教师科研成果

南开大学电子信息实验教学中心拥有一支高水平的科研团队,坚持产学研结合的办学理念,近五年来取得了突出的科研成果,在中文核心期刊和SCI/EI检索刊物上,共发表学术论文224篇,其中SCI收录105篇,EI收录69篇。申请或获得64项专利,主持承担国家级11项,省部级科研项目32项,横向科研项目17项。

一、发表论文

SCI检索:

[1]    Yajun Gu, Cheng Ju, Yanjun Li, Zhiqun Shang, Yudong Wu, Yunfang Jia, Yuanjie Niu. Detection of circulating tumor cells in prostate cancer based on carboxylated graphene oxide modified light addressable potentiometric sensor, Biosensors and Bioelectronics, 66, 2015: 24-31. SCI  6.451

[2]      Jianxiu Zhang, Liping Tu, Shuang Zhao, Guohua Liu, Yangyun Wang, Yong Wang, Zhao Yue. Fluorescent Gold Nanoclusters Based Photoelectrochemical Sensors for Detection of H2O2 and Glucose. Biosensors and Bioelectronics, 2015,67:296-302. SCI 6.451

[3]      Cheng Wang, JinhoKim, YiboZhu, JaeyoungYang, Gwan-HyoungLee, SunwooLee, JaeeunYu, RenjunPei, GuohuaLiu, ColinNuckolls, JamesHone, Qiao Lin, An aptameric graphene nanosensor for label-free detection of small-molecule biomarkers,Biosensors and Bioelectronics 71(2015.4)222–229. SCI 6.451

[4]      Jing Tang, Weidong Geng, and Xiulai Xu, Quantum Interference Induced Photon Blockade in a Coupled Single Quantum Dot-Cavity System[J]. Scientific Reports, 2015, 5: 9252. SCI  5.078

[5]     Ruping Liu, Cheng Wang, Quan Jiang, Wei Zhang, Zhao Yue and Guohua Liu.  Magnetic-particle-based, ultrasensitive chemiluminescence enzyme immunoassay for free prostate-specific antigen. Analytica Chimica Acta, 801:p91-p96. 2013.11.1. SCI 4.517

[6]      Wang P., He M., Wu H., Ji M., Zhou X. J., Zhao X. J., Hatano T., and Wang H. B., "Terahertz Waves Emission From Two Bi2Sr2CaCu2O8 Mesas in Series," Ieee Transactions on Terahertz Science and Technology, May 2015, vol. 5: 512-517,WOS:000353897000027, IF:4.342

[7]       Yunfang Jia, Xue-Bo Yin, Jia Zhang, Shuang Zhou, Meng Song, Ke-Li Xing. Graphene oxide modified light addressable potentiometric sensor and its application for ssDNA monitoring, Analyst, 137, 2012: 5866–5873 (IF:4.23, SCI: 000311962100027)

[8]      YunFang Jia, ChunYing Gao, Jia He, DaoFu Feng, KeLi Xing, Ming Wu, Yang Liu, WenSheng Cai, XiZeng Feng. Unlabeled Multi Tumor Marker Detection System Based on Bioinitiated Light Addressable Potentiometric Sensor. Analyst, 137, pp3806-3813, 2012 ( IF :4.23, SCI: 000306483000030)

[9]     Haifeng Liu, Hao Zhang, Yinping Miao, Bo Liu, Yuetao Li, Xing Zhao, and Lie Lin,“A light-intensity-controlled microfiber-assisted Mach-Zehnder interferometer based on Ethyl Orange solution under 532nm laser excitation”, Sensors and Actuators B: Chemical,216 229–234, 2015. SCI 4.097

[10]   Shecheng Gao, Weigang Zhang, Hao Zhang, Pengcheng Geng, Wei Lin, Bo Liu, Zhiyong Bai and Xiaolin Xue. “Fiber modal interferometer with embedded fiber Bragg grating for simultaneous measurements of refractive index and temperature”. Sensors and Actuators B: Chemical188 931–936, 2013. SCI 4.097

[11]    Liping Tu, Guohua Liu, Wei Zhang, Jinjie Qin, Zhao Yue. Doped QDs Based Photoelectrochemical Sensors for Detection of H2O2 and Glucose. IEEE journal of Selected Topics in Quantum electronics, 2014, 22(3):175-183. DOI:10.1109/ JSTQE.2013.2292527, SCI 4.0

[12]  Wenbin Li, Zhao Yue, Cheng Wang, Wei Zhang and Guohua Liu.An absolutely green approach to fabricate carbon nanodots from soya bean grounds.RSC Advances, (3): p20662-p20665, 2013.8. SCI 3.708

[13]    Jing Tang, Shuo Cao,Yunan Gao,Yue Sun,Weidong Geng,David A. Williams, Kuijuan Jin and Xiulai Xu.Charge state control in single InAs/GaAs quantum dots by external electric and magnetic fields[J]. Applied Physics Letters 105, 041109 (2014); doi: 10.1063/1.4891828. SCI 3.515

[14]    Xie W., Wang P., He M., Qiao R., Du J. N., Gao X. X., Liu X., Zhang X., Ji L., Chen H. H., and Zhao X. J., "Double-sided Tl2Ba2Ca2Cu3O10 thin films based high temperature superconducting filter operating above 100 K," Applied Physics Letters, Sep 1 2014, vol. 105: WOS:000342749800039, IF:3.515

[15]    Qiang Li, Xing Zhao, Bo Zhang, Yi Zheng, Liqiu Zhou, Lingjie Wang, Yanxiong Wu and Zhiliang Fang, Nanofocusing of longitudinally polarized light using absorbance modulation, Applied Physics Letters, 2014, 104(6): 061103.  SCI 3.515

[16]    Binbin Song, Hao Zhang, Yinping Miao, Wei Lin, Jixuan Wu, Haifeng Liu,  Donglin Yan, and Bo Liu “Highly sensitive twist sensor employing Sagnac interferometer based on PM-elliptical core fibers”, Optics Express, 23(12) 15372, 2015. SCI 3.488

[17]   Wei Lin, Hao Zhang, Binbin Song, Yinping Miao, Bo Liu, Donglin Yan, and Yange Liu, “Magnetically controllable wavelength-division-multiplexing fiber coupler”, Optics Express, 23(9)11123-11134, 2015. SCI 3.488

[18]    Wei Huang, Yan-ge Liu, Zhi Wang, Bo Liu, Jing Wang, Mingming Luo, Junqi Guo, and Lie Lin, "Multi-component-intermodal-interference mechanism and characteristics of a long period grating assistant fluid-filled photonic crystal fiber interferometer," Optics Express, 22(5)5883-5894, 2014. SCI 3.488

[19]    Lei Chen, Weigang Zhang*, Li Wang, Hao Zhang, Jonathan Sieg, Quan Zhou, Li-Yu Zhang, Biao Wang, and Tie-Yi Yan. In-fiber torsion sensor based on dual polarized Mach-Zehnder interference. Optics Express, 2014, 22 (26): 31654-31664. (UT WOS: 000347179300007, 3.488)

[20]  Binbin Song, Yinping Miao, Wei Lin, Hao Zhang,Jixuan Wu and Bo Liu,“Multi-mode interferometer-based twist sensor with low temperature sensitivity employing square coreless fibers”Optics Express, 21(22) 26806-26811, 2013. SCI 3.488

[21]    Yinping Miao, Jixuan Wu, Wei Lin, Kailiang Zhang, Yujie Yuan, Binbin Song, Hao Zhang, Bo Liu, and Jianquan Yao, “Magnetic field tunability of optical microfiber taper integrated with ferrofluid” Optics Express, 21(24) 29914-29920, 2013. SCI 3.488

[22]    Pengcheng Geng, Weigang Zhang*,Shecheng Gao, Hao Zhang, Jieliang Li, Shanshan Zhang, Zhiyong Bai, and Li Wang. Two-dimensional bending vector sensing based on spatial cascaded orthogonal long period fiber. Optics Express, 2012, 20 (27): 28557-28562. (UT WOS: 000314911400063, 3.488)

[23]    Shecheng Gao, Weigang Zhang*, Hao Zhang and Chonglei Zhang. Reconfigurable and ultra-sensitive in-line Mach-Zehnder interferometer based on the fusion of microfiber and microfluid. Applied Physics Letters, 2015, 106 (8): 084103 (5pp). (UT WOS: 000350546600093, 3.302)

[24]   Yinping Miao, Hao Zhang, Jichao Lin, Binbin Song, Kailiang Zhang, Wei Lin, Bo Liu, and Jianquan Yao, “Simultaneous measurement of temperature and magnetic field based on a long period grating concatenated with multimode fiber”, Applied Physics Letters, 106(13)132410, 2015. SCI 3.302

[25]   Jixuan Wu, Yinping Miao, Binbin Song, Wei Lin, Hao Zhang, Kailiang Zhang, Bo Liu, and Jianquan Yao, “Low temperature sensitive intensity-interrogated magnetic field sensor based on modal interference in thin-core fiber and magnetic fluid”, Applied Physics Letters,104(25) 252402, 2014. SCI 3.302

[26]   Wei Lin, Yinping Miao,Hao Zhang, Bo Liu, Yange Liu, and Binbin Song,“Fiber-optic in-line magnetic field sensor based on the magnetic fluid and multimode interference effects” Applied Physics Letters, 103(15)151101, 2013. SCI 3.302

[27]  Fei Fan, Sai Chen, WeiLin, Yinping Miao, Shengjiang Chang,Bo Liuet al. “Magnetically tunable terahertz magnetoplasmons in ferrofluid-filled photonic crystals” Applied Physics Letters, 103(16) 161115, 2013. SCI 3.302

[28]    Lei Chen, Wei-Gang Zhang*, Tie-Yi Yan, Li Wang, Jonathan Sieg, Biao Wang, Quan Zhou, Li-Yu Zhang. Photonic Crystal Fiber Polarization Rotator Based on Topological Zeeman Effect. Optics Letters, 2015, 40 (15): 3448-3451. SCI 3.292

