76. Can Lai, Zhiyao Tang, Zheyi Liu, Pan Luo, Wenxiang Zhang, Tingting Zhang, Wenhao Zhang, Zhe Dong*, Xinyuan Liu, Xueming Yang, Fangjun Wang*, Probing the functional hotspots inside protein hydrophobic pockets by in situ photochemical trifluoromethylation and mass spectrometry., Chemical Science 2024, 15, 2545.

75. Shiwen Liu, Zheyi Liu, Heng Zhao, Yongjie Guo, Yaolu Ma, Lingqiang Zhou, Yanxia Qi, Qiancheng Zhao, Chunlei Xiao, Xueming Yang, Fangjun Wang*, Molecular Structure Characterization of Micro/Nanoplastics by 193 nm Ultraviolet Photodissociation Mass Spectrometry., Analytical Chemistry 2023, 95, 18046- 18054.

74. Fangjun Wang*, Zheyi Liu, Zhibin Yin, Pan Luo, Shirui Yang, Chunlei Xiao*, Xueming Yang*, Progress and prospects of biomolecule mass spectrometry based on advanced ultraviolet light source., SCIENTIA SINICA Chimica 2023, 53, 2290- 2303.

73. Zheyi Liu, Shirui Yang, Lingqiang Zhou, Min He, Yu Bai, Shan Zhao, Fangjun Wang*, Structural characterization of protein-material interfacial interactions using lysine reactivity profiling-mass spectrometry., Nature Protocols 2023.

72. Shizhe Qi, Shan Zhao, Huiyan Zhang, Shiwen Liu, Jiaxin Liu, Jian Yang, Yanxia Qi*, Qiancheng Zhao*, Yan Jin, FangjunWang*, Novel casein antimicrobial peptides for the inhibition of oral pathogenic bacteria., Food Chemistry 2023, 425, 1, 136454.

71. Yu Bai, Zheyi Liu, Yuanqing Li, Heng Zhao, Can Lai, Shan Zhao, Kaixian Chen, Cheng Luo*, Xueming Yang, FangjunWang*, Structural Mass Spectrometry Probes the Inhibitor-Induced Allosteric Activation of CDK12/CDK13-Cyclin K Dissociation., Journal of the American Chemical Society 2023, 145, 21, 11477–11481.

70. Zheyi Liu, Xiong Chen, Shirui Yang, Ruijun Tian*, Fangjun Wang*, Integrated mass spectrometry strategy for functional protein complex discovery and structural characterization., Current Opinion in Chemical Biology 2023, 74, 102305.

69. Jing Liu, Ji Lv, Zheyi Liu, Zheng Fang, Can Lai, Shan Zhao, Mingliang Ye, Fangjun Wang*, Enhanced Interfacial H-Bond Networks Promote Glycan–Glycan Recognition and Interaction., ACS Applied Materials & Interfaces 2023, 15, 14, 17592–17600.

68. Lingqiang Zhou, Zheyi Liu, Yongjie Guo, Shiwen Liu, Heng Zhao, Shan Zhao, Chunlei Xiao, Shun Feng*, Xueming Yang, FangjunWang*, Ultraviolet Photodissociation Reveals the Molecular Mechanism of Crown Ether Microsolvation Effect on the Gas-Phase Native-like Protein Structure., Journal of the American Chemical Society 2023, 145, 2, 1285–1291.

67. Binwen Sun, Zheyi Liu, Jin Liu, Shan Zhao, Liming Wang*, FangjunWang*, The utility of proteases in proteomics, from sequence profiling to structure and function analysis., Proteomics 2022, e2200132.

66. Dalong Wang, Jing Liu, Xiaodong Chen, Jing Chen, Tingting Zhao, Jie Du, Changyuan Wang, Qiang Meng, Huijun Sun, Fangjun Wang*, Kexin Liu, Jingjing Wu*, Renal transporter OAT1 and PPAR-α pathway co-contribute to icaritin-induced nephrotoxicity., Phytotherapy Research 2022, 1-14.

