学术论文(Articles)
[81] Zhu J, Wang Z, Wu J, et al. Self‐Supervised Transfer Learning of Cross‐Domains Histopathological Images for Cancer Diagnosis[J]. International Journal of Imaging Systems and Technology, 2026, 36(1): e70278.
[80] Yunhong Li#, Jianbo Zhu#, Huijie Wang, Jing Pei, Zichen Ling, Sheng Ding,Linwei Shang, JianHua Yin*. Pix2Pix-driven virtual pathology staining based on phase contrast microscopy: a low-cost strategy for rapid intraoperative assessment of breast cancer[J]. Journal of Innovative Optical Health Sciences, 2026: 2540005.
[79] Wang H,Huang L, Ma X,et al.Deep leamning-enabled spectral retrieval for on-chip spatial heterodyne Fourier transform spectrometers with multi-mode multiplexing[J].Infrared Physics & Technology, 2025, 153: 106278.
[78] Wu J, Dong J, Xiong S, et al. Study on liquid core optical fiber enhanced Raman scattering and micro detecting liquid-phase joint synovial fluid[J]. Vibrational Spectroscopy, 2025, 142: 103879.
[77] 李博展#,吴青霞#,李运宏#,孙文惠,尚林伟,王慧捷,尹建华*. 微重力下关节软骨退变检测技术的研究进展[J]. 分析化学, 2025, 53(12): 2001-2008.
[76] Huijie Wang*, Xu Liu, Zichun Yang, Lang Huang, Xinhang Lou, Jianbo Zhu, Linwei Shang*, Jianhua Yin. Throughput-enhanced grating spectrometers for fiber-optic Raman detection with deep learning-based spectral recovery[J]. Vibrational Spectroscopy, 2025, 141: 103860.
[75] Wu Q, Ji X, Wu J, et al. In-situ NIR spectroscopy study on microgravity-induced articular cartilage degeneration with ResNet-18[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2025: 127188.
[74] Lang Huang#, Xinhang Lou#, Huijie Wang*, Xu Liu, Suwei Zhou, Jinjin Wu, Linwei Shang, Jianhua Yin. Accelerating the Raman spectroscopic discrimination of normal and cancerous tissues with low-rank constraint[J]. Optics Communications, 2025, 586: 131842.
[73] LinWei Shang, ChaoYi Ding, XinYi Ji, JianBo Zhu, JinJin Wu, Shuang Xiong, HuiJie Wang, JianHua Yin. Raman spectral unmixing via multimodal time-frequency transformations and deep learning[J]. Optics Express, 2025, 33(8): 16795-16808.
[72] 郭宇, 吴进锦,周苏伟,吉心仪,尚林伟,王慧捷,尹建华*. 基于光纤探头拉曼光谱技术的组织深度探测及空间偏移关系研究. 中国激光, 2025, 52(15):1507403
[71] Qingxia Wu, Jinjin Wu, Lang Huang, Zichun Yang, Linwei Shang, Huijie Wang, Jianhua Yin*. In situ study on articular cartilage degeneration in simulated microgravity by HOF-ATR-FTIR spectroscopy. Spectrochim Acta A: Molecular and Biomolecular Spectroscopy, 2025, 324: 125000
