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导师信息
姓名: 钟建 英文名: Jian Zhong
 
导师类别: 硕士生导师 所在专业: 食品科学与工程
性别: 最高学位: 博士
所在单位: 食品学院
入职年月: 2015-07-11 出生年月: 1978-02-05
职务: 食教第二支部支部书记 职称: 副研究员
研究方向: 农产品加工与综合利用 E-Mail: jzhong@shou.edu.cn
通讯地址: 上海海洋大学沪城环路999号食品学院 201306
简历:

钟建,男,博士,上海海洋大学食品学院副研究员、硕士生导师。

主要研究方向:农产品加工与综合利用

1. 农产品多尺度加工与检测技术(原子力显微镜、静电纺丝、鱼刺检测和微纳米粉碎等)开发

2. 农产品特征生物活性物质(蛋白质和脂质等)多尺度结构分析

3. 基于农产品特征生物活性物质的营养与医用制品研发

联系方式:

E-mail: jzhong(at)shou.edu.cn

办公室电话:021-61900363

地址:上海海洋大学食品学院A楼113室

教育经历:

沈阳药科大学学士(1998-2002),北京大学博士(2002-2007),美国普渡大学访问学者(2007.12-2008.3;2008.5-7,8-9),中国科学院高级访问学者(化学研究所,2016-2017)

工作经历:

爱尔兰都柏林大学博士后(2007-2010),纳米技术及应用国家工程研究中心副研究员(2011-2015),上海海洋大学食品学院副研究员(2015-现在)

研究成果:

上海海洋大学食品学院副研究员、硕士生导师,入选上海市浦江人才计划、上海市领军人才“后备队”。担任上海市食品学会食品安全专业委员会委员(2017.8-)、食品经济专业委员会委员(2017.8-),担任Trends in Food Science & Technology (IF=5.191)、Current Pharmaceutical Design (IF=2.611)、Journal of Nanomaterials (IF=1.871)、Science of Advanced Materials (IF=1.671)等杂志的客座编辑,参编英文专著3部(已经出版),正在主编英文专著1部、参编中文教材2部,发表第一作者/通讯作者论文30余篇(影响因子总和超过140),授权国家发明专利20余项。

主要承担项目情况

1.复旦大学聚合物分子工程国家重点实验室开放研究课题,K2018-25,面向骨组织修复的可注射性载干细胞高分子/BMP-2/大豆磷脂微球研究,2018/01-2018/12,在研,主持。

2.上海市科技创新行动计划仪器试剂专项,17142202800,原子力显微镜生物单分子力谱分析的测试方法研究,2017/07-2019/06,在研,主持。

3.上海高校中青年教师国内访学进修资助计划,中国科学院高级访问学者(中科院化学研究所高明远研究员课题组),2016/12-2017/12,已结题,主持。

4.国家重点研发计划,2016YFD0400202-8,典型食品加工条件下特征动物生物活性物质多尺度结构变化与功能调控机制,2016/07-2020/12,(上海海洋大学陶宁萍教授负责),在研,参与。

5.上海高校青年教师培养资助计划,水产养殖水体中重金属离子检测研究,2016/01-2017/12,已结题,主持。

6.国家标准制修订项目,20131702-T-469,扫描探针显微镜学中探针针尖形状测量与报告的标准规程,2014/01-2015/12,已经完成、已经提交标准报批稿,主持。

7.国家标准制修订项目,20131701-T-469,利用原子力显微镜测定纳米颗粒粒径大小的标准方法,2014/01-2015/12,已经完成、正在征求意见,主持。

8.国家高技术研究发展计划(863计划),2013AA032203,纳米载药成形材料和可降解高分子网状微孔球囊研发(所属863课题:生物相容性纳米组织修复材料研制及应用),2013/12-2016/12,已结题,863子课题主持。

9.国家标准制修订项目,20130922-T-491,用原子力显微镜测量纳米颗粒尺寸的方法,2013/01-2014/12,已经完成、标准送审稿审查阶段,参与。

10.国家自然科学基金青年科学基金,51203024,原位纳米力学测试平台-原子力显微镜联用系统的研制及其探索丝素蛋白自组装-力学行为关系的研究,2013/01-2015/12,已结题,主持。