65. Shiwen Liu, Heng Zhao, Zheyi Liu, Wenxiang Zhang, Can Lai, Shan Zhao, Xiaoming Cai, Yanxia Qi*, Qiancheng Zhao*, Ruibin Li, FangjunWang*, High-performance micro/nanoplastics characterization by MALDI-FTICR mass spectrometry.,Chemosphere 2022, 307, 135601.

64. Wenxue Niu, Zheyi Liu, Jing Liu, Can Lai, Tingting Zhang, Heng Zhao, Guosheng Wang, Fangjun Wang*, Ion-pair Reversed-phase×Low-pH Reversed-phase Two-dimensional Liquid Chromatography for In-depth Proteomic Profiling,Chemical Research in Chinese Universities 2022.

63. Zheyi Liu, Zhaoxian Qin, Chaonan Cui, Zhixun Luo, Bing Yang, You Jiang, Can Lai, Zhipeng Wang, Xiaolei Wang, Xiang Fang, Gao Li*, Fangjun Wang*, Chunlei Xiao*,  Xueming Yang, In-situ generation and global property profiling of metal nanoclusters by ultraviolet laser dissociation-mass spectrometry.,Science China Chemistry 2022, 65, 1196–1203.

62. Min He, Wenxiang Zhang, Zheyi Liu, Lingqiang Zhou, Xiaoming Cai, Ruibin Li, Yuanjiang Pan, Fangjun Wang*, The interfacial interactions of nanomaterials with human serum albumin.,Analytical and Bioanalytical Chemistry 2022, 414, 4677- 4684.

61. Jing Liu, Bin Li, Wenlian Li, Taowen Pan, Yunpeng Diao, Fangjun Wang*, 6-Shogaol Inhibits Oxidative Stress-Induced Rat Vascular Smooth Muscle Cell Apoptosis by Regulating OXR1-p53 Axis., Frontiers in Molecular Biosciences 2022, 9, 808162.

60. Min He, Wangyin Wang, Zheyi Liu, Wenxiang Zhang, Jinan Li, Wenming Tian, Ye Zhou, Yan Jin, Fangjun Wang*, Can Li*, Characterization and manipulation of the photosystem II-semiconductor interfacial molecular interactions in solar-to-chemical energy conversion., Journal of Energy Chemistry 2022, 70, 437- 443.

59. Xiong Chen, Shanping Ji, Zheyi Liu, Xiao Yuan, Congsheng Xu, Ruxi Qi, An He, Heng Zhao, Haiping Song, Chunlei Xiao, Weina Gao, Peng R. Chen, Ray Luo, Pengfei Li*, Fangjun Wang*, Xueming Yang, Ruijun Tian*, Motif-dependent immune co-receptor interactome profiling by photoaffinity chemical proteomics., Cell Chemical Biology 2022, 29, 1024-1036.e5.

58. Ronglin Ma, Xiaoming Ca, Ye Zhou, Xi Liu, Di Wu, Huizhen Zheng, Yanxia Pan, Jun Jiang, Shujuan Xu, Qianqian Xie, Jie Jiang, Weili Wang*, Nikolai Tarasenko, Fangjun Wang*, Ruibin Li*, Emerging investigator series: long-term exposure of amorphous silica nanoparticles disrupts the lysosomal and cholesterol homeostasis in macrophages., Environmental Science Nano 2022, 9, 105- 117.

57. Pan Luo, Zheyi Liu, Tingting Zhang, Xiaolei Wang, Jing Liu, Yiqiang Liu, Xiaohu Zhou, Yang Chen, Wenrui Dong, Chunlei Xiao, Yan Jin, Xueming Yang, Fangjun Wang*, Chloride-Mediated Peroxide-Free Photochemical Oxidation of Proteins (PPOP) in Mass Spectrometry-Based Structural Analysis., Analytical Chemistry 2022, 94, 1135- 1142.