[70] 周苏伟, 郭宇, 吴进锦, 吴青霞, 李运宏, 尚林伟, 王慧捷, 尹建华*. 光纤拉曼探头的研究进展及生物医学应用.激光与光电子学进展, 2024, 61(21):47-56
[69] Huijie Wang, Zichun Yang, Linwei Shang, Jinjin Wu, Qingxia Wu, Lang Huang, Jianhua Yin. Throughput-enhanced FTIR spectrometers with deep learning-based spectral recovery. Infrared Physics & Technology, 2024, 136: 105108
[68] 吴青霞, 李柏楠, 惠紫阳, 王子函, 李运宏, 尚林伟, 尹建华*. 乳腺癌的多模态显微谱像分析及智能融合诊断研究. 中国激光, 2024, 51(15): 151-159
[67] Hui Shang, Qingxia Wu, Jinjin Wu, Suwei Zhou, Zihan Wang, Huijie Wang, Jianhua Yin*. Study on breast cancerization and isolated diagnosis in situ by HOF-ATR-MIR spectroscopy with deep learning. Spectrochim Acta Part A, 2024: 124546
[66] Zihan Wang, Jinjin Wu, Chenbei Li, Bing Wang, Qingxia Wu, Lan Li, Huijie Wang, Chao Tu, Jianhua Yin*. Diagnosis of osteosarcoma based on multimodal microscopic imaging and deep learning[J]. Journal of Innovative Optical Health Sciences, 2024: 2343001
[65] Jinjin Wu, Jiachun Dong, Yilin Bao, Linwei Shang, Qingxia Wu, Zichun Yang, Huijie Wang, Jianhua Yin*. Synovial fluid research based on SERS and SERRS for enhanced detection of biomarkers in staged osteoarthritis,[J]. Biophotonics. 2024: e202400024
[64] Jinjin Wu, Zhibing Xu, Linwei Shang, Zihan Wang, Suwei Zhou, Hui Shang, Huijie Wang, Jianhua Yin*. Multimodal microscopic imaging with deep learning for highly effective diagnosis of breast cancer. Optics and Lasers in Engineering, 2023, 168:107667
[63] Hui Shang; Linwei Shang; Jinjin Wu; Zhibing Xu; Suwei Zhou; Zihan Wang; Huijie Wang; Jianhua Yin. NIR spectroscopy combined with 1D-convolutional neural network for breast cancerization analysis and diagnosis. Spectrochimica Acta Part A: Molecular and Biomolecular, Spectroscopy, 2023, 287: 121990
[62] Linwei Shang; Jinlan Tang; Jinjin Wu; Hui Shang; Xing Huang; Yilin Bao; Zhibing Xu; Huijie Wang; Jianhua Yin. Polarized Micro-Raman Spectroscopy and 2D Convolutional Neural Network Applied to Structural Analysis and Discrimination of Breast Cancer. Biosensors, 2023, 13(1): 65
[61] 尚慧,吴进锦,许志兵,等.基于近红外光谱技术和机器学习的乳腺癌原位诊断研究. 光散射学报, 2022, 34(4):307-312
[60] 许志兵, 吴进锦, 丁路, 王子函, 周苏伟, 尚慧, 王慧捷, 尹建华. 基于偏振和明场多模态显微成像技术的乳腺癌智能诊断研究. 中国激光, 2022, 49(24): 2407102
[59] 尚慧. NIR spectroscopy combined with chemometrics for breast cancerization analysis and diagnosis, 全国第九届近红外光谱学术会议, 2022-10-22.