11. 上海市闵行区高层次人才科研项目,上海领军人才“后备队”(闵行区领军人才)(于2011年入选)配套项目,高分子材料表界面行为研究,2012/12-2015/12,已结题,主持。

12. 上海市浦江人才计划项目,12PJ1430300,万能力学试验机-原子力显微镜联用系统研制及其应用研究,2012/10-2014/09,已结题,主持。

13.国家高技术研究发展计划(863计划),2012AA030309,材料的界面设计与优化机制研究(所属863课题:有机/无机纳米复合修复材料及其口腔医学应用开发),2012/01-2014/12,已结题,863子课题主持。

14.国家自然科学基金面上项目,51073173,可预防经皮椎体后凸成形术中骨水泥溃散的可降解高分子网状球囊的制备与性能研究,2011/01-2014/12,已结题,参加(合作单位技术负责)。

获奖情况:

(1)    2013年第十二届国际材联先进材料大会,所指导研究生获得“优秀论文奖”,2013.9
(2)    全国纳米生物与医药技术发展研讨会暨纳米生物与医药技术专业委员会2013学术年会,作为通讯作者获得优秀论文一等奖(会议最高奖),2013.11

专利著作:

(一)专利:

1. 代表性授权国家发明专利:

(1) 何丹农,钟建.,原子力显微镜用卧式材料拉伸压缩试验机杠杆型拉伸夹具,2017.1.11,中国,ZL 201410546433.7

(2) 何丹农,钟建.,原子力显微镜卧式材料拉伸压缩试验机丝杠驱动样品支撑台,2016.12.7,中国,ZL 201410548690.4

(3) 魏代旭,钟建,何丹农,多层结构的神经修复导管支架及其制备方法,2016.7.20,中国,ZL 201310639284.4

(4) 周涓,朱君,钟建,何丹农,载药介孔二氧化硅增强的齿科粘结剂及其制备方法,2016.5.25,中国,ZL 201310639302.9

(5) 钟建,魏岱旭,周涓,何丹农,原子力显微镜配套用卧式材料拉伸压缩试验机,2016.4.27,中国,ZL 201310751692.9

(6) 何丹农,钟建,姜杰,颜娟,王萍,一种磁性颗粒表面修饰金纳米颗粒的功能化方法,2016.4.27,中国,ZL 201410786298.3

(7) 周涓,朱君,张彬,钟建,金彩虹,何丹农,自酸蚀双亲性齿科粘结剂及其制备方法,2016.4.6,中国,ZL 201310638270.0

(8) 孙钢,刘训伟,钟建,李敏,彭湘涛,王志国,一种使骨水泥后续产生热量的方法,2016.1.20,中国,ZL 201410657224.X

(9) 魏岱旭,马梦佳,周涓,施丽君,钟建,何丹农,一种混合型蛋白质生物表面活性剂的石化类油乳化方法,2015.11.18,中国,ZL 201310265021.1

(10) 魏岱旭,钟建,闫志强,何丹农,激光共聚焦扫描显微镜高分子纤维可视化的制备方法,2015.11.18,中国,ZL 201110436614.0

(11) 钟建,马梦佳,李文英,闫策,何丹农,原子力显微镜配套用薄膜样品拉伸装置,2015.10.28,中国,ZL 201310037964.9

(12) 闫策,钟建,何丹农,具有微纳米多级结构的层状多孔磷酸钙粉末的制备方法,2015.10.28,中国,ZL 210456072.8

(13) 魏岱旭,闫志强,钟建,何丹农,一种生物可降解高分子多孔尿道修复支架及制备方法,2015.9.9,中国,ZL 201110436651.1

(14) 钟建,马梦佳,魏岱旭,闫志强,周涓,李文英,何丹农,单分子力谱分析用AFM探针和基底功能化修饰方法,2015.9.9,中国,ZL 201210258572.0