56. Tingting Zhang, Pan Luo, Can Lai, Zheyi Liu, Yan Jin*, Fangjun Wang*, Catalyst-free Photochemical Bromination of Unprotected Aromatic Amino Acid Derivatives by Using a Rotating Ultraviolet Photoreactor., Chemical Research in Chinese Universities 2021.

55. Wenxiang Zhang, Zheyi Liu, Ye Zhou, Can Lai, Binwen Sun, Min He, Ziyang Zhai, Jian Wange, Qi Wang, Xian Wang, Fangjun Wang*, Yuanjiang Pan*, Elucidating the molecular mechanisms of perfluorooctanoic acid-serum protein interactions by structural mass spectrometry, Chemosphere 2021, 132945.

54. Pan Gu, Shizhe Qi, Ziyang Zhai, Jing Liu, Zheyi Liu, Yan Jin, Yanxia Qi*, Qiancheng Zhao*, Fangjun Wang*, Comprehensive proteomic analysis of sea cucumbers (Stichopus japonicus) in thermal processing by HPLC-MS/MS. Food Chemistry 2022, 131368.

53. Pan Luo, Zheyi Liu, Tingting Zhang, Xiaolei Wang, Jing Liu, Yiqiang Liu, Xiaohu Zhou, Yang Chen, Guangjin Hou, Wenrui Dong, Chunlei Xiao, Yan Jin, Xueming Yang, Fangjun Wang*, Photochemical bromination and iodination of peptides and proteins by photoexcitation of aqueous halides. Chemical Communications 2021, 57, 11972-11975.

52.Shirui Yang, Wenxiang Zhang, Zheyi Liu, Ziyang Zhai, Xudong Hou, Ping Wang, Guangbo Ge^*, Fangjun Wang*, Lysine reactivity profiling reveals molecular insights into human serum albumin–small-molecule drug interactions. Analytical and Bioanalytical Chemistry 2021.

51.Binwen Sun, Ji Lv, Jin Chen, Zheyi Liu, Ye Zhou, Lin Liu, Yan Jin, Fangjun Wang*, Size-Selective VAILase Proteolysis Provides Dynamic Insights into Protein Structures. Analytical Chemistry 2021, 93, 10653-10660.

50. Binwen Sun, Zheyi Liu, Xiang Fang, Xiaolei Wang, Can Lai, Lin Liu, Chunlei Xiao*, You Jiang*, Fangjun Wang*, Improving the performance of proteomic analysis via VAILase cleavage and 193-nm ultraviolet photodissociation. Analytica Chimica Acta 2021, 338340.

49. Ye Zhou, Zheyi Liu, Mingdong Yao, Jun Chen, Yanan Xiao, Guangye Han, Jian-Ren Shen, Fangjun Wang*, Elucidating the Molecular Mechanism of Dynamic Photodamage of Photosystem II Membrane-protein Complex by Integrated Proteomics Strategy. CCS Chemistry 2021, 3, 443-454.

48. Zheyi Liu, Wenxiang Zhang, Binwen Sun, Yaolu Ma, Min He, Yuanjiang Pan, Fangjun Wang*, Probing conformational hotspots for the recognition and intervention of protein complexes by lysine reactivity profiling. Chemical Science 2021, 12, 1451-1457.

47. Yunchuan Tu, Wei Tang, Liang Yu, Zheyi Liu, Yanting Liu, Huicong Xia, Haiwei Zhang, Shiyun Chen, Jia Wu, Xiaoju Cui, Jianan Zhang, Fangjun Wang*, Yangbo Hu*, Dehui Deng*, Inactivating SARS-CoV-2 by electrochemical oxidation. Science Bulletin 2021, doi.org/10.1016/j.scib.2020.12.025.