[58] Lin-Wei Shang, Yi-Lin Bao, Jin-Lan Tang, et al. A novel polynomial reconstruction algorithm-based 1D convolutional neural network used for transfer learning in Raman spectroscopy application. Journal of Raman Spectroscopy, 2022, 53(2): 237-246
[57] Yilin Bao, Huijie Wang, Jinjin Wu, Jiachun Dong, Jinlan Tang, Hui Shang, Linwei Shang, Jian Qin*, Jianhua Yin*. Surface enhanced Raman scattering research on synovial fluid, 2021 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). IEEE, 2021: 5-8
[56] 唐金兰,陆燕飞,包一麟,赵远,尚林伟,尹建华*. 基于HOF-ATR-FTIR光谱学的乳腺癌的蛋白质二级结构变化及识别研究. 光散射学报, 2021,33(2):179-186
[55] 唐金兰,包一麟,吴进锦,尚林伟,尚慧,许志兵,王慧捷,尹建华. 乳腺组织癌变的偏振拉曼光谱学研究[J]. 分析化学,2021,49(12):2048-2054
[54] Xu Dongdong, Yin Jianhua, Wang Xiao, Xu Zhibing, Zhou Wenxia. A super-resolution reconstruction algorithm for two-photon fluorescence polarization microscopy[J]. Optics Communications, 2021(30):127116
[53] Huijie Wang, Yilin Bao, Jinlan Tang, Qifeng Li, Wei Shi, Xiangyun Ma. On-chip monolithic Fourier transform spectrometers assisted by cGAN spectral prediction. Optics Letters, 2021, 46(17): 4288-4291
[52] Wang Xiao, Zhou Wenxia, Xu Dongdong, Yin Jianhua. Analysis and verification of fluorescence super-resolution microscopy via polarization modulation in reciprocal space. Journal of the Optical Society of America A, 2021, 38(3): 337-343
[51] Ma D, Shang L, Tang J, et al. Classifying breast cancer tissue by Raman spectroscopy with one-dimensional convolutional neural network[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2021, 256: 119732.
[50] Shang L W, Fu J J, Ma D Y, Yin J H. Raman spectroscopic study and identification of multi-period osteoarthritis of canine knee joint[J]. Applied Physics B, 2021,127:1
[49] 符娟娟,唐金兰,包一麟,尚慧,吴进锦,王潇,尹建华.近红外光谱光纤探头的创新设计用于骨关节炎的原位检测[J].红外与毫米波学报,2021,40(6):784~790
[48] 许志兵, 周文霞, 徐东东, 王潇, 尹建华, 王慧捷. 荧光偏振调制显微成像技术研究进展[J]. 激光与光电子学进展, 2021, 58(24): 2400006
[47] 马丹英, 符娟娟, 唐金兰, 尹建华*. 乳腺癌组织成分变化的拉曼光谱学研究. 分析化学, 2021, 49(01):144-150
[46] 符娟娟, 马丹英, 唐金兰, 包一麟, 赵远, 尚林伟, 尹建华.骨关节炎软骨的近红外光谱学研究及分期诊断[J].光谱学与光谱分析,2021,41(09):2770-2775
[45] Shang L W, Ma D Y, Fu J J, et al. Fluorescence imaging and Raman spectroscopy applied for the accurate diagnosis of breast cancer with deep learning algorithms[J]. Biomedical Optics Express, 2020, 11(7): 3673-3683.
[44] Yuan Zhao, Dan-Ying Ma, Juan-Juan Fu, Yi-Lin Bao, Jin-Lan Tang, Lin-Wei Shang, Xiao Wang, Jian-Hua Yin. Preliminary study on discrimination of healthy and osteoarthritic articular cartilage of canine by hollow fiber attenuated total reflection Fourier transform infrared spectroscopy and Fisher's discriminant analysis.Vibrational Spectroscopy,109(2020):10390
[43] Xiao Wang, Yaxin Zhang, Wenxia Zhou, Dongdong Xu, Jianhua Yin. Mapping the dipole orientation distribution within a super-resolution scale via fluorescence polarization modulation. Journal of the Optical Society of America A Vol. 37, Issue 3, pp. 353-360 (2020)
[42] YanFei Lu, Yuan Zhao, YongKang Zhu, Xinyu Xu*, JianHua Yin*. In situ research and diagnosis of breast cancer by using HOF-ATR-FTIR spectroscopy. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2020,235:118178