[29]   Xing Chen, Jian Zhang, Jinlong Lu, Xing Lu, Xusheng Tian, Bo Liu, Hong Wu, Tingsong Tang, Kebin Shi, and Zhigang Zhang, "Feed-forward digital phase compensation for long-distance precise frequency dissemination via fiber network," Optics Letters 40(3) 371-374, 2015. SCI 3.292

[30]    Sinan Li1, Yi Cheng1, Lipei Song2, R. J Eckersley3, D. S Elson2 and Meng-Xing Tang1, "Tracking shear waves in turbid medium by light: theory, simulation, and experiment", Optics Letters 39(6), 1597-1600, 2014. SCI 3.292

[31]   Chunxue Yang, Hao Zhang, Yinping Miao, Hu Liang, Xing Zhao, Zhi Wang, and Bo Liu, “Load-insensitive temperature sensor based on azobenzene- chloroform-solution-filled microstructured optical fiber”, Optics Letters, 38(24) 5426-5429, 2013. SCI 3.292

[32]    Hu Liang, Weigang Zhang*, Pengcheng Geng, Yange Liu, Zhi Wang, Junqi Guo, Shecheng Gao and Suyuan Yan. Simultaneous measurement of temperature and force with high sensitivities based on filling different index liquids into photonic crystal fiber. Optics Letters, 2013, 38 (7): 1071-1073. ( UT WOS:000316946600022, 3.292)

[33]    Hu Liang, Weigang Zhang*, Huayu Wang, Pengcheng Geng, Shanshan Zhang, Shecheng Gao, Chunxue Yang and Jieliang Li. Fiber in-line Mach–Zehnder interferometer based on nearelliptical core photonic crystal fiber for temperature and strain sensing. Optics Letters, 2013, 38 (20): 4019-4022. ( UT WOS:000326570300012,3.292)

[34]    Shanshan Zhang, Weigang Zhang*, Shecheng Gao, Pengcheng Geng, and Xiaolin Xue. Fiber-optic bending vector sensor based on Mach–Zehnder interferometer exploiting lateral-offset and up-taper, Optics Letters, 2012, 37 (21): 4480-4482. (UT WOS: 000310577700043, 3.292)

[35]    R. Li, L. Song, D.S. Elson, and M.-X. Tang, "Parallel detection of amplitude-modulated, ultrasound-modulated optical signals," Optics Letters 35, 2010.  SCI 3.292

[36]    L. Song and D. S. Elson, "Effect of signal intensity and camera quantization on laser speckle contrast analysis", Biomedical Optics Express, Vol. 4 Issue 1, pp.89-104, 2013.  SCI 3.176

[37]    Zhao Yue, Wencheng Niu, Wei Zhang, Guohua Liu, Wolfgang.J.Parak. Detection of CO2 insolution with a Pt-NiO solid-state sensor. Journal of Colloid and Interface Science, 2010, 348(1): 227-231. SCI 3.0

[38]    Shecheng Gao, Weigang Zhang*, Zhiyong Bai, Hao Zhang, Li Wang, Jieliang Li. Microfiber-enabled in-line Fabry-Pérot interferometer for high-sensitive force and refractive index sensing, Journal of Lightwave Technology, 2014, 32 (9): 1682-1688. (UT WOS: 000334667800006, 2.965)

[39]    Yinping Miao, Jixuan Wu, Wei Lin, Binbin Song, Hao Zhang, Kailiang Zhang, Bo Liu, and Jianquan Yao, “Magnetic field tunability of square tapered no-core fibers based on magnetic fluid”, Journal of Lightwave Technology, 32(23) 3998-4003, 2014 SCI 2.965

[40]   Wei Lin, Yinping Miao, Hao Zhang,  Bo Liu, Yange Liu, Binbin Song, Jixuan Wu, Two-Dimensional Magnetic Field Vector Sensor Based on Tilted Fiber Bragg Grating and Magnetic Fluid. Journal of Lightwave Technology, 31(15) 2599 - 2605, 2013. SCI 2.965

[41]    Heng Shen, Kenan Qu, Weigang Zhang and Jing Jin. Controlled-X gate with cache function for one-way quantum computation, Physical Review A, 2012, 85: 032317(5pp). (UT WOS: 000301571500002, 2.808)

[42]   Cheng Wang, Ruping Liu, Wei Zhang, Yujian Wang, Kai Xu, Zhao Yue and Guohua Liu. Multichannel scan surface plasmon resonance biochip with stationary optics and baseline updating capability. Journal of Biomedical Optics,18(11):p11500213.11.1. SCI 2.752

[43]   Hao Zhang, Shouxin Kang, Bo Liu, Hongguang Dong and Yinping Miao, “All-Fiber Acousto-Optic Tunable Bandpass Filter Based on a Lateral Offset Fiber Splicing Structure”, IEEE Photonics Journal, 7(1) 1-12, 2015. SCI 2.33

[44]   Chunxue Yang, Hao Zhang, Hu Liang, Yinping Miao, Bo Liu, Zhi Wang, and Yange Liu, “Selectively Liquid-Infiltrated Microstructured Optical Fiber for Simultaneous Temperature and Force Measurement”, IEEE Photonics Journal, 6(2) 6800808, 2014. SCI 2.33

[45]     Hao Zhang, Minghui Qiu, Yinping Miao,Bo Liu, Shecheng Gao, Hongguang Dong,“Acoustic-Birefringence-Induced Orthogonal Acousto-Optic Gratings in Grapefruit Microstructured Fibers”,Photonics Journal, IEEE,5(3) 2201610, 2013. SCI 2.33

[46]    Zhao Yue, Wei Zhang, Cheng Wang, Guohua Liu, Wencheng Niu. CdS-FePt Dimers Based Photoelectrochemical Sensor for Detection of H2O2. Materials Letters, 2012, 74(1):180-182. SCI 2.3

[47]    Lei Chen, Weigang Zhang*, Zhao Zhang, Yongji Liu, Jonathan Sieg, Liyu Zhang, Quan Zhou, Li Wang, Biao Wang, Tieyi Yan. Design for a single-polarization photonic crystal fiber wavelength splitter based on hybrid-surface plasmon resonance. Photonics Journal, 2014, 6 (4): 2200909(9pp). (UT WOS: 000342912700006, 2.209)

[48]    Binbin Song, Yinping Miao, Wei Lin, Hao Zhang, Bo Liu, Jixuan Wu, Haifeng Liu, and Donglin Yan, “Loss-based magnetic field sensor employing hollow core fiber and magnetic fluid”, IEEE Photonics Technology Letters, 26(22) 2283-2286, 2015. SCI 2.11

[49]    Biao Wang, Weigang Zhang*, Zhiyong Bai, Li Wang, Liyu Zhang, Quan Zhou, Lei Chen, and Tieyi Yan. CO2-laser-induced Long-period Fiber Gratings in Few Mode Fibers. IEEE Photonics Technology Letters, 2015, 27 (2): 145-148. (UT WOS: 000349188200009, 2.110)

[50]    Quan Zhou, Weigang Zhang*, Lei Chen, Zhiyong Bai, Liyu Zhang, Li Wang, Biao Wang, Tieyi Yan. Bending Vector Sensor Based on a Sector-Shaped Long-Period Grating, IEEE Photonics Technology Letters, 2015, 27 (7): 713-716. (UT WOS: 000350877700008, 2.110)

[51]    Liyu Zhang, Weigang Zhang*, Lei Chen, Li Wang, Biao Wang, Quan Zhou, and Tieyi Yan.A Fiber Bending Vector Sensor Based on M-Z Interferometer Exploiting Two Hump-Shaped Tapers. IEEE Photonics Technology Letters, 2015, 27 (11): 1240-1243. (UT WOS: 000354457400026, 2.110)

[52]    Jieliang Li, Weigang Zhang*, Shecheng Gao, Zhiyong Bai, Li Wang, Hu Liang, and Teiyi Yan. Simultaneous Force and Temperature Measurement Using S Fiber Taper in Fiber Bragg Grating. IEEE Photonics Technology Letters, 2014, 26 (3): 309-312. (UT WOS: 000329993500027, 2.110)

[53]    Lei Chen, Weigang Zhang*, Quan Zhou, Yongji Liu, Jonathan Sieg, Liyu Zhang, Li Wang, Biao Wang, and Tieyi Yan. Polarization Rotator Based on Hybrid Plasmonic Photonic Crystal Fiber. IEEE Photonics Technology Letters, 2014, 26 (22): 2291-2294. (UT WOS: 000344462000022, 2.110)

[54]    Jixuan Wu, Yinping Miao, W ei Lin, Kailiang Zhang, Binbin Song, Hao Zhang, Bo Liu, and Jianquan Yao, “Dual-direction magnetic field sensor based on core-offset microfiber and ferrofluid”, IEEE Photonics Technology Letters, 26(15) 1581-1584, 2014. SCI 2.11

[55]  Yinping Miao, Kailiang Zhang,Bo Liu, Wei Lin, Hao Zhang, Ying Lu, Jianquan Yao, “Ferrofluid-Infiltrated Microstructured Optical Fiber Long-Period Grating”,Photonics Technology Letters, 25(3) 306 – 309, 2013. SCI 2.11

[56]    Jieliang Li, Weigang Zhang*, Shecheng Gao, Pengcheng Geng, Xiaolin Xue, Li Wang, and Zhiyong Bai. Long period fiber grating cascaded to S fiber taper for simultaneous measurement of temperature and refractive index refractive index. IEEE Photonics Technology Letters, 2013, 25 (9): 888-891. (UT WOS: 000318168600014, 2.110)

[57]    Shecheng Gao, Weigang Zhang*,Zhiyong Bai, Hao Zhang, Pengcheng Geng, Wei Lin, and Jieliang Li. Ultrasensitive refractive index sensor based on microfiber-assisted U-shape cavity. IEEE Photonics Technology Letters, 2013, 25 (18): 1815-1818. (UT WOS: 000324335500001, 2.110)

[58]    Zhiquan Cui, Weigang Zhang*, Fang Liu, Hao Zhang, Zhiyong Bai, Pengcheng Geng, and Shengcheng Gao. Asymmetrically Corrugated Long-Period Gratings by Burning Fiber Coating and Etching Cladding. IEEE Photonics Technology Letters, 2013, 25(20):1961-1964. (UT WOS: 000324883800004, 2.110)