46. Zheyi Liu, Zhimin Li, Guanna Li, Zhipeng Wang, Can Lai, Xiaolei Wang, Evgeny A. Pidko, Chunlei Xiao*, Fangjun Wang*, Gao Li*, Xueming Yang, Single-Atom Pt⁺ Derived from the Laser Dissociation of a Platinum Cluster: Insights into Nonoxidative Alkane Conversion. Journal of Physical Chemistry Letters 2020, 11, 5987-5991.

45. Caiming Xu, Jingyu Zhang, Jing Liu, Zhaoxia Li, Zheyi Liu, Yalan Luo, Qiushi Xu, Mengfei Wang, Guixin Zhang, Fangjun Wang*, Hailong Chen*, Proteomic analysis reveals the protective effects of emodin on severe acute pancreatitis induced lung injury by inhibiting neutrophil proteases activity. Journal of Proteomics 2020, 220, 103760.

44. Binwen Sun, Zheyi Liu, Zheng Fang, Wei Dong, Yang Yu, Mingliang Ye, Lin Liu, Hongda Wang, Fangjun Wang*, Probing the Proteomics Dark Regions by VAILase Cleavage at Aliphatic Amino Acids. Analytical Chemistry 2020, 92, 2770−2777

43. Chen Jin, Anhui Wang, Bing Liu, Ye Zhou, Pan Luo, Zhichao Zhang, Guohui Li*, Quentin Liu*, Fangjun Wang*, Quantitative Lysine Reactivity Profiling Reveals Conformational Inhibition Dynamics and Potency of Aurora A Kinase Inhibitors. Analytical Chemistry 2019, 91, 13222-13229.

42. Liu Zheyi, Zhou Ye, Liu Jing, Chen Jin, Heck Albert J.R., Wang Fangjun*, Reductive methylation labeling, from quantitative to structural proteomics. Trends in Analytical Chemistry 2019, 118, 771-778.

41. Liu Zheyi, Wang Ruimin, Liu Jing, Sun Ruixiang*, Wang Fangjun*. Global Quantification of Intact Proteins via Chemical Isotope Labeling and Mass Spectrometry. Journal of Proteome Research 2019, 18, 2185-2194.

40. Weng Guofeng, Sun Binwen, Liu Zheyi, Wang Fangjun*, Pan Yuanjiang*, Analysis of oligonucleotides by ion-pair reversed-phase liquid chromatography coupled with positive mode electrospray ionization mass spectrometry. Analytical and Bioanalytical Chemistry 2019, 411, 4167-4173.

39. Zhou Ye; Liu Zheyi; Zhang Jinbao; Dou Tongyi; Chen Jin; Ge Guangbo; Zhu Shujia*, Wang Fangjun*, Prediction of ligand modulation patterns on membrane receptors via lysine reactivity profiling. Chemical Communications 2019, 55, 4311-4314.

38. Wu Yue; Ali Moustafa R. K.; Dong Bin; Han Tiegang; Chen Kuangcai; Chen Jin; Tang Yan; Fang Ning*, Wang Fangjun*; El-Sayed Mostafa A.*, Gold Nanorod Photothermal Therapy Alters Cell Junctions and Actin Network in Inhibiting Cancer Cell Collective Migration. ACS Nano, 2018, 12, 9279-9290.

37. Wang Fangjun*; Liu Zheyi; Weng Guofeng, Profiling the short-lived cationic species generated during catalytic dehydration of short-chain alcohols. Communications Chemistry 2018, 1, 51.

36. Wu Yue; Chen Jin; Liu Zheyi; Wang Fangjun*, Identification of pyridoxal phosphate-modified proteins using mass spectrometry. Rapid Commun. Mass Spectrom. 2018, 32, 195-200.

35.   Liu Zheyi; Jiang You; Xiao Chunlei*; Xiong Xingchuang; Wang Tao; Li Jinan, Wang Fangjun*; Fang Xiang*; Yang Xueming, Elucidating the various multi-phosphorylation statuses of protein functional regions by 193-nm ultraviolet photodissociation. Chinese Chemical Letters 2018, 29, 694-698.

