 (2015).

42.Yuzhang Liang, Wei Peng*, Lixia Li, Siyu Qian, and Qiao Wang. “Tunable plasmonic resonances based on elliptical annular aperture arrays on conducting substrates for advanced biosensing”, Optics Letters, 40(16), 3909-3912 (2015).

41.Yuzhang Liang, Wei Peng*, Mengdi Lu, and Shuwen Chu. “Narrow-band wavelength tunable filter based on asymmetric double layer metallic grating”, Optics Express, 23(16): 14434-14445 (2015).

40.Xinpu Zhang and Wei Peng*, “Temperature-independent fiber salinity sensor based on Fabry-Perot interference”,Optics Express, 23(8), 10353-10358 (2015). 39.Xinpu Zhang and Wei Peng*, “Bent-fiber intermodal interference based dualchannel fiber optic refractometer”, Optics Express, 23(6), 7602-7610 (2015).

38.Siyu Qian, Yuzhang Liang, Jie Ma, Yang Zhang, Jianzhang Zhao, and Wei Peng*. “Boronic acid modified fiber optic SPR sensor and its application in saccharide detection”.Sensors and Actuators B: Chemical, 220, 1217-1223 (2015).

37. Xinpu Zhang and Wei Peng*, “Bent Fiber Interferometer”, Journal of Lightwave Technology, 33(15), 3351-3356 (2015).

36.Xinpu Zhang, LingxiaoXie, Yang Zhang, and Wei Peng*, “Optimization of long-period grating-based refractive index sensor by bent-fiber interference”, Applied Optics, 54(31), 9152-9156 (2015).

35.Yun Liu, Shimeng Chen, Qiang Liu, and Wei Peng*, “Micro-capillary-based evanescent field biosensor for sensitive, label-free DNA detection”, Optics Express, 23(16), 20686-20695 (2015).

34.Yun Liu, Shimeng Chen, Qiang Liu, Jean-Francois Masson, and Wei Peng*, “Compact multi-channel surface plasmon resonance sensor for real-time multi-analyte biosensing”, Optics Express, 23(16), 20540-20548 (2015).

33.Xiuxin Liu, Yun Liu, Qiang Liu, Xiaotong Gao, Wei Peng*, “Surface plasmon resonance biochemical sensor based on light guiding flexible fused silica capillary tubing”, Optics Communications, 356, 212-217 (2015).

32.Rui Hu, Yuzhang Liang, Siyu Qian, Wei Peng*, “Dual-band bandpass filter based on compound metallic grating waveguide structure”, Optics Communications, 336, 110-115 (2015).

31.Shimeng Chen, Yun Liu, Qiang Liu, and Wei Peng*,“Temperature-compensating fiber-optic surface plasmon resonance biosensor”,IEEE Photonics Technology Letters, 28(2), 213-216 (2015).

30.Xiuxin Liu, Xinpu Zhang, Yun Liu, Zigeng Liu, and Wei Peng*, “Multi-point fiber-optic refractive index sensor by using coreless fibers”, Optics Communications, 365, 168-172 (2015). 30.Xinpu Zhang, Wei Peng*,“Fiber optic refractometer based on leaky-mode interference of bent fiber”, IEEE Photonics Technology Letters, 27(1), 11-14 (2015).

29.Shimeng Chen, Yun Liu,Qiang Liu, and Wei Peng*, “Self-Compensating DisplacementSensor Based on HydramaticStructured Transducer and FiberBragg Grating”, Photonic Sensors, 5(4), 351-356, (2015).

28.Yuzhang Liang, Wei Peng*, Rui Hu andLingxiao Xie, “Extraordinary optical properties in the subwavelength metalloidelectric free-standing grating”, Optics Express, 22(16), 19484-19494 (2014).

27.Xinpu Zhang, Wei Peng*, “Fiber Bragg grating inscribed in dual-core photonic crystal fiber”, IEEE Photonics Technology Letters, 27(4), 391-394 (2014).

26.Yun Liu, Wei Peng*, Xinpu Zhang, Siyu Qian, “Optical fiber sensor based on capillary wall for highly-sensitive refractive index measurement”, Optics Communications, 319(10), 106-109 (2014).

25. Xinpu Zhang, Wei Peng*, Zigeng Liu, Zhenfeng Gong, “Fiber optic liquid level sensor based on integration of lever principle and optical interferometry”, IEEE Photonics Journal, 6(2), 2310208 (2014).

24.Shanshan Hu, Kun Liu, YuanzuoLi, QianqianDing, Wei Peng, Chen Maodu*, “Investigation of excited-state intramolecular proton transfer coupled charge transfer reaction of paeonol”, Canadian Journal of Chemistry, 92(92), 274-278 (2014).

23. Yuzhang Liang, Wei Peng, Rui Hu,and Mengdi Lu, "Symmetry-reduced double layer metallic grating structure for dual-wavelength spectral filtering", Optics Express, Vol. 22, No.10, 2014, p. 11633-11645.

22. Yuzhang Liang, Wei Peng, Rui Hu,and Lingxiao Xie, "Extraordinary optical properties in the subwavelength metallodielectric free-standing grating", Optics Express, Vol. 22 No.16, 2014, p. 19484-19494.

21. Wei Peng, Yun Liu, Peng Fang, Xiuxin Liu, Zhenfeng Gong, Hanqi Wang, and Fang Cheng, "Compact surface plasmon resonance imaging sensing system based on general optoelectronic components", Optics Express, Vol. 22 No.5, 2014, p. 6174-6185.