[59]    Zhiyong Bai, Weigang Zhang*, Shecheng Gao, Pengcheng Geng, Hao Zhang, Jieliang Li, and Fang Liu. Compact long period fiber grating based on periodic micro-core-offset. IEEE Photonics Technology Letters, 2013, 25 (21): 2111-2114. (UT WOS: 000325811900006, 2.110)

[60]    Pengcheng Geng, Weigang Zhang*, Hao Zhang, Shanshan Zhang, Juan Ruan, Shilei Wei, and Xiaolin. Xue. Design of Broadband Single-Polarization Single-Mode Photonic Crystal Fiber Based on Index-Matching Coupling, IEEE Photonics Technology Letters, 2012, 24 (6): 452-454. (UT WOS: 000300579600010, 2.110)

[61]    Pengcheng Geng, Weigang Zhang*, Shecheng Gao, Shanshan Zhang, Hao Zhang, and Juan Ruan. Orthogonal Single-Polarization Single-Core Photonic Crystal Fiber for Wavelength Splitting, IEEE Photonics Technology Letters, 2012, 24 (15): 1304-1306. (UT WOS: 000305898700005, 2.110)

[62]    Shecheng Gao, Weigang Zhang*, PengchengGeng, XiaolinXue, Hao Zhang, and Zhiyong Bai. Highly Sensitive In-Fiber Refractive Index Sensor Based on Down-Bitaper Seeded Up-Bitaper Pair, IEEE Photonics Technology Letters, 2012, 24 (20): 1878-1881. (UT WOS: 000309601700005, 2.110)

[63]   Hao Zhang, Minghui Qiu, Zhifang Wu, Hongguang Dong, Bo Liu, and Yinping Miao, “Acousto-optic mode coupling excited by flexural waves in simplified hollow-core photonic crystal fibers”, Journal of Optics,15(5)5402, 2013. SCI 2.059

[64]    Jixuan Wu, Yinping Miao, Wei Lin, Binbin Song, Kailiang Zhang, Hao Zhang, Bo Liu, and Jianquan Yao, “Magnetic-field sensor based on core-offset tapered optical fiber and magnetic fluid”,Journal of Optics, 16 (7) 075705, 2014. SCI 2.059

[65]   Minghui Qiu, Hao Zhang, Yinping Miao, Zhi Wang, and Bo Liu, “Simultaneous excitation of acousto-optic mode coupling in a SMF–PCF hybrid configuration”, Journal of Optics, 16 (4) 045701, 2014. SCI 2.059

[66]  Hongguang Dong, Hao Zhang, Yinping Miao, Minghui Qiu, and Bo Liu, “Spectral characteristics of single-mode-fiber-based cascaded acousto-optic filters”, Journal of Optics16(1)015402, 2014. SCI 2.059

[67]    Haifeng Liu, Yinping Miao, Bo Liu, Wei Lin, Hao Zhang, Binbin Song, Mengdi Huang, and Lie Lin, “Relative Humidity Sensor Based on S-Taper Fiber Coated with SiO2 Nanoparticles”, IEEESensor Journal, 15(6)3424-3428, 2015. SCI 1.852

[68]    Jin Wang, KeTao, HongkunCai, DexianZhang, GuofengLi. A study of the i/p interface for flexible n–i–p a-Si:H thin film solar cells. Materials Sciencein Semiconductor Processing, 25(2014):186–189. SCI 1.761

[69]   Yinping Miao, Bo Liu, Kailiang Zhang, Hao Zhang, and Jianquan Yao, “Magneto-optical tunability of magnetic fluid infiltrated microstructured optical fiber”, Journal Optics & Laser Technology, 48 280-284, 2013. SCI 1.647

[70]  Wei Huang, Yan-ge Liu, Zhi Wang, Bo Liu, Junqi Guo, Mingming Luo, and Lie Lin, "Intermodal interferometer with low insertion loss and high extinction ratio composed of a slight offset point and a matching long period grating in two-mode photonic crystal fiber," Appl. Opt.Vol. 54, Page: 285-290. SCI 1.784

[71]   Yunfang Jia, Xinjuan Chen, Qingshan Ni, Longhua Li and Cheng Ju. Dependence of the Impact Response of Polyvinylidene Fluoride Sensors on Their Supporting Materials’ Elasticity. Sensors 2013, 13, 8669-8678. SCI 1.852

[72]   Wei Lin, Binbin Song, Yinping Miao, Hao Zhang, Donglin Yan, Bo Liu, and Yange Liu, “Liquid-filled photonic-crystal-fiber-based multimodal interferometer for simultaneous measurement of temperature and force”, Applied optics, 54(6) 1309-1313, 2015. SCI 1.784

[73]   Jixuan Wu, Yinping Miao, Binbin Song, Kailiang Zhang, Wei Lin, Hao Zhang, Bo Liu, and Jianquan Yao, “Temperature- insensitive optical fiber refractometer based on multimode interference in two cascaded no-core square fibers”, Applied optics, 53(22) 5037-5041, 2014. SCI 1.784

[74]    Yinping Miao, Kaikiang Zhang, Yujie Yuam, Bo Liu, Hao Zhang, Yan Liu, and Jianquan Yao, “Agarose gel-coated LPG based on two sensing mechanisms for relative humidity measurement”, Applied Optics, 52(1) 90-95, 2013. SCI 1.784

[75]    Jin Zhu, Wenbin Li, Mao Zhu, Wei Zhang, Wencheng Niu, and Guohua Liu,Influence of the pH value of a colloidal gold solution on the absorption spectra of an LSPR-assisted sensor,AIP Advances 4, 031338 (2014),P1-6. SCI 1.590

[76]   Wei Lin, Yinping Miao, Binbin Song, Hao Zhang, Bo Liu, Yange Liu, and Donglin Yan, “Multimodal transmission property in a liquid-filled photonic crystal fiber”, Optics Communications, 336 14-19, 2015. SCI 1.449

[77]    Jixuan Wu, Yinping Miao, Binbin Song, Wei Lin, Kailiang Zhang, Hao Zhang, Bo Liu, and Jianquan Yao, “Simultaneous measurement of displacement and temperature based on thin-core fiber modal interferometer”, Optics Communications, 340136-140, 2015. SCI 1.449

[78]    Ke Tao, Jin Wang, Hongkun Cai, Dexian Zhang, Yanpin Sui, Yi Zhang, Yun Sun. Low-temperature preparation of flexible a-Si:H solar cells with hydrogenated nanocrystalline silicon player. Vacuum, 86(2012):1477. SCI 1.426

[79]    Wang P., Xie W., Hu L., Liu X., Zhao X. J., He M., Ji L., Zhang X., and Yan S. L., "Energy gap suppression and excess current in Tl2Ba2CaCu2O8 intrinsic Josephson junctions," Chinese Physics B, May 2013, vol. 22: WOS:000319498300080, IF:1.392

[80]    Jin Zhu, Shun Huang, Junyu Ye, Xiaoqing Zhang, Guohua Liu∗ ,Design of a quartz crystal with transparent electrode used for both QCM-D and LSPR technology,Sensors and Actuators A: Physical,229 (2015.3) 141–146. SCI 1.348

[81]    Wang P., Wang Z., Fan B., Xie W., Zhao X. J., He M., Zhang X., Ji L., and Yan S. L., "Millimeter-Wave Radiation From Misaligned Tl2Ba2CaCu2O8 Thin-Film Intrinsic Josephson Junctions," Ieee Transactions on Applied Superconductivity, Oct 2012, vol. 22: WOS:000311848300001, IF:1.324

[82]    Wang P., Wang Z., Fan B., Xie W., Liu W., Zhao X. J., Zhang X., Ji L., He M., Fang L., and Yan S. L., "Influence of substrate on coupling of high temperature superconducting Josephson junction arrays," Physica C-Superconductivity and Its Applications, Dec 2012, vol. 483: 97-100,WOS:000311348800022, IF:1.11

[83]    Wang P., Xie W., Hu L., Liu X., Zhao X. J., Zhang X., Ji L., He M., and Yan S. L., "Millimeter-wave induced sloping step in Tl2Ba2CaCu2O8 misaligned thin film," Physica C-Superconductivity and Its Applications, Feb 2014, vol. 497: 99-101,WOS:000330166400018, IF:1.11

[84]    Zhang Wei, Wang Cheng, Yue Zhao, Zhan Chuanna, Geng Weidong, Liu Guohua. Travelling-wave piezoelectric micropump with low resistance microchannel. Electronics Letters, 2011, 47(19): 1065-1066 (SCI:000294840800006;EI:20120214666425)SCI 1.068

[85]  Minghui Qiu, Hao Zhang, Bo Liu, Hongguang Dong, Chunxue Yang, and Yinping Miao, “Acoustic birefringence suppression in a fiber acoustic grating employing solid-core photonic crystal fiber with hexagonal air-hole array cladding”, Optical Engineering, 52(3)5008, 2013. SCI 0.954

[86]   Minghui Qiu, Hao Zhang, Bo Liu, Hongguang Dong, Chunxue Yang and Yinping Miao, “Acoustic birefringence suppression in a fiber acoustic grating employing solid-core photonic crystal fiber with hexagonal air-hole array cladding”, Optical Engineering, 52(3) 035008-035008, 2013. SCI 0.954

[87]    Wang P., Fan B., Wang Z., Xie W., Zhao X. J., Zhang X., Ji L., He M., Fang L., and Yan S. L., "Radiation from Intrinsic Josephson Junctions in Misaligned Tl2Ba2CaCu2O8 Thin Films," Journal of Superconductivity and Novel Magnetism, Jul 2012, vol. 25: 1427-1430,WOS:000305523100040, IF:0.909

[88]   YUE Zhao, ZHANG Wei, WANG Cheng, LIU Guo-Hua, NIU Wen-Cheng. Photoinduced Electron Transfers between CdS Quantum Dots and Gold Electrodes. Acta Physico-Chimica Sinica, 2011,27 (12): 2814-2820. SCI 0.9