34.  Weng Guofeng; Liu Zheyi; Chen Jin; Wang Fangjun*; Pan Yuanjiang*; Zhang Yukui, Enhancing the Mass Spectrometry Sensitivity for Oligonucleotide Detection by Organic Vapor Assisted Electrospray. Analytical Chemistry 2017, 89, 10256-10263.

33.  Liu Jing; Xu Bo; Liu Zheyi; Dong Mingming; Mao Jiawei; Zhou Ye; Chen Jin; Wang Fangjun*; Zou Hanfa, Specific mixing facilitates the comparative quantification of phosphorylation sites with significant dysregulations. Analytica Chimica Acta 2017, 950, 129-137.

32.  Li Jinan; Liu Jing; Liu Zheyi; Tan Yuan; Liu Xiaoyan; Wang Fangjun*, Detecting Proteins Glycosylation by a Homogeneous Reaction System with Zwitterionic Gold Nanoclusters. Analytical Chemistry 2017, 89, 4339-4343.

31.  Li Jinan; Liu Jing; Liu Zheyi; Tan Yuan; Liu Xiaoyan; Wang Fangjun*, Water-soluble Au nanoclusters for multiplexed mass spectrometry imaging. Chemical Communications 2017, 53, 12688-12691.

30.  Chen Jin; Wang Fangjun*; Liu Zheyi; Liu Jing; Zhu Yixin; Zhang Yukui; Zou Hanfa, Electrospray ionization in concentrated acetonitrile vapor improves the performance of mass spectrometry for proteomic analyses. Journal of Chromatography A 2017, 1483, 101-109.

29.  Zhou Ye; Wu Yue; Yao Mingdong; Liu Zheyi; Chen Jin; Chen Jun; Tian Lirong; Han Guangye; Shen Jian-Ren; Wang Fangjun*, Probing the Lysine Proximal Microenvironments within Membrane Protein Complexes by Active Dimethyl Labeling and Mass Spectrometry. Analytical Chemistry 2016, 88, 12060-12065.

28.  Liu Zheyi; Wang Fangjun*; Chen Jin; Zhou Ye; Zou Hanfa, Modulating the selectivity of affinity absorbents to multi-phosphopeptides by a competitive substitution strategy. Journal of Chromatography A 2016, 1461, 35-41.

27.  Liu Jing; Wang Fangjun*; Mao Jiawei; Zhang Zhang; Liu Zheyi; Huang Guang; Cheng Kai; Zou Hanfa*, High-Sensitivity N-Glycoproteomic Analysis of Mouse Brain Tissue by Protein Extraction with a Mild Detergent of N-Dodecyl beta-D-Maltoside. Analytical Chemistry 2015, 87, 2054-2057.

26.  Li Jinan; Wang Fangjun*; Wan Hao; Liu Jing; Liu Zheyi; Cheng Kai; Zou Hanfa*, Magnetic nanoparticles coated with maltose-functionalized polyethyleneimine for highly efficient enrichment of N-glycopeptides. Journal of Chromatography A 2015, 1425, 213-220.

25.  Li Jinan; Wang Fangjun*; Liu Jing; Xiong Zhichao; Huang Guang; Wan Hao; Liu Zheyi; Cheng Kai; Zou Hanfa*, Functionalizing with glycopeptide dendrimers significantly enhances the hydrophilicity of the magnetic nanoparticles. Chemical Communications 2015, 51, 4093-4096.

24. Chen Jin; Liu Zheyi; Wang Fangjun*; Mao Jiawei; Zhou Ye; Liu Jing; Zou Hanfa*; Zhang Yukui, Enhancing the performance of LC-MS for intact protein analysis by counteracting the signal suppression effects of trifluoroacetic acid during electrospray. Chemical Communications 2015, 51, 14758-14760.