20. Wei Peng, Yun Liu, Xinpu Zhang, Fang Cheng, and Ming Han, “High sensitivity evanescent field refractometer based on modal interference in micro-capillary wall”, IEEE Sensors Journal, Vol.14 No.2, 2014, p. 430-435.

19. Wei Peng, Xinpu Zhang, Yun Liu, Xinlei Zhou, and Qingxu Yu, “Temperature characteristics of a core-mode interferometer based on a dual-core photonic crystal fiber”, Applied Physics B: Laser and optics, Vol. 116, No.1, 2014, p.21-26.

18. Maxime Couture, Yuzhang Liang, Hugo-Pierre Poirier Richard, Rita Faid, Wei Peng and Jean-Francois Masson, “Tuning the 3D plasmon field of nanohole arrays”, Nanoscale, Vol. 24, 2013, p. 12399-12408.

17. Wei Peng, Yuzhang Liang, Lixia Li, Jean-Francois Masson, “Metallic nanowire array-polymer hybrid film for surface plasmon resonance sensitivity enhancement and spectral range enlargement”, Plasmonics, Vol. 8 No.3, 2013, p. 1-8.

16. Wei Peng, Yuzhang Liang, Lixia Li, Yun Liu, and Jean-Francois Masson, “Generation of Multiple Plasmon Resonances in a Nanochannel”, IEEE. Photonics Journal, Vol. 5, No.5, 2013, p. 4500509.

15. Wei Peng, Xinpu Zhang, Zhenfeng Gong, and Yun Liu, “Miniature fiber-optic strain sensor based on h hybrid interferometric structure”, IEEE Photonics Technology Letters, Vol. 25 No. 24, 2013,p.2385-2388

14. Yuzhang Liang, Wei Peng, Rui Hu,and Helin Zou, "Extraordinary optical transmission based on subwavelength metallic grating with ellipse walls", Optics Express, Vol. 21 No.5, 2013, p. 6139-6152.

13.Yun Liu, Wei Peng, Xinpu Zhang, Yuzhang Liang, Zhenfeng Gong, Ming Han, “Fiber-Optic Anemometer Based on Distributed Bragg Reflector Fiber Laser Technology”, IEEE Photonics Technology Letters, Volume 25, No.13,2013, p. 1246-1249.

12. Xinpu Zhang, Wei Peng, Yun Liu, and Lujun Pan, "Core–cladding mode recoupling based fiber optic refractive index sensor", Optics Communications, Volume 294, 2013, p. 188-191.

11. Yoon-chang Kim, Jeffery Cramer, Tina Battaglia,James A. Jordan，Soame N. Banerji, Wei Peng, Laural L. Kegel, and Karl S. Booksh, “Investigation of In Situ Surface Plasmon Resonance Spectroscopy for Environmental Monitoring in and around Deep-Sea Hydrothermal Vents”, Analytical letters, Volume 46, No.10,2013, p. 1607-1617.

10. Yun Liu, Wei Peng, Xinpu Zhang, Xinlei Zhou, and Lujun Pan, “Optical Fiber Fusion based Mach-Zehnder Interferometric Sensor for High-sensitivity High-temperature Measurement”, Optics Communications, Volume 300, 2013, p. 194-198.

9. Xinpu Zhang, Wei Peng, Yun Liu, and Qingxu Yu, "Core-offset-based fiber Bragg grating sensor for refractive index and temperature measurement", Optical Engineering, Volume 52,No.2, 2013, p. 024402.

8. Yuzhang Liang and Wei Peng, "Theoretical Study of Transmission Characteristics of Sub-Wavelength Nano-Structured Metallic Grating", Applied Spectroscopy, Vol. 67, No. 1, 2013, p. 49-53.

7. Xinlei Zhou, Qingxu Yu and Wei Peng, “Simultaneous measurement of down-hole pressure and distributed temperature with a single fiber”, Measurement Science and Technology, Volume 23, No. 8, 2012, p. 085102.

6. Zhang Qi, Liu Nan, Fink Thomas, Li Hong, Peng Wei,and Han Ming, "Fiber-Optic Pressure Sensor Based on pi-Phase-Shifted Fiber Bragg Grating on Side-Hole Fiber", IEEE Photonics Technology Letters, vol. 24, No. 17, 2012, p. 1519-1522.

5. Jiajun Tian, Qi Zhang, Thomas Fink, Hong Li, Wei Peng, and Ming Han, “Tuning operating point of extrinsic Fabry–Perot interferometric fiber-optic sensors using microstructured fiber and gas pressure”, Optics Letters, Vol. 37, No.22, 2012, p. 4672-4674.

4. Jianwei Wang，Lirong Liang, Wang Zhang, Wei Peng, and Qingxu Yu, "Tunable Fiber Laser Based Photoacoustic Spectrometer for Breath Ammonia Analysis During Hemodialysis", Laser Physics, 22(1), pp327, 2012.

3. Li Hong and Peng Wei, “Experimental Study on Wavelength-Modulated Optical Surface Plasmon Resonance System”, Sensor Letters, Volume 10, No.7,2012, p. 1566-1569(4).

2. Jing Wang, Soame Banerji, Nicola Menegazzo, Wei Peng, Qiongjing Zou and Karl S. Booksh, "Glucose detection with surface Plasmon resonance spectroscopy and molecularly imprinted hydrogel coatings", Talanta, 86, 2011, p. 133-141.

1. Soame Banerji, Wei Peng, Yoon-chang Kim, Nicola Menegazzo，and Karl S. Booksh, “Evaluation of polymer coatings for ammonia vapor sensing with surface plasmon resonance spectroscopy”, Journal: Sensors and Actuators B: Chemical, Vol.147, No.1, 2010, p. 255-262.