[89]    Cheng Wang,Wei Zhang,Wenbin Li,Ruping Liu,Guohua Liu,Stability improving effect of silver diamminohydroxide precursor in green hydrothermal synthesis of silver nanoparticle colloids,Micro & Nano Letters, 2014, Vol. 9, No. 5, pp. 320–324. SCI 0.799

[90]    Weixiang Ye,Wei Zhang,Cheng Wang,Wenbin Li,Zhao Yue,Guohua Liu,Travelling wave magnetic valveless micropump driven by rotating integrated magnetic arrays,Micro & Nano Letters, 2014, Vol. 9, No. 4, pp. 232–234. SCI 0.799

[91]    Weixiang Ye,Wei Zhang,Cheng Wang, Wenbin Li,Huawei Yu, Guohua Liu,Double-layer silver nanoparticle arrays-based localised surface plasmon resonance optical sensor for sensitive detection of concanavalin A,Micro & Nano Letters,2014,Vol. 9,No. 4,pp. 294–296. SCI 0.799

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[93]    Yingshan Li , Chao Wu , Dongyan Sun , Junli Xia and Heung-Gyoon Ryu,”A New Physical Layer Transmission Scheme for LPI and High Throughput in the Cooperative SC-FDMA System”,Journal of Communications and Networks,  VOL. 15, NO. 5, pp. 457-463, 2013.SCI 0.747

[94]    Hui Zhang, Ying Fang, Yi FengXie, Hong Wu, YanyanGuo, “Power Control Algorithm for Multipoint Cooperative Communication with High-to-Low SINR Scenario”, EURASIP Journal on Wireless Communications and Networking, Vol.2012, No.276, pp.1-10, 2012;SCI 0.724

[95]    Wang Jin, Li Guofeng, Liang Ke, Gao Xianhu. The Theory of Field Parameters for Helmholtz Coil. Modern Physics Letters B. 2010, 24(2): 201-209. SCI 0.687

[96]    Hao Zhang, Minghui Qiu, Shouxin Kang, Bo Liu, and Yinping Miao, A tunable interferometric optical bandpass filter based on flexural acoustic wave modulation in a SMF-MOF hybrid configuration with fiber offset splicing output, Microwave and Optical Technology Letters, 57(1) 31–35, 2015.  SCI 0.568

[97]   Minghui Qiu, Hao Zhang, Shouxin Kang, Yinping Miao, Bo Liu, “Acousto-optic mode coupling excited by superimposed flexural waves in a solid-core microstructured optical fiber with hexagonal air-hole array cladding”, Microwave and Optical Technology Letters, 56(12) 2831–2835, 2014. SCI 0.568

[98]    Shang Jiabin, Zhang Weigang, Wei Shilei, Zhang Hao, Two-Channel Fiber Micro–cavity Strain Sensor based on Fiber Loop Ring-Down Spectroscopy Technology. Microwave and Optical Technology Letters, 2012, 54( 5 ): 1305~1309SCI: WOS:000301431200048,EI: 20121414913730. SCI 0.568

[99]    Ying Zhang, Gunling Sun, Weixiang Li, Load Balance using Compressive Sensing Theory in Large-Scale Wireless Sensor Network, Sensor Letters, Vol9 No.5,2011,1855-1859(SCI:WOS:000301155100043)(EI: 20120714771149) SCI 0.558

[100]  LIU Yan-yan(刘艳艳), GENG Wei-dong(耿卫东), DAI Yong-ping(代永平),OLED-on-silicon chip with new pixel circuit,Journal of Central South University(中南大学学报英文版),2012,vol.19(5):1276-1282.(SCI:000303479700016,EI:20122615184659)SCI 0.520

[101]  岳钊, 张维, 王程, 刘国华, 牛文成,CdS量子点与金电极之间的光生电子交换,物理化学学报, 2011,27(12),  p 2814-2820.(SCI)

[102]  Yinping Miao, Jixuan Wu, Wei Lin, Kailiang Zhang, Binbin Song, Hao Zhang, Bo Liu, “Magnetic field tunability of square tapered no-core fibers”, OFS2014 23rd International Conference on Optical Fiber Sensors, 91577Z-91577Z-4, 2014.

[103] Wei Lin, Yinping Miao, Bo Liu, Hao Zhang, Yange Liu, and Binbin Song, “All-fiber Magnetometer Based on Sagnac Loop and Magnetic Fluid”, Asia Communications and Photonics Conference, AW4D. 4 2013.

[104]  Minghui Qiu, Hao Zhang, Yinping Miao, Bo Liu, and Lihui Liu, “Spectral purification and stabilization of an acousto-optic tunable filter based on water-filled solid-core microstructured fiber”, Asia Communications and Photonics Conference

[105]  Wei Huang, Yange Liu, Zhi Wang, Bo Liu, and Lie Lin, “Fluid-filled photonic crystal fiber modal interferometer utilizing long period grating”, Asia Communications and Photonics Conference

 

EI检索:

[106]   吴虹, 陈乐, 向坤, 赵迎新, 许丽, 章学松,“应用于长期演进系统降峰值平均功率比的IP-PTS方法研究”,北京理工大学学报,2015, vol.35(5):519-523.

[107]   吴虹, 李子彧, 赵迎新, 陈坤, 焦鹏,正交频分复用基带系统仿真及FPGA实现,北京理工大学学报,2015, vol.35(3):310-315.

[108]   Yingxin Zhao, Yue Wu, Hong Wu, Reducing Peak Transmission Power of OFDM System Using Signal Partition Technique, Engineering Letters, 2015, vol.23(3):210-214.

[109]   Kun Chen, Yingxin Zhao, Hong Wu, et.al. Study of high-accurate frequency estimation in 60GHz wireless communication system,Journal of communications,2015,已录用.

[110]   Wang Jin, Tao Ke, Li Guo Feng. Heteroepitaxial growth of Ge-rich SiGe films on Si for solar cells. Advanced Materials Research, 2014, vol.1014: 216-219.

[111]   刘海锋, 陶俊豪, 张宁, 刘波, 王虎. 长距离分布式光纤传感中基于stm32的遗传算法偏振控制. 光子学报, 2014, vol.43(8), 806005-0806005.

[112]   Ying Zhang, Guiling Sun, Zhouzhou Li, Jingfei He,Layer-sensing Mechanism for Multihop Wireless Sensor Networks,Journal of Information and Computational Science, 2014,Vol11 No.14, 5247-5255.(EI: 201442113213)

[113]   Guiling SUN, Chen Yu, Yan Lin, Wei Dang,Backtracking Iterative Thresholding Matching Pursuit Algorithm,Journal of Computational Information Systems, 2014,Voll0 No.16, 7077-7084.(EI:201446200339)

[114]   Zhihong WANG, Guiling SUN, Zhouzhou LI, Ying ZHANG,Sparsity Adaptive Matching Pursuit Algorithm Based Periodic Non-uniform Sampling,Journal of Computational Information Systems, 2014, Vol0 No.16, 7109-7116.(EI:201 446200343)

[115]   Jingfei He, Guiling Sun, Jie Zuo, Mengqiu Fan, Pre-weighted Matching Pursuit Algorithms for Sparse Recovery, Journal of Information & Computational Science ,Vol11 No.9,2014,2933-2939. (EI:20142717903222)

[116]   Jingfei He, Guiling Sun, Jie Zuo, Zhihong Wang, Zhouzhou LI, Self-checking Orthogonal Matching Pursuit for Compressed Sensing Signal Reconstruction, Journal of Information & Computational Science, 2014,Vol11 No.8, 2543-2550 (EI: 20142617873793)

[117]   Zhihong Wang,Guiling Sun, Ying Zhang,Shuo Feng, Research on Iterative Thresholding Orthogonal Matching Pursuit Reconstruction Algorithm Based on Sparsity Adaptive,Journal of Computational Information Systems, 2014, Vol0 No.10,4339-4346.(EI:20142417813505)

[118]   Ying Zhang,Guiling Sun, Zhouzhou LI, Balanced Energy Consumption Adaptive Sensing Algorithm for Multi-layer Wireless Sensor Network,Journal of Computational Information Systems, 2014, Vol0 No.10, 4451-4458.(EI:20142417813518)

[119]   Guiling Sun, Jie Zuo, Jingfei He, Shuo Feng, Zhouzhou LI, Joint Sparse Basement Based on Compressed Sensing in Multi-parameter Wireless Sensor Network,Journal of Information & Computational Science ,Vol11 No.7,2014,2175-2182.(EI: 20142317791646)

[120]   Guiling SUN, Mengqiu FAN, Feng WANG, Xiaozhen BI,Design and Implementation of Assembly Tool Chain for TTA-based ASIP,Journal of Computational Information Systems,Voll0 No.21,2014,9309-9316(EI: 20150300435600)

[121]   陈坤,吴虹,刘勇,王琦琦,向坤. 基于OFDM无线通信系统的线性回归频偏估计算法[J].光电子.激光,2014,25卷(10期):1919-1925(EI:201446210391);

[122]   Hong Wu,Peng Lin,Kun Chen. A Novel Frequency Offset Estimation Algorithm with Wide Range and High Accuracy for OFDM System[J],Journal of Networks,2014,VOL.9,NO.8:2218-2223(EI:20143318074645);

[123]   吴虹,林鹏,陈坤,刘勇. 基于IEEE802.11ad的OFDM线性拟合频偏估计算法[J],华中科技大学学报(自然科学版),2014,42卷(12期):101-105(EI);

[124]   向坤,吴虹,赵迎新,田旭生,王琦琦.射频拉远系统中的时钟同步技术[J],天津大学学报,2014,47卷(6期):546-550(EI:20142917960358);

[125]   Liu Huigang,Sun Jing,Zhang Fuhai,Ren Liru ,Direction-Based Adaptive Switching Filter for Removing High-Density Impulse Noise, 天津大学学报(英文版),2014年6期

[126]   尚佳彬,张伟刚,魏石磊,郭澎,基于腔衰荡光谱技术的三参量光纤微腔传感器.光电子 激光,2014,25(5):829~834. EI:20142517852413

[127]   Xiao chunxian, Improved algorithm based on the DFT transform channel estimation and threshold filtering, Applied Mechanics and Materials, 2013.9, Vol. 391,  pp. 536-539  EI: 20134516945779