[41] 朱勇康, 马丹英, 陆燕飞, 尚林伟, 赵远, 张紫薇, 尹建华*. 骨关节滑液的表面增强拉曼散射研究. 分析化学, 2020, 48, 484-490
[40] 陆燕飞, 朱勇康, 赵远, 徐新宇, 尹建华*. 乳腺癌的傅里叶变换红外光谱成像研究. 光散射学报, 2020, 32(1), 78-83
[39] 马丹英, 赵 远, 尚林伟, 朱勇康, 符娟娟, 陆燕飞, 尹建华*. 拉曼光谱用于关节软骨和骨关节炎的研究进展. 光谱学与光谱分析, 2020, 40(7): 2029-2034
[38] Yuan Zhao, YongKang Zhu, YanFei Lu, LinWei Shang, JuanJuan Fu, DanYing Ma, Xiao Wang, JianHua YIN*. Supervised Identification of Osteoarthritis at Different Stages by Hollow Optical Fiber-Attenuated Total Reflection Fourier Transform Infrared Spectroscopy. Chinese Journal of Analytical Chemistry, 2019, 47(12): 1981-1986
[37] Yuan Zhao, YongKang Zhu, YanFei Lu, LinWei Shang, MingYang Zhai, Xiao Wang, JianHua Yin*. Anisotropy of bovine nasal cartilage measured by Fourier transform infrared imaging. Applied Physics B, 2019, 125: 232
[36] Zhang Y, Zhou W, Wang X, Yin J. A novel reconstruction algorithm for polarization modulated fluorescence super-resolution microscopy. Optik Volume 206, March 2020: 163358
[35] MingyangZhai, YanfeiLu, JuanjuanFu, YongkangZhu, YuanZhao, LinweiShang, JianhuaYin*. Fourier transform infrared spectroscopy research on subchondral bone in osteoarthritis. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Volume 218, 5 July 2019: 243-247
[34] Yuan Zhao, Yan Fei Lu, Yong Kang Zhu, Yue Chao Wu, Ming Yang Zhai, Xiao Wang and Jian Hua Yin* .Submillimetric FTIR detection of articular cartilage by home-made ATR-MIR-Hollow optical fiber probe.Infrared Physics & Technology, Volume 98, May 2019: 236-239
[33] 朱勇康, 陆燕飞, 尚林伟, 赵远, 江重宇, 徐浩, 尹建华*. 生物组织拉曼光谱定量测量的方法研究. 光散射学报, 2019, 31(03): 261-266
[32] 徐浩, 朱勇康, 陆燕飞, 尹建华*. 拉曼探头的发展及其生物医学应用. 激光与光电子学进展, 2019, 56(11): 110005
[31] Lu Y, Zhai M, Zhu Y, et al. Polarized infrared spectroscopy imaging applied to structural analysis of bilirubin aggregate at liquid-liquid interface[J]. Spectrochimica Acta Part A Molecular & Biomolecular Spectroscopy, 2018, 205:391
[30] Wang X, Zhai M Y, Mao Z H, et al. Fourier transform infrared spectroscopic imaging application for multi-stage discrimination in cartilage degeneration[J]. Infrared Physics & Technology, 2018,122-127
[29] Xiao Wang, Mingyang Zhai, Yuan Zhao, Jianhua Yin*. A review of articular cartilage and osteoarthritis studies by Fouriertransform infrared spectroscopic imaging. Annals of Joint, 2018,3,9
[28] ZHAI Ming-Yang, ZHAO Yuan, GAO Hao, SHANG Lin-Wei, XU Hao, YIN Jian-Hua. Quantitative Study on Articular Cartilage By Fourier Transform Infrared Spectroscopic Imaging and Support Vector Machine. Chinese Journal of Analytical Chemistry,2018, 46(6): 896-901
[27] GAO Hao, ZHAI Ming-yang, SHANG Lin-wei, ZHAO Yuan, XU Hao, WANG Xiao, YIN Jian-hua*. Articular Cartilage Optical Clearing Research by Raman Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(08): 2425-2429
[26] GAO Hao1, WANG Xiao1, SHANG Lin-wei1, ZHAO Yuan1, YIN Jian-hua1*, HUANG Bao-kun2*. Design and Application of Small NIR-Raman Spectrometer Based on Dichroic and Transmission Collimating. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(06): 1933-1937.