23.  Zhu Jun; Sun Zhen; Cheng Kai; Chen Rui; Ye Mingliang; Xu Bo; Sun Deguang; Wang Liming; Liu Jing; Wang Fangjun*; Zou Hanfa*, Comprehensive Mapping of Protein N-Glycosylation in Human Liver by Combining Hydrophilic Interaction Chromatography and Hydrazide Chemistry. Journal of Proteome Research 2014, 13, 1713-1721.

22.  Xu Bo; Wang Fangjun*; Song Chunxia; Sun Zhen; Cheng Kai; Tan Yexiong; Wang Hongyang; Zou Hanfa*, Large-Scale Proteome Quantification of Hepatocellular Carcinoma Tissues by a Three-Dimensional Liquid Chromatography Strategy Integrated with Sample Preparation. Journal of Proteome Research 2014, 13, 3645-3654.

21.  Wu Yue; Wang Fangjun*; Liu Zheyi; Qin Hongqiang; Song Chunxia; Huang Junfeng; Bian Yangyang; Wei Xiaoluan; Dong Jing; Zou Hanfa*, Five-plex isotope dimethyl labeling for quantitative proteomics. Chemical Communications 2014, 50, 1708-1710.

20.  Liu Jing; Wang Fangjun*; Zhu Jun; Mao Jiawei; Liu Zheyi; Cheng Kai; Qin Hongqiang; Zou Hanfa*, Highly efficient N-glycoproteomic sample preparation by combining C-18 and graphitized carbon adsorbents. Analytical and Bioanalytical Chemistry 2014, 406, 3103-3109.

19.  Xu Bo; Chen Chen; Wang Fangjun*; Bian Yangyang; Cheng Kai; Qin Hongqiang; Song Chunxia; Zhu Jun; Liu Jing; Ye Mingliang; Zou Hanfa*, High specific phosphopeptides enrichment by titanium silicalite with post-treatment of desilication. Analytical Methods 2013, 5, 2939-2946.

18.  Wang Fangjun*; Cheng Kai; Wei Xiaoluan; Qin Hongqiang; Chen Rui; Liu Jing; Zou Hanfa*, A six-plex proteome quantification strategy reveals the dynamics of protein turnover. Scientific Reports 2013, 3.

17.  Wang Fangjun; Blanchard Alexandre P.; Elisma Fred; Granger Matthew; Xu Hongbin; Bennett Steffany A. L.*; Figeys Daniel*; Zou Hanfa*, Phosphoproteome analysis of an early onset mouse model (TgCRND8) of Alzheimer's disease reveals temporal changes in neuronal and glia signaling pathways. Proteomics 2013, 13, 1292-1305.

16.  Liu Zheyi; Ou Junjie; Liu Zhongshan; Liu Jing; Lin Hui; Wang Fangjun*; Zou Hanfa*, Separation of intact proteins by using polyhedral oligomeric silsesquioxane based hybrid monolithic capillary columns. Journal of Chromatography A 2013, 1317, 138-147.

15.  Liu Jing; Wang FangJun*; Zhang Zhen-Bin; Zou Han-Fa*, Reversed Phase Monolithic Column Based Enzyme Reactor for Protein Analysis. Chinese Journal of Analytical Chemistry 2013, 41, 10-14.

14.  Liu Jing; Wang Fangjun*; Lin Hui; Zhu Jun; Bian Yangyang; Cheng Kai; Zou Hanfa*, Monolithic Capillary Column Based Glycoproteomic Reactor for High-Sensitive Analysis of N-Glycoproteome. Analytical Chemistry 2013, 85, 2847-2852.

13.  Zhang Zhenbin*; Wang Fangjun*; Xu Bo; Qin Hongqiang; Ye Mingliang; Zou Hanfa, Preparation of capillary hybrid monolithic column with sulfonate strong cation exchanger for proteome analysis. Journal of Chromatography A 2012, 1256, 136-143.