[128]   张维,王程,岳钊,战传娜,耿卫东,牛文成,刘国华,行波压电微泵的制作和测试(英文),纳米技术与精密工程,2013年,第11卷,第1期:79-84 (EI:20130615999504)

[129]   戈立军,吴虹,MB-OFDM-UWB 系统基于时域扩展的盲频率跟踪算法,通信学报,2013年,第34卷第4期,第 138-143页(EI:20132016328462);

[130]   Guiling Sun, Jie Zuo, Jingfei He, Xiaochen Li, Zhihong Wang ,Daubechies Wavelets Combined Sparse Basement Based on Compressed Sensing in Wireless Sensor Networks,Journal of Information & Computational Science ,Vol10 No.14,2013,4505-4512. (EI:20134316893938)

[131]   Zhang Wei, Wang Cheng, Yue Zhao, Zhan Chuanna, Geng Weidong, Niu Wencheng, Liu Guohua. Fabrication and measurement of traveling wave piezoelectric micropump. Nanotechnology and Precision Engineering, 2013, 11(1): 79-84 (EI:20130615999504)

[132]   Guiling SUN,Tong LI, Jingfei HE, The Method of Signal Sparse Representation Based on Cascade Multi-type Over-complete Atom Dictionary,Journal of Computational Information Systems,Vol9 No.5,2013,2009-2016.(EI:20131616214535)

[133]   Ge Lijun, Li Chunyu, Miao Changyun, Wu Hong, TDS based carrier frequency tracking algorithm for MB-OFDM UWB systems, Journal of Information and Computational Science, Oct. 2012, Vol.9, No.12, pp.3539-3548(EI: 20124615670845);

[134]   赵迎新, 吴岳, 吴虹,基于扩频技术降低OFDM信号峰值功率并改善信噪比的方法,系统工程与电子技术,2012年,第34卷第10期,第2147-2151页(EI: 20124815724306);

[135]   Zhang Wei, Wang Cheng, Zhou Wei, Yue Zhao, Liu Guohua. The Analysis of Ag Nanospheres and Arrays LSPR Phenomena Based on DDA and FDTD Method. Applied Mechanics and Materials, 2012, 110-116: 3860-3866 (EI:20114714536488)

[136]   赵迎新,向坤,李艳红,吴虹,超宽带系统中基于时域插值和抽取的新型Sigma-Delta 转换器,天津大学学报(自然科学版),2012, 45(7): 641-646,(EI:20124115547477);

[137]   Wang Chunbao, Zhang Weigang, Ruan Juan, Shang Jiabin, Yan Aidong,  Characteristic analysis of a novel F-P interferometer based on a pair of FBGs with built-in LPFGs. Optoelectronics Letters, 2012, 8( 2 ): 84~88,EI: 20102713063574

[138]   张维,孙辉,刘儒平,岳钊,王程,常胜江,耿卫东,刘国华,Au纳米粒子二维周期阵列的LSPR消光特性分析,光电子•激光,2012年,第23卷,第5期:1005-1010 (EI:20122615178886)

[139]   Guohua Liu, Yingxin Zhao, Kun Xiang, Yanhong Li, Hong Wu, Parallel ∑△ converter for MB-OFDM-UWB transceivers, Journal of Computational Information Systems, Jan. 2012, Vol.8, No.1, pp.199-205 (EI:20120214676697);

[140]   Guiling SUN,Yuhan ZHOU, Jie Zuo, Zhihong Wang, Research on Iterative Thresholding Compressive Sampling Matching Pursuit Algorithm Based on Sparsity Adaptive,Journal of Computational Information Systems,Vol8 No.12,2012,4835-4842. (EI: 20122715215278)

[141]   Guiling SUN,Yuhan ZHOU,Zhihong WANG, Wei DANG, Zhouzhou LI ,Sparsity Adaptive Compressive Sampling Matching Pursuit Algorithm Based on Compressive Sensing, Journal of Computational Information Systems,Vol7 No.4,2012,2883-2890. (EI: 20122215069866)

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[143]   Zhang ying, Sun Guiling, Li Weixiang,DEHCA:Load Balance Clustering Algorithm for Energy Heterogeneous WSN based on Distance,Applied Mechanics and Materials, Vols.44-47 (2011) 3294-3298.(EI: 20110313 586433 )

[144]   Sun Guiling,Zhang ying, Lv lequn,Li Weixiang,Research on Iterative Thresholding Matching Pursuit Based on Adaptive Sparsity, Journal of Computational Information Systems,Vol7 No.1, 2011, 34-41.(EI: 20110613651469)

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[146]   Guiling Sun,Ying Zhang,Lequn Lv,Weixiang Li,TIMP Compressive Sensing Mechanism Analysis and Implementation for Large-Scale Wireless Sensor Network,Journal of Computational Information Systems,Vol7 No.10,2011,3382-3389. (EI: 20114114415540)

[147]   戈立军, 赵迎新, 傅民皓, 金宇昂, 张冀, 吴虹,MQAM-OFDM系统中降低峰均比与残余载波频偏同步联合算法, 电子学报,2011年,第39卷第1期,第168-171页(EI: 20111413890643);

[148]   戈立军, 赵迎新, 傅民皓, 金宇昂, 张冀, 吴虹,多频带OFDM超宽带系统同步及信道估计算法,系统工程与电子技术,2011年,第33卷第3期,第665-668页(EI: 20111913972294);

[149]   尚佳彬, 张伟刚, 魏石磊, 基于腔衰荡光谱技术的光纤微腔温度传感器. 中国激光, 2011, 38( 9 ): 0905004-1~5,EI: 20114914584151

[150]   魏石磊, 张伟刚, 范弘建, 耿鹏程, 尚佳彬,殷丽梅, 薛晓琳, 高频CO2激光脉冲写制的倾斜长周期光纤光栅光谱特性研究. 光学学报, 2011, 31( 8 ): 0806006-1~6,EI: 20113714332388

[151]   Guohua Liu, Yingxin Zhao, Kun Xiang, Yanhong Li, Hong Wu, Nyquist-rate wide-bandwidth sigma-delta modulator for UWB-OFDM systems, Journal of Information and Computational Science, Vol.8, No.13, pp.2831-2837,2011,(EI:20115014603219);

[152]   钟诚, 张伟刚, 颜爱东, 屈柯楠, &刘波. 一种测量范围可调的 FBG 流速传感装置[J]. 光电子. 激光, 2011,22(10), 1463-1466.

[153]   LIU Yan-yan, GENG Wei-dong, DAI Yong-ping. Restraining for switching effects in an AC driving pixel circuit of the OLED-on-silicon. Optoelectronics Letters. Vol.6 No.2, pp.0112-0115, 2010

[154]   王春宝, 张伟刚, 刘卓琳, 颜爱东, 尚佳彬, 光纤微腔级联性质及布拉格光栅特性研究. 中国激光, 2010, 37( 6 ): 1485~1489,EI: 20102713063574

[155]   Liu yanyan, Geng weidong, Dai yongping, The Restraining of Switch Effects in AC Driving Pixel Circuit of OLED-on-silicon. Optoelectronics letters, 2010, Vol. 6(2): 0112-0115. (EI索引号:20103913257724)

[156]   姜萌, 张伟刚, 颜爱东, 陶魁园, 尚佳彬, 李晓兰, 碳纳米管涂覆的光纤环衰荡腔检测技术的初步研究. 中国激光, 2010, 37( 6 ): 1450~1455,EI: 20102713063568

[157]   苗银萍, 刘波, 刘健, 孙华, &赵启大. 基于倾斜光纤光栅的相对湿度传感器[J]. 光电子. 激光, 2010,21(7), 978-982.

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[159]   罗建花, 张昊, 刘波, 贾承来, 阎少林, &马秀荣. 基于多纵模光纤激光器的有源位移传感器[J]. 中国激光, 2010, (5), 1280-1283.

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[161]   Lijun Ge, Yingxin Zhao, Hong Wu, Ning Xu, Yu’ang Jin, Wenqi Li. Joint frequency offset tracking and PAPR reduction algorithm in OFDM systems, Journal of Systems Engineering and Electronics, August 2010, Vol.21, No.4, pp.557-561(EI: 20104413342416);

[162]   Cheng Ju, Yunfang Jia. A novel biomedical sensor for tumor marker based on Flexible supported solution gated graphene field effective transistor. MEBE 2015,2015.3(EI收录)

[163]   Zhang Li, Chen Haihua, Sun Guiling,Worst-case based robust distributed beamforming for two-way relay networks International Conference on Instrumentation and Measurement, Computer, Communication and Control, IMCCC 2014,2014/8/1-2014/8/3, 2014. 12 968-973(EI:20150500470171)

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[165]   Cheng Ju, Yunfang Jia. Photo & electronic multifunctional biochemical system: Design and experiments, Proceedings - 2014 IEEE Workshop on Electronics, Computer and Applications, IWECA 2014, 2014. 4(EI收录)

[166]   Hong Wu, Yao Chen, Nan Zhang, Zhen Zhang, Kun Xiang, The NLOS Error Mitigation Joint Algorithm in Hybrid Positioning System Combining CTTB and GPS, Lecture Notes in Electronic Engineering---China Satellite Navigation Conference 2012 Proceedings Guangzhou, China, May, 15-19, 2012,Vol.159, No.2, pp.287-296(EI: 20122315090305);

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核心:

[175]    陈坤,吴虹,王晓敏,王琦琦,向坤,朴尹成,赵迎新,慈骋,章学松. CDMA2000系统数据辅助定时误差恢复与EVM分析[J]. 南开大学学报(自然科学版),2015,48卷(1期):67-72.

[176]    孙桂玲,范孟秋,杨长锐,毕晓朕,基于LCC的嵌入式处理器C语言编译器研究,微电子学与计算机,2015,Vol32 No.1,80-84.

[177]    向坤,吴虹,陈乐,李子彧,田旭生,林鹏. 基于锁相环芯片的锁模激光器稳频方法[J],南开大学学报(自然科学版),2014,47卷(3期):102-106.