[25] Mao Z H, Wu Y C, Zhang X X, et al. Comparative study on identification of healthy and osteoarthritic articular cartilages by fourier transform infrared imaging and chemometrics methods[J]. Journal of Innovative Optical Health Sciences, 2017, 10(03): 1650054.
[24] Wang X, Zhao J, Yan Y, et al. An improved convex and concave index for revealing the exposure degree of atoms in protein 3D structure[J]. International Journal of Computational Biology & Drug Design, 2017, 10(4):331.
[23] WANG Xiao, ZHAO Yuan, YANG Feng, YIN Jianhua. High speed polarized fluorescence microscopy based on an electro optical modulator [J]. ActaOpticaSinica,2017,37(11):254-261
[22] Wang X, Yang F, Yin J. Mapping the polarization distribution of arbitrary vector polarization beam[J]. Optik, 2017, 144: 124-131.
[21] Wang X, Yang F, Yin J. Quantifying the polarization properties of non-depolarizing optical elements with virtual distorting elements[J]. Appl Opt, 2017, 56(10):2589
[20] Mao Z H, Yin J H, Zhang X X, et al. Discrimination of healthy and osteoarthritic articular cartilage by Fourier transform infrared imaging and Fisher’s discriminant analysis[J]. Biomedical Optics Express, 2016, 7(2): 448-453.
[19] Wu Y C, Zhang X X, Mao Z H, et al. Study on the anisotropy of collagenours fibers in articular with infrared imaging[J]. Guang pu xue yu Guang pu fen xi= Guang pu, 2016, 36(7): 2071-2075.
[18] Zhi-Hua MAO, Hao Gao, Jian-Hua YIN*. The Classification of Articular Cartilage with Different Preprocessing Methods based on Principal Component Analysis[J]. Light Scattering, 2016, 28(3):264-269 (Chinese)
[17] X. Wang, Y.C. WU, J.H. HE, Z.H. MAO, X.X. ZHANG, J.Y. CAI, Q. WANG, J.H. YIN*. A Study on Fluorescence Microscopy Measurement Method of Articular Cartilage[J]. Light Scattering, 2016, 28(3):185-189 (Chinese)
[16] 尚林伟,尹建华*.软骨退变的显微荧光光谱研究. 中国科技论文, 2016, 11(24):2811-2815
[15] Xue-Xi Zhang, Jian-Hua Yin*, Zhi-Hua Mao, Yang Xia. Discrimination of healthy and osteoarthritic articular cartilages by Fourier transform infrared imaging and partial least squares-discriminant analysis[J]. Biomed Opt 2015, 20(6): 060501
[14] Xue-Xi Zhang, Zhi-Hua Mao, Jian-Hua Yin*, Xia Yang. Determination of collagen and proteoglycan concentration in osteoarthritic and healthy articular cartilage by Fourier transform infrared imaging and partial least square. Vib Spectrosc. 2015,78:49-53
[13] Zhi-Hua MAO, Xue-Xi ZHANG, Yue-Chao WU, Jian-Hua YIN*, XIA Yang. Fourier Transform Infrared Microscopic Imaging and Fisher Discriminant Analysis for Identification of Healthy and Degenerated Articular Cartilage, Chin J Anal Chem, 2015,43,:518-522
[12] Y.C. Wu, Jianhua Yin*, Y. Liu, Zhihua Mao. Fourier Transform Infrared Spectroscopic Imaging and Analytical Method of Articular Cartilage,[J]. Nanjing University of Aeronautics & Astronautics, 2015,47:421-427 (Chinese)
[11] J.H. Yin, Y. Xia. Proteoglycan Concentrations in Healthy and Diseased Articular Cartilage by Fourier Transform Infrared Imaging and Principal Component Regression. Spectrochim Acta A, 2014, 133:825-830
[10] Zhang X, Xiao Z Y, Yin J, et al. Concentration determination of collagen and proteoglycan in bovine nasal cartilage by Fourier transform infrared imaging and PLS[C]//Twelfth International Conference on Photonics and Imaging in Biology and Medicine (PIBM 2014). SPIE, 2014, 9230: 278-284.