12.  Wang Fangjun; Zhu Jun; Hu Lianghai; Qin Hongqiang; Ye Mingliang; Zou Hanfa*, Comprehensive analysis of the N and C terminus of endogenous serum peptides reveals a highly conserved cleavage site pattern derived from proteolytic enzymes. Protein & Cell 2012, 3, 669-674.

11.  Wang Fangjun; Wei Xiaoluan; Zhou Hu; Liu Jing; Figeys Daniel; Zou Hanfa*, Combination of online enzyme digestion with stable isotope labeling for high-throughput quantitative proteome analysis. Proteomics 2012, 12, 3129-3137.

10.  Wang Fangjun; Song Chunxia; Cheng Kai; Jiang Xinning; Ye Mingliang; Zou Hanfa*, Perspectives of Comprehensive Phosphoproteome Analysis Using Shotgun Strategy. Analytical Chemistry 2011, 83, 8078-8085.

9.    Song Chunxia*; Wang Fangjun*; Ye Mingliang; Cheng Kai; Chen Rui; Zhu Jun; Tan Yexiong; Wang Hongyang; Figeys Daniel*; Zou Hanfa*, Improvement of the Quantification Accuracy and Throughput for Phosphoproteome Analysis by a Pseudo Triplex Stable Isotope Dimethyl Labeling Approach. Analytical Chemistry 2011, 83, 7755-7762.

8.    Wang Fangjun; Han Guanghui; Yu Zhiyuan; Jiang Xinning; Sun Shutao; Chen Rui; Ye Mingliang; Zou Hanfa*, Fractionation of phosphopeptides on strong anion-exchange capillary trap column for large-scale phosphoproteome analysis of microgram samples. Journal of Separation Science 2010, 33, 1879-1887.

7.    Wang Fangjun; Chen Rui; Zhu Jun; Sun Deguang; Song Chunxia; Wu Yifeng; Ye Mingliang; Wang Liming; Zou Hanfa*, A Fully Automated System with Online Sample Loading, Isotope Dimethyl Labeling and Multidimensional Separation for High-Throughput Quantitative Proteome Analysis. Analytical Chemistry 2010, 82, 3007-3015.

6.    Wang Fangjun; Dong Jing; Ye Mingliang; Wu Ren'an; Zou Hanfa*, Integration of monolithic frit into the particulate capillary (IMFPC) column in shotgun proteome analysis. Analytica Chimica Acta 2009, 652, 324-330.

5.    Wang Fangjun; Dong Jing; Ye Mingliang; Wu Ren'an; Zou Hanfa*, Improvement of proteome coverage using hydrophobic monolithic columns in shotgun proteome analysis. Journal of Chromatography A 2009, 1216, 3887-3894.

4.    Wang Fangjun; Ye Mingliang; Dong Jing; Tian Ruijun; Hu Lianghai; Han Guanghui; Jiang Xinning; Wu Ren'an; Zou Hanfa*, Improvement of performance in label-free quantitative proteome analysis with monolithic electrospray ionization emitter. Journal of Separation Science 2008, 31, 2589-2597.

3.    Wang Fangjun; Dong Jing; Ye Mingliang; Jiang Xiaogang; Wu Ren'an; Zou Hanfa*, Online multidimensional separation with biphasic monolithic capillary column for shotgun proteome analysis. Journal of Proteome Research 2008, 7, 306-310.

2.    Wang Fangjun; Jiang Xiaogang; Feng Shun; Tian Ruijun; Jiang Xinning; Han Guanghui; Liu Hongwei; Ye Mingliang*; Zou Hanfa*, Automated injection of uncleaned samples using a ten-port switching valve and a strong cation-exchange trap column for proteome analysis. Journal of Chromatography A 2007, 1171, 56-62.

1.    Wang Fangjun; Dong Jing; Jiang Xiaogang; Ye Mingliang; Zou Hanfa*, Capillary trap column with strong cation-exchange monolith for automated shotgun proteome analysis. Analytical Chemistry 2007, 79, 6599-6606.