[178]    吴虹,陈乐,向坤,林鹏,赵迎新,李子彧,田旭生,焦鹏. 应用于SC-FDMA系统PAPR抑制技术的联合算法研究[J],南开大学学报(自然科学版),2014,47卷(5期):79-85.

[179]    王志红,孙桂玲,李洲周,张颖.基于ITCSAMP的周期非均匀采样与重构.南开大学学报(自然科学版),2014,Vol.47(5):54-59.

[180]    孙桂玲,杨长锐,党卫,冯硕,基于字典压缩的TTA架构处理器代码压缩研究,微电子学,Vol43 2013年2期. 

[181]    琚成,贾芸芳. 石墨烯在电子器件研究中的应用,太赫兹科学与电子信息学报,2014.6 .(IF=0.564)

[182]    耿卫东,郭嘉,唐静,刘会刚,全无机胶体量子点显示技术,液晶与显示,2014年4期.

[183]    邱硕丰, 刘毅, 刘波, 张瑞, 钱彧哲, 吕家琪. 超窄激光线宽测量的光外差混频测谱法. 光通信研究, 2014, 40(4), 54-57.

[184]    王育剑,刘国华,战传娜,涂丽平,岳钊. 基于VC6.0的SR830数据采集系统的设计与实现. 南开大学学报(自然科学版),2013, 46(1):22-26.

[185]    李龙华, 贾芸芳. 基于 DSP 的数字锁相放大器在 LAPS 检测系统中的应用[J]. 河南科技学院学报: 自然科学版, 2013, 41(3): 95-100.

[186]    李龙华, 梁天翼, 贾芸芳. 数字锁相放大算法 MATLAB 仿真平台的设计与实现[J]. 微电子学与计算机, 2013, 30(009): 42-45.

[187]    琚成,贾芸芳。嵌入式系统中硬件关键性能指标测试模块的设计与实现,南开大学学报自然科学版,2013.10. (0.188)

[188]    周爽,贾芸芳,邢克礼. 基于LAPS系统的蛋白芯片表面修饰技术对比研究,生物技术通报,2013年4月. (中文期刊复合影响因子:0.917)

[189]    刘海锋, 王虎, 刘伟, 曹宏远, &刘波. 基于短栅区光纤光栅传感器的油气管线腐蚀在线监测系统研究[J]. 传感技术学报, 2013 (10), 1379-1383.

[190]    刘毅, 邱硕丰, 刘波, 林列.一种偏振无关的高精度超窄激光线宽测量方法[J]. 光通信研究,  2013, 39(3), 45-48.

[191]    刘儒平, 孔祥贵, 岳钊, 牛文成, 刘国华. 水滑石纳米材料特性及其在电化学生物传感器方面的应用. 化工进展, 2013,32 (11) : p2661-p2667.

[192]    刘儒平, 王程, 徐万帮, 岳钊, 牛文成, 刘国华. 基于生物素-亲和素放大的spr传感器检测大肠杆菌研究. 传感技术学报,2013,26(6):p757-p761.

[193]    刘儒平, 杜利东, 岳钊, 牛文成, 刘国华. Cu2O纳米晶制备及其在乙醇气体传感器中的应用. 传感器与微系统,2013,32(12):p138-p141.

[194]    叶巍翔, 徐凯, 刘佳卓, 马丁, 刘国华. 用于生化传感检测的自适应增量PID恒温控制系统. 南开大学学报, 2013,46(5):p20-p25.

[195]    杨长锐,张维,战传娜,岳钊,牛文成,刘国华,压电式行波微流泵的仿真分析,南开大学学报(自然科学版),2012,4(3):23-28.

[196]    耿卫东,王立萍,王俊,周锎,李响. 光伏发电控制器的液晶显示设计.液晶与显示, 第27卷第6期, pp.780-784, 2012.

[197]    陈肃超, 刘波, 吴晓玟. 基于不同介质材料的 AOTF 特性研究综述. 光通信研究[J], 2011 (5), 56-59.

[198]    林炜, 刘波, 缪凯, 郭澎, 黄翔, &丁晓铭.长距离光纤传感系统消光比动态调谐方法[J]. 光通信研究, 2011 (2), 29-32.

[199]    王俊,耿卫东,张福海,项国庆,宋芃霖. 利用PIC32MX单片机串口实现点阵LCD驱动控制. 南开大学学报(自然科学版). 第44卷第4期 pp.35-40, 2011.

[200]    全治臻, 周锎, 耿卫东,胡思捷. 嵌入式人脸识别系统的硬件方案设计. 南开大学学报(自然科学版). 第44卷第6期 pp.18-24, 2011.

[201]    战传娜,张维,李亭,杨长锐,岳钊,牛文成,刘国华,一种用于生化传感检测的压电式行波微流泵的研究,传感技术学报,2011.11,Vol.24,No.11,1517-1521.

[202]    王程,张维,牛文成,岳钊,刘国华,用于SPR检测的自消噪光电二极管阵列驱动电路,传感技术学报,2011.4,Vol.29,No.2,522-526.

[203]    王程,张维,赵子春,刘国华,应用光电二极管阵列的SPR生物传感器微弱信号检测,应用科学学报,2011.3,Vol.29,No.2,133-139.

[204]    王程,赵子春,张维,岳钊,刘国华,一种通用的DSP脱机调试快速实现方式,自动化与仪表,2011(7),55-59.

[205]    王程, 赵子春, 张维, 岳钊, 刘国华,DSP多段代码可选择加载的设计与实现,南开大学学报(自然科学版), 2011,44(5), pp 1-6-13.

[206]    常鹏飞, 陈瑞良, 陈瑶, 吴虹,“ISO14443协议研究与应用”,计算机应用研究,第28卷增刊,第144-145页,2011年.

[207]    常鹏飞, 陈瑶, 王璐, 吴虹,“基于RFID的认证机制”,计算机应用研究,第28卷增刊,第712-713页,2011年.

[208]    梁科,李国峰,王锦,高艺,林列,一种以太网介质访问控制器芯片的设计与实现,微电子学与计算机,2011年06.

[209]    孙桂玲,孟凡琛,刘志强,张立,基于无线传感器网络的智能模拟路灯控制系统设计,无线通信技术,2011, Vol.20,No.3 :7-11.

[210]    孙桂玲, 于家龙,李维祥,无线体域网中的传感器节点设计与实现,无线通信技术,2011 , Vol.20, No.2:31-35.

[211]    李雯琦, 吴虹, 张南, 金宇昂,“地面数字电视信号与GPS相结合的定位系统”,电视技术,2010年6月,第34卷第6期,第11-15页.

[212]    宋士天, 吴虹, 戈立军, 赵迎新, 谭卫毅, 何善明,“一种基于MIMO-OFDM技术四发射天线多接收系统的设计”,南开大学学报(自然科学版),2010年,第43卷第1期,第60-65页.

[213]    李雯琦, 吴虹, 赵迎新, 戈立军, 谭卫毅, 宋士天,“一种利用共轭编码降低RS-OFDM系统PAPR的新方法”,南开大学学报(自然科学版),2010年4月,第43卷第2期,第38-41页.

[214]    孙冬艳, 赵加祥, 赵晓明,“基于PSO的可变分数延迟滤波器设计”,计算机工程, 2010年18期, 第4-6页.

[215]    司敏山,高艺,基于太阳能的温室无线传感网络监测系统设计,无线通信技术,2010年,第2期:57-62

[216]    周伟,张维,王程,赵子春, 王延涛, 牛文成,岳钊,刘国华,传感技术学报,贵金属纳米颗粒LSPR现象研究,Vol.23,No.5,2010,630-634

[217]    刘国华,赵子春,王延涛,孙玉刚,杨锶毅,无线体域网中体征参数的采集与处理,南开大学学报,2010,Vol. 43, No.1, 48-51

[218]    耿卫东,刘会刚,刘艳艳,商广辉,金庆,胡思捷,全治臻,场序彩色LCoS智能伽玛矫正电路设计,液晶与显示,2010年5期.

[219]    孙瑶,李男男,王建坤,耿卫东,刘文. 基于DSP的脑电信号采集系统在基础体温测量中的设计. 南开大学学报(自然科学版). 第43卷第3期 pp.58-60, 2010.

[220]    王建坤,李男男,孙瑶,耿卫东. 一种脑电信号模拟预处理电路的设计. 南开大学学报(自然科学版). 第43卷第2期 pp.47-50, 2010.

[221]    胡思捷, 耿卫东,商广辉,金庆. 一种电容式触摸屏和LCD之间的像素映射方法. 液晶与显示.第25卷第6期 pp 812-816 , 2010.

[222]    高艺,孙桂玲,李维祥,吕乐群,基于预测编码的无线传感网络节点数据压缩算法研究,南开大学学报(自然科学版),2010年,第43卷,第6期:77-80.

[223]    吕乐群;孙桂玲;李维祥;高艺. 基于簇内中转链路新型低功耗LEACH算法的研究. 无线通信技术, 2010/02

[224]    张颖,基于结构健康监测的无线传感器网络传输协议的设计和应用,无线通信技术,2010,19(1), 31-35.