[9] J.H. Yin*, et.al. “Applications and Progress of Fourier Transform Infrared Spectroscopic Microimaging in Bone Disease Research”. Spectrosc. Spect Anal, 2014, 34:340-343.
[8] Z. Xiao, X.X. Zhang, J.H. Yin*. "Research and progress of Fourier transform infrared spectroscopic imaging on articular cartilage and osteoarthritis: A review", Chin Sci Bull, 59(27), 2645-51 2014 关节软骨和骨关节炎的傅里叶变换红外光谱学显微成像研究进展 科学通报,2014, 59 (27):2645 ~ 2651
[7] J.H. Yin. "Fourier Transform Infrared Spectroscopic Analysis and Characterization of Principal Components of Articular Cartilage", J Light Scattering, 2014, 16:213-218 . 关节软骨主成分的红外光谱学分析及表征,光散射学报,26(2),213-218,2014
[6] J.H. Yin, Y. Xia. Comparison of macromolecular component distributions in osteoarthritic and healthy cartilages by Fourier transform infrared imaging, J Innov. Opt. Health Sci. 2013, 6:1350048
[5] Z. Xiao, J.H. Yin*. Spectroscopic studies on bilirubin aggregate at liquid/liquid interface, Anal. Bioanal. Chem., 2013, 405:2723-2728
[4] J.H. YIN, Z. Xiao, Z. Li. Ultralow concentration beta-carotene molecule detection by liquid-core optical fiber resonance Raman spectroscopy, Vib. Spectrosc. 2012, 62:7-9
[3] J.H. YIN, Y. Xia. Concentration Profiles of Collagen and Proteoglycan in Articular Cartilage by Fourier Ttransform Infrared Imaging and Principal .Component Regression, Spectrochim Acta A, 2012, 88:90-96
[2] J.H. YIN, Y. Xia. “Chemical Visualization of Individual Chondrocytes in Articular Cartilage by Attenuated-Total-Reflection Fourier Transform Infrared Microimaging”, Biomed Opt Express, 2011,2:937-941
[1] J.H. YIN, Y. Xia. “Depth-dependent Anisotropy of Proteoglycan in Articular Cartilage by Fourier Transform Infrared Imaging”. Vib Spectrosc. 2011, 57:338-341
专利(Patents)
1.一种反射式近红外光纤探头, 尹建华, 符娟娟, 赵远, 马丹英, 朱勇康, 陆燕飞, 尚林伟, 王潇. 公开号:CN211505205U
2.用于在体和离体原位检测的中红外空心光纤ATR耦合探头, 尹建华*, 吴曰超, 张学喜, 马坤, 毛之华. 国家发明专利号:201410808975
3.一种控制显微物镜聚焦光场三维偏振方向的装置和方法, 王潇, 杨凤, 吴曰超, 尹建华. 公开号:CN105911682A
4.一种矢量光束偏振分布检测装置和方法. 公开号:CN106225928A
5.一种红光静脉增强显示装置和方法, 王潇. 公开号:CN106073715A
6.中红外空心光纤ATR耦合探头. 公开号:CN104535539B
7.可内窥光纤拉曼探针及检测装置, 尹建华*, 徐浩, 翟明阳, 高浩, 王潇. 国家发明专利号:201711315638
8.一种荧光成像手术导航系统, 王潇, 张雅馨, 徐俊琪, 陈春晓, 尹建华. 国家发明专利号:201810927271X
9.一种傅里叶变换红外光谱仪与Y型光纤探头的耦合装置, 尹建华*, 吴曰超, 王潇, 毛之华, 赵远, 陈福莲.国家发明专利号:201721659866.9
10.一种硅基多模式干涉调制傅里叶变换光谱测量方法及系统, 王慧捷, 国家发明专利号:ZL202110549407.X
11.一种基于生成对抗网络的硅基傅里叶变换光谱测量方法, 王慧捷,唐金兰, 包一麟, 尹建华, 国家发明专利号:ZL202110953916.9