 

二、获得和申请专利

发明专利:

[1]       胡欣、袁树忠、刘波,一种基于光纤光栅的埋地管线焊缝实时应力在线监测装置,专利号:中国,2010105945786[P]2012-08-22

[2]      胡欣、袁树忠、刘波,一种基于光纤传感的埋地油气管线外腐蚀实时监测装置,专利号:中国,2010105963017[P]2013-06-19

[3]      刘波、张昊、陈进杰、刘艳格、王志、郑夕宝,基于高双折射光子晶体光纤萨格纳克环的全光纤热补偿标准具,专利号:中国,2011102992900[P]

[4]      刘波、刘妍、苗银萍、张昊、王志、刘艳格,基于磁流体填充的倾斜微结构光纤光栅的磁场矢量测量仪,专利号:中国,2011102112864[P]2014-03-19

[5]       张伟刚、魏石磊、范弘建、刘波、耿鹏程、颜爱东,倾斜长周期及超长周期光纤光栅的激光脉冲写制方法,专利号:中国,2011100378327[P]2012-05-02

[6]       刘艳格、韩婷婷、王志、刘波、张昊,基于功能材料选择性填充微结构光纤的干涉型传感器,专利号:中国,2012102814819[P]

[7]       刘波、刘海锋、张昊,非金属封装光纤光栅传感器,专利号:中国,2012202269606 [P],  2012-12-12

[8]      张昊、刘波、林炜、苗银萍、刘艳格、王志,一种基于镱锗共掺微结构光纤窄线宽双波长激光器的太赫兹波源,专利号:中国,201210141017X[P]2013-09-11

[9]      张昊、刘波、董宏广、苗银萍、刘艳格、王志,级联声致微结构光纤长周期光栅干涉仪,专利号:中国,2012101419579[P]

[10]     张昊、刘波、杨春雪、梁鹄、苗银萍、王志、刘艳格,一种基于选择性填充的类双芯光子晶体光纤可调谐滤波器,专利号:中国,2013106296870[P]

[11]     苗银萍、蔺际超、林炜、吴继旋、张楷亮、袁育杰、刘波、张昊,一种基于磁流体及微纳光纤倏逝场的磁场传感器,专利号:中国,201310186027X[P]

[12]     苗银萍、蔺际超、张楷亮、林炜、袁育杰、刘波、吴继旋、张昊,一种基于单模光纤的Michelson模场干涉折射率传感器,专利号:中国,201310081592X[P]

[13]     苗银萍、蔺际超、林炜、张楷亮、刘波、袁育杰、吴继旋,基于闪耀光纤光栅的电流变化检测装置,专利号:中国,2013100840616[P]

[14]     刘波、郝赫、马松、王翰文、刘海锋、张福如,基于光纤光栅的油气管线泄漏检测方法及装置,专利号:中国,2014101083266[P]

[15]     刘波、刘海锋、王虎、张宁, 基于光纤拉曼散射效应的光缆识别定位方法及设备,专利号:中国,2014100942224[P]

[16]     苗银萍、何勇、宋彬彬、张昊、蔺际超、吴继旋、张楷亮、刘波,一种基于填充氦气的kagome光纤的高功率脉冲压缩装置,专利号:中国,2014102676979[P]

[17]     苗银萍、蔺际超、林炜、张楷亮、袁育杰、张昊、刘波,一种基于S型结构光纤和空气腔的温度传感器,专利号:中国,2014101885322[P]

[18]     苗银萍、蔺际超、林炜、张楷亮、袁育杰、张昊、刘波,基于倾斜微结构光纤光栅的磁控可调谐滤波器,专利号:中国, 2014101873448[P]

[19]     苗银萍、蔺际超、林炜、张楷亮、张昊、刘波、袁育杰,一种基于无芯光纤和磁流体的磁场测量装置,专利号:中国,2014100843290[P]

[20]     苗银萍、蔺际超、林炜、张楷亮、袁育杰、张昊、刘波,基于倾斜光纤光栅对氢气浓度和环境温度的双参数测量装置,专利号:中国,2014100847075[P]

[21]     刘会刚,耿卫东,高丕涛,张宇鹏,刘艳艳,孙钟林,时分复用输出的可编程电压源及其实现方法,2011420日,专利号:中国,ZL2009 10068091.1 

[22]     耿卫东,商广辉,刘艳艳,孙钟林,一种数字音视频信号串行解串器的实现方法,2013313日,专利号:中国,ZL201010578465.7

[23]     耿卫东,宋芃霖,用于60GHz片上天线的井字形人工磁导体,201375日,专利号:中国,ZL 201320398823.5

[24]     宋芃霖,耿卫东, 刘艳艳,庄再娇,张晋,张蕰千,曾夕 一种60吉赫兹梯形单极子片上集成天线,201442号,专利号:中国,ZL201320689556.7

[25]     耿卫东,周锎,王立萍,王俊,刘艳艳,李响,宋芃霖 太阳电池有源防反接与保护电路(发明),201457日,专利号:中国,ZL201210053509.3

[26]     耿卫东,孙祖军,刘艳艳,张晋,庄再娇,张蕰千,曾夕,一种集成级数混合运算SPWM发生器,2014627日,专利号:中国,ZL201420348651.5

[27]     吴虹、张南,“一种中国数字电视地面广播中帧头序号的检测方法”,发明专利,专利号:ZL201110005895.420154月,授权;

[28]     吴虹、戈立军、金宇昂,“多频带OFDM超宽带系统的定时同步方案”,发明专利,专利号:ZL200910228100.920133月,授权;

[29]     吴虹、戈立军、袁佳杰、谭卫毅,“数字互相关器的高效实现方法和设备”,发明专利,专利号:ZL200710059838.820107月,授权;

[30]     吴虹、赵迎新、袁佳杰、戈立军、周志江、陈晖,“一种实现OFDM系统同步、信道估计和降低峰均比的方法”,发明专利,专利号:ZL200710151207.920147月,授权;

[31]     吴虹、陈瑶、王璐、常鹏飞、陈瑞良、张学冰、谭卫毅,“公交IC卡身份识别认证系统”,发明专利,专利号:ZL200810152397.020118月,授权。

[32]     张伟刚, 张珊珊, 耿鹏程, 严铁毅, 王恺. 基于纤栅干涉结构的二维弯曲矢量传感器. 发明专利,专利号ZL201310050941.1,授权日2015527日。

[33]     刘国华,牛文成,张福海,俞梅,贾芸芳,张维,米永巍,王宁,“基于片上PCR的多通道表面等离子共振影像传感器”,发明专利,专利号:ZL200410094090.1

[34]     任立儒,刘会刚,张福海,耿卫东,张德贤,集成电路中硬件木马的无损检出系统,[发明专利] CN201210118587.7_ 南开大学_2012年4月20

[35]     任立儒,刘会刚,张福海,耿卫东,张德贤,集成电路中混合激活型硬件木马的无损检出方法 [发明专利] CN201210120257.1_ 南开大学_2012年4月20

[36]     任立儒,刘会刚,张福海,耿卫东,张德贤,集成电路中罕见向量序列激活型硬件木马的无损检出方法 [发明专利] CN201210118471.3_ 南开大学_2012年4月20

[37]     孙桂玲;李少阳;胡晓晖;张宇蒙;隗文钰;白笑宇,可防作弊酒精锁系统,申请号:201210001161.3

[38]     孙桂玲,李少阳,胡晓晖,张宇蒙,白笑宇,隗文钰,伸缩式酒精锁系统,申请号:201210002680.1

[39]     孙桂玲;李少阳;胡晓晖;张宇蒙;白笑宇;隗文钰,可防作弊酒精锁联锁装置,申请号:201210007339.5

[40]     孙桂玲,左杰,李洲周,杨长锐,张颖,李晓晨,基于无线传感器网络的超声波立体定位系统时间同步机制,申请号:201210262826.6

[41]     孙桂玲,李洲周,王志红,何静飞,李晓晨,党卫,一种基于回溯的迭代重加权压缩传感重构算法,申请号:201210480452.5

[42]     孙桂玲,左杰,何静飞,李晓晨,李洲周,一种基于压缩传感理论的小波组合稀疏基底,申请号:201210527858.4

[43]     孙桂玲,何静飞,左杰,王志红,基于压缩传感的一种自校验稀疏度自适应匹配追踪算法,申请号:201210536059.3

[44]     孙桂玲,何静飞,左杰,李洲周,李晓晨,基于压缩传感理论的一种二值稀疏信号重构算法,申请号:201210562420.X

[45]     孙桂玲,左杰,何静飞,李洲周,张颖,冯硕,一种基于压缩传感理论的多参量信息融合稀疏模型,申请号:201310029932.4

[46]     孙桂玲,范孟秋,毕晓朕,何静飞,一种应用于WSN的传输触发架构ASIP的汇编工具链,申请号:201410201411.7

[47]     孙桂玲,刘洋,许依,许红彦,一种基于一维条码与AES加密QR码的新型快递单,申请号:201410711864.4

[48]     孙桂玲,刘洋,陈海华,许依,一种基于AES加密QR码的智能签到系统及方法,申请号:201410814155.9

[49]     孙桂玲,刘洋,陈海华,许红彦,一种基于Android的多模式AES加密QR码的识别方法,申请号:201510182661.5

[50]     孙桂玲,刘洋,一种基加密QR码的防伪标签及验证方法,申请号:201510245719.6

[51]     刘国华、李文彬、张维、王程、叶巍翔、岳钊,一种制备稳定的银纳米颗粒的绿色方法(发明专利,申请号:201310076938.7)

[52]     刘国华、张维、叶巍翔、王程、李文彬,一种基于旋转微磁阵列协调驱动的行波式无阀微泵(发明专利,申请号:201310378611.5)

[53]     刘国华, 张维, 战传娜, 李亭, 杨长锐, 杨锶毅, 王有里, 韩志龙, 曹宁, 牛文成,多级扩散微流管道的行波式无阀压电微泵,发明专利,申请号:201110059444.92011314

[54]     刘国华、张维、牛文成、邱佳桢、姜平、靳昊宇、李智梁、杨锶毅、王程,一种基于二元光学器件的阵列化表面等离子共振传感器芯片,发明专利,申请号:200810053048.3

[55]     高艺,潘兴,张红宾,赵二刚,宋立红,具有断电保护功能的U盘记录仪,2012816日,申请号:201220404153.9

 

实用新型专利:

[56]     张伟刚,李杰良,高社成,白志勇,严铁毅,刘永基. S 型锥内嵌式光纤布拉格光栅双参数传感器. 实用新型专利, 专利证书号ZL201420074714.2,授权日20141029日。

[57]     张伟刚, 范弘建, 魏石磊, 李晓兰, 张珊珊, 王恺. 折射率沿光纤轴向调制的超长周期光纤光栅. 实用新型专利,专利证书号ZL201120049706.9,授权日2011.11.30

[58]     张伟刚, 钟诚, 李晓兰, 颜爱东, 严肃源, 屈柯楠. 测量范围可调且温度不敏感的光纤光栅流速传感器. 实用新型专利,专利证书号ZL201120037914.7,授权日2011.10.12