12.一种用于微(痕)量样本拉曼光谱探测的液芯光纤耦合与信号增强装置, 尹建华, 吴进锦, 尚林伟, 王慧捷, 周苏伟, 王子函, 吴青霞, 杨子春, 公开号:CN116165189B
13.一种基于多特征信息采集与融合的多模态学习卷积神经网络模型的实施方法, 尹建华, 周苏伟, 尚林伟, 王慧捷, 国家发明专利号:202211125403X
14.一种基于分子谱像特征采集与融合的多模态学习卷积神经网络模型的实施方法, 尹建华, 尚林伟, 王慧捷, 国家发明专利号: 2022111254025
15.一种用于拉曼光谱学的基于多项式重建算法的CNN迁移学习方法, 尹建华, 尚林伟, 吴进锦, 王慧捷, 唐金兰, 包一麟, 国家发明专利号:202111173365.0
16.一种基于多模态显微成像和深度学习的癌症智能诊断方法, 尹建华, 许志兵, 吴进锦, 尚慧, 王慧捷, 王子函, 国家发明专利号:202111173431.4
17.一种多模态多波长显微谱像融合的智能诊断系统及方法, 尹建华, 李运宏, 王慧捷, 公开号:CN118866321A
18.一种基于相差显微成像的恶性肿瘤术中快速虚拟染色方法, 尚林伟, 李运宏, 尹建华, 国家发明专利号:2025111486473
学术会议(Conference and Presentations)
[22] 包一麟,唐金兰,尚林伟,朱勇康,尹建华*,基于表面增强拉曼散射的关节滑液研究,第21届全国分子光谱学学术会议,Oct. 30-Nov. 2, 2020, Chengdu, China
[21] 陆燕飞,马丹英,朱永康,尹建华*,乳腺癌的分子光谱成像及光谱分析,第20届全国光散射学术会议,Nov. 2-6, 2019, Suzhou, China
[20] 符娟娟,赵远,尹建华*,骨关节炎软骨下骨的傅里叶变换红外光谱研究,第20届全国光散射学术会议,Nov. 2-6, 2019, Suzhou, China
[19] 赵远,翟明阳,尚林伟,徐浩,陆燕飞,朱勇康,尹建华*, 关节滑液的傅里叶变换红外光谱分析, 20th National conference on light scattering(第二十届全国分子光谱学学术会议暨2018年光谱年会), Oct. 19-22, 2018, Qingdao, China
[18] 翟明阳,赵 远,尚林伟,徐 浩,陆燕飞,朱勇康,尹建华*, 关节软骨的红外光谱成像及支持向量机判别分析, 20th National conference on light scattering(第二十届全国分子光谱学学术会议暨2018年光谱年会), Oct. 19-22, 2018, Qingdao, China
[17] Mingyang Zhai, Yuan Zhao, Linwei Shang, Hao Xu, Yanfei Lu, Yongkang Zhu, Jianhua Yin *, Osteoarthitic Discriminant Analysis by Transform Infrared Spectroscopic Imaging and Support Vector Machine, 2018 Photonics Asia(2018亚洲光电子会议), Oct. 11-13, 2018, Beijing, China
[16] Yuan Zhao, Mingyang Zhai, Linwei Shang, Hao Xu, Yanfei Lu, Yongkang Zhu, Jianhua Yin *, Study on Joint Synovial Fluid by FTIR Spectroscopy, 2018 Photonics Asia(2018亚洲光电子会议), Oct. 11-13, 2018, Beijing, China
[15] H.Gao, L.W. Shang, Y. Zhao, M.Y. Zhai, J.H. Yin, Cartilage optical clearing research by Raman spectroscopy (软骨光透明的拉曼光谱研究), 19th National conference on light scattering, Dec. 1-4, 2017, Guangzhou, China
[14] J.H. Yin, 14th International Conference on Photonics and Imaging in Biology and Medicine, Sep 26-28, Suzhou, China
[13] J.H. Yin, 2017 China biomedical engineering conference, Apr 20-22, Beijing, China
[12] J.H. Yin, 1st National conference on Raman-based biomedical application (首届全国生物医学拉曼光谱学术会议), Wuhan, China, Nov 4-7, 2016
[11] Z.H. Mao, Jianhua Yin*, 18The 17th National Conference on Light Scattering, Chengdu, China, Oct 23-25, 2015
[10] Xiao Wang, Y.C. Wu, J.H. He, Jianhua Yin*, 18th National Conference on Light Scattering, Chengdu, China, Oct 23-25, 2015