[59]     孙桂玲,左杰,李洲周,杨长锐,张颖,李晓晨,无线传感器网络和超声波协同作用下的立体定位系统,专利号:ZL201220367071.1授权时间,2013.2.20

[60]     孙桂玲,何静飞,左杰,辛乃宏,杨永海,一种基于无线传感器网络的渔场投饵系统,专利号:ZL201320433281.0 , 授权时间,2014.1.15

[61]     孙桂玲,范孟秋,毕晓朕,何静飞,一种WSN专用指令集处理器的汇编工具链,专利号:ZL201420243561.X,授权时间,2014.9.24

[62]     刘国华 费翔 陈芳霖 陈欣民 张玮 蔡文波,基于眼电信号和头部运动信号的智能轮椅,实用新型专利,专利号:ZL201020662078.7

[63]     刘国华,牛文成,张福海,俞梅,贾芸芳,张维,米永巍,王宁,“多通道表面等离子共振影像传感器”,实用新型专利,专利号:ZL200420056276.3

[64]     耿卫东,周锎,王立萍,王俊,刘艳艳,李响,宋芃霖,太阳电池有源防反接与保护电路(实用新型)。201232日,专利号:中国,ZL201220076360.6

三、科研项目

863、国家基金等

[1]      何明,高温超导接收机前端集成技术,863项目,2009AA03Z208 2009.5.1-2012.1.20,经费100万

[2]      刘国华,基于无极QCM-D/LSPR双技术芯片的微流控系统及其对生物薄膜的多参数检测分析(61271099),国家基金,2013.01.01—2016.12.31,经费88.00万元。

[3]      张伟刚,基于折射率多维调制结构的空间光纤光栅理论与应用研究(11274181),国家自然科学基金,2013.01-2016.12,经费87万。

[4]      刘波,集成化、高速率、多参数、大规模新型光纤传感网络关键技术及其应用研究,国基金,2008.1201—2010.12.31,经费75万。

[5]      刘波,气体填充的Kagomé型光子晶体光纤特性及在激光脉冲压缩中的应用研究,国基金, 2014.01.01—2017.12.31,经费82万。

[6]      何明,基于超导器件的太赫兹信号源研究,国家基金面上项目,611710282012.01.01- 2015.12.31,经费65万。

[7]      孙桂玲,压缩传感理论应用于大规模高密度无线传感器网络中关键技术研究,国家自然科学基金,项目编号:61171140 2012.1—2015.12,经费62万。

[8]      耿卫东,宽锁定范围锁相环频率合成器稳定特性研究,国家自然科学基金青年科学基金项目,61204028 2013/01-2015/12,经费28万元。

[9]      刘国华,LSPR传感器与行波微泵集成化生物芯片及其对生物分子的检测研究(60871028),国家基金,2009.01.01—2011.12.12,经费36.00万元

[10]     张伟刚,基于飞秒激光蚀刻微腔的光子晶体光纤流体传感研究(10974100),国家自然科学基金,2010.01-2012.12,经费37万。

[11]     刘波,基于倾斜光栅的多维微结构光纤光子器件机理及应用研究,国基金,2010.01.0—12012.12.31,经费23万。

 

省部级科研项目:

[1]      刘波,红外CCD检测及驱动技术,部委项目,2010.12.16—2011.12.30,经费100万。

[2]      何明,超导低温接收机前端系统研制,“探月二期”工程,            2009.01-2010.12,经费100万。

[3]      刘国华,SPR多通道生物医学检测系统产品开发,天津市科技支撑计划项目(09ZCKFGX01200),2009.04.01—2012.03.12,经费75.00万元。

[4]      刘波,长距离分布式光纤通信线路安全预警技术与装备研究,天津市攻关,2011.04.01—2014.03.30,经费50万。

[5]      孙桂玲,温室农业数字化、精准化与信息化关键技术研究与应用,天津市科技支撑计划重点项目,项目编号:14ZCZDNC000142014.4—2016.3,经费50万元。

[6]      刘国华,基于石墨烯的高灵敏度SPR多功能检测仪的研究(14RCGFGX00843),天津市国际合作项目,2015.03.20—2016.09.30,经费50.00万元

[7]      李国峰,高精密温补晶体振荡器ASIC的研制,天津市科委科技支撑计划重点项目,项目编号:14ZCZDGX000342014.4—2017.3,经费30万元。

[8]      耿卫东,延迟效应与频率合成器稳定性研究,天津市自然科学基金,13JCQNJC01100 2013/04-2016/03,经费28万元。

[9]      孙桂玲,减灾防灾应急物联网中若干关键传感器及网络技术的研发,工信部课题,2011.3—2013.2,经费20万元。

[10]     吴虹,正交多载波调制太赫兹宽带无线通信关键技术研究,天津市自然科学基金重点项目,2013年,经费20万。

[11]     张伟刚,基于光纤干涉矢量传感地面沉降监测与防控关键技术研究(15JCZDJC39800),天津市自然科学重点基金,2015.04-2018.03,经费20万。

[12]     张伟刚,光纤微腔流体传感系统研究及其环境监测新技术开发(10JCZDJC24300),天津市自然科学重点基金,2010.04-2013.03,经费20万。

[13]     刘国华,新型双技术融合生物传感芯片及其微流控系统研究(12JCZDJC20400),天津市重点基金,2012.04.01—2015.03.30,经费20.00 万元。

[14]     刘国华,局部表面等离子共振生物传感芯片及测试系统研究(08JCYBJC12500),天津市面上基金,2008.04.01—2011.03.01 ,经费10.00万元。

[15]     刘国华,基于行波微泵的生物芯片微流控系统研究(20120031110031),教育部博士点基金,2012.01.01—2014.12.30,经费12.00万元。

[16]     孙桂玲,基于压缩传感理论的无线传感器网络图像采集技术研究,高等学校博士学科点专项科研基金,项目编号:201300311100322014.1—2016.12,经费12万。

[17]     吴虹,数字电视信号与卫星信号结合的定位接收系统研究,教育部博士点基金(博导类),2012年,经费12万

[18]     张伟刚,空间交错式微结构光纤光栅矢量传感研究(20120031110033),高等学校博士学科点专项科研基金,2013.01-2015.12,经费12万。

[19]     耿卫东,硅基等离子天线理论与技术研究,天津市自然科学基金青年项目,13JCQNJC01200,2017/1-2019/12,经费6万

[20]     赵迎新,OFDM无线通信系统中降低信号峰值功率技术的研究,天津自然科学基金青年项目,2013年,经费6万

[21]     耿卫东,硅基等离子天线高效率关键技术研究,高等学校博士学科点专项科研基金资助项目,201300311200342014/1-2016/12,经费4万。

[22]     何明,超导太赫兹信号发生与检测技术,部委项目(留学基金委),2010.01.01-2012.12.31,经费3万。

[23]     赵迎新,基于混合信号扩频技术的正交频分复用系统及关键技术的研究,中央高校基本科研业务专项基金,2012年,经费15万

[24]     张福海,船舶消防现场自建可靠的无线数字指挥系统(第二单位负责人,已验收结题),天津市攻关项目,20122014

[25]     张勃,微结构表面超精密加工新型光学在位检测技术基础研究(15JCYBJC16900),天津市自然基金一般项目,2015.4-2018.3

[26]     张勃,自由曲面特征表征函数与建模研究,中国科学院,2013.1-2015.12

[27]     张勃,基于光场成像技术的超分辨信息获取与重建(11474169),国家自然基金面上项目,2015.1-2018.12

[28]     宋丽培,基于光场成像技术的超分辨信息获取与重建,国家

[29]     宋丽培,基于偶氮聚合物光场吸收调制的超分辨微加工技术基础研究,国家

[30]     宋丽培,自由曲面特征表征函数与建模研究,省部

[31]     宋丽培,多波长照明下激光散斑对比度与速度的量化分析及医学应用基础研究,省部

[32]     张颖,无线体域网中运动监测关键技术的研究,高等学校博士学科点专项科研基金,2014.1

 

横向科研项目:

[1]       刘波,哈尔滨工业大学合作项目,横向项目,2013.11.28-2015.11.28,经费650万

[2]       孙桂玲,蔬菜规模化生产数控关键技术与集成示范,横向课题:天津滨城天龙农业科技有限公司,2012.4-2014.3,经费87

[3]      刘波,多通道光纤时频传输系统驱动模块的研发,横向项目,2015.01.07-2015.12.31,经费50万

[4]      吴虹,光纤时频传输系统驱动模块的研发,横向项目,2014年,经费50

[5]      孙桂玲,海水鱼循环水养殖数字化控制技术集成与示范,横向课题:天津市海发珍品实业发展有限公司,2012.4-2014.3,经费40

[6]      刘波,基于光纤光栅的油气管线腐蚀检测系统的研究与应用,横向项目,2012.02.21-2012.12.31,经费35万

[7]      刘波,便携式光纤光栅传感器系统,横向项目,2008.05.05-2013.12.30,经费30万

[8]      赵迎新,符合GSM/EDGE和CDMA2000/EVDO规范的基站测试仪信号处理算法开发,横向项目,2014年,经费20

[9]      吴虹,AIS接收机软件开发,横向项目,2015年,经费20

[10]     刘波,集成化光纤光栅解调仪研究,横向项目, 2011.06.01-2011.12.12,经费17万

[11]     刘波,基于分布式光纤传感的开关柜测温系统横向项目,52011.10.12-2011.11.25,经费16万

[12]     李国峰,密耦合RFID数字签名应答器芯片研制,2010.01.01-2010.12.31, 经费50

[13]     刘波,TP5000多用吸附仪,横向项目,2010.08.31-2015.08.31,经费2.4万

[14]     刘波,光纤光栅准分布式温度传感解调系统研制横向项目,2011.03.18-2011.12.12,经费8.50万

[15]     刘波,瓦级激光器及耦合模块研究横向项目,2011.06.20-2011.12.30,经费5.8万

[16]     李国峰,基于无线传感的物联网关键技术研究,2014.05.29-2015.05.29,经费3万元

[17]     张维,球压试验压痕自动测量方法的研究(横向项目),天津市产品质量监督检测技术研究院,2014-2015,经费1.5万

 

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