[9] Jian-Hua Yin*, Xue-Xi Zhang, Principal Component Concentration Determination in Osteoarthritic and Healthy Articluar Cartilage by FTIRI and Partial Least Square, 29th INTERNATIONAL FORUM AND PROCESS ANALYTICAL TECHNOLOGY- IFPAC, Arlington, Virginia (Washington D.C.), USA, Jan. 25 - Jan. 28, 2015 (Jan 27)
[8] Jianhua Yin*, Fourier Transform Infrared Imaging of Articular Cartilage and Osteoarthriti, 18th National Conference on Molecular Spectroscopy, 31/10/2014-03/11/2014, Suzhou, China, Invited Speaker
[7] X.X. Zhang, Jianhua Yin*, 18th National Conference on Molecular Spectroscopy, 31/10/2014-03/11/2014, Suzhou, China:
Research on Principal Component Concentrations of Bovine Nasal Cartilage by Fourier Transform Infrared Imaging and PLS Algorithm, Spectrosc & Spect Anal, 2014, 34(10), 99
[6] Z.H. Mao, Jianhua Yin*, 18th National Conference on Molecular Spectroscopy, 31/10/2014-03/11/2014, Suzhou, China,
Fisher Discrimination to Normal and Degenerate Articular Cartilage Based on the Fourier Transform Infrared Imageing and PCA, Spectrosc & Spect Anal, 2014, 34(10), 97
[5] J.H. Yin, "Application of Liquid Core Fiber Fourier Transform Raman Spectroscopy to Low Concentration Detection", 11th International GeoRaman Conference, St Louis, MO, Jun 15-19, 2014
[4] X.X. Zhang, J.H. Yin*, "Concentration Determination of Collagen and Proteoglycan in Bovine Nasal Cartilage by Fourier Transform Infrared Imaging and PLS", The 12th International Conference on Photonics and Imaging in Biology and Medicine (PIBM), Wuhan, China, Jun 14-17, 2014
[3] X. Wang, Z.Y. Qian, L.D. Xing, Z.Q. Li, J.H. Yin, S. Jin, B.Y. Liu, "Study on the Characteristics of EEG θ Rhythm Induced by Large Negative Parallax during Watching 3DTV", 2014 International workshop on biology, chemistry and medical engineering (BCME 2014), Wuhan, China, Apr 7-8, 2014
[2] J.H. Yin, Fourier Transform Infrared Spectroscopic Analysis and Characterization of Principal Components of Articular Cartilage, 17th National Conference on Light Scattering, Xi'An, China, Oct 19-23, 2013
[1] J.H. Yin*, Y. Xia, "Comparison of principal component distributions in osteoarthritis and health cartilages by Fourier transform infrared imaging", The 11th International Conference on Photonics and Imaging in Biology and Medicine (PIBM), Wuhan, China, May 26-29, 2013