(15) 闫志强,杨一祎,钟建,魏岱旭,何丹农,用于肿瘤成像的靶向脂质体递药系统及制备方法和应用,2015.8.26,中国,ZL 201310166452.2

(16) 周涓,钟建,朱君,陈玉云,何丹农,一种结晶度可控的不溶性丝素膜及其制备方法,2015.8.26,中国,ZL 201110392252.X

(17) 马梦佳,魏岱旭,钟建,闫志强,余震,何丹农,一种静电纺丝复合血管支架及其制备方法,2015.8.19,中国,ZL 201210270606.8

(18) 马梦佳,魏岱旭,钟建,闫志强,余震,何丹农,一种新的静电纺丝复合支架及其制备方法,2015.8.19,中国,ZL 201210269929.5

(19) 魏岱旭,闫志强,钟建,周涓,朱君,何丹农,一种负载羟基磷灰石的聚乳酸多孔微球及制备方法,2015.6.24,中国,ZL 201210396694.6

(20) 闫志强,杨一祎,魏岱旭,钟建,刘璐,金彩虹,何丹农,一种聚乳酸-聚乙二醇-肿瘤穿透肽复合物及制备和应用,2015.6.24,中国,ZL 201310437613.7

(21) 闫志强,杨一祎,魏代旭,钟建,何丹农,一种D型多肽介导的靶向脂质体及其制备方法和应用,2015.5.25,中国,ZL 201210383701.9

(22) 魏岱旭,钟建,闫志强,何丹农,一种多孔膜片及制备方法和应用,2015.4.12,中国,ZL 201110436623.X

(23) 孙钢,钟建,刘训伟,李文英,金彩虹,何丹农,可降解高分子网状球囊的固定封闭装置及其输送装置,2015.1.7,中国,ZL 201210496696.2

(24) 闫志强,杨一祎,魏岱旭,钟建,周涓,朱君,金彩虹,何丹农,NRP-1配体多肽-聚乙二醇-磷脂复合物、其介导的主动靶向脂质体递药系统及其制备方法,2014.7.30,中国,ZL 201110437594.9

(25) 李文英,钟建,张小秋,尹桂林,张柯,姜来新,余震,何丹农,利用磁控溅射对原子力显微镜探针进行金膜修饰的方法,2014.4.16,中国,ZL 201210308708.4

(26) 陈玉云,徐宁,许国华,叶晓健,钟建,何丹农,硫酸软骨素交联胶原蛋白/羟基磷灰石复合支架材料的制备方法,2014.4.2,中国,ZL 201110384989.7

(27) 马梦佳,李文英,钟建,魏岱旭,闫志强,余震,何丹农,一种简单的磁颗粒功能化修饰方法,2013.12.25,中国,ZL 201210269926.1

(28) 钟建,李文英,马梦佳,闫策,何丹农,原子力显微镜配套用薄膜样品压缩装置,2013.7.31,中国,ZL 201310037946.0

2. 代表性申请专利:

(1) 钟建,张凤枰,王锡昌,刘耀敏,李德招,易刚辉,一种用于含骨鱼肉片的检测设备及方法,201710368861.9,申请日期:2017.5.23
(2) 钟建,张凤枰,王锡昌,刘耀敏,李德招,易刚辉,一种用于含骨鱼肉片的分拣设备及智能控制系统,201710367428.3,申请日期:2017.5.23
(3) 钟建,张楠,王锡昌,一种现场快速检测和去除铅离子的静电纺丝纳米纤维支架, 201710215730.7,申请日期:2017.4.4
(4) 钟建,张楠,王锡昌,一种现场快速检测和去除铁离子的静电纺丝纳米纤维支架, 201710216058.3,申请日期:2017.4.4
(5) 钟建,原子力显微镜卧式材料拉伸压缩试验机齿轮驱动样品支撑台,201710245428.6,申请日期:2017.4.14
(6) 钟建,原子力显微镜卧式材料拉伸压缩试验机对夹型拉伸夹具,201710245620.5,申请日期:2017.4.14
(7) 钟建,原子力显微镜卧式材料拉伸压缩试验机对夹型压缩夹具, 201710245626.2,申请日期:2017.4.14

(8) 钟建,张凤枰,王锡昌,刘耀敏,李德招,易刚辉,一种用于与传送装置配套的抽取式剔除装置,201710818301.9,申请日期:2017.9.12

(9) 钟建,张凤枰,王锡昌,刘耀敏,李德招,易刚辉,一种用于与传送装置配套的下摆式剔除装置,201710817739.5,申请日期:2017.9.12

(10) 钟建,等人,原子力显微镜基底功能化修饰的固定装置,201710824399.9,申请日期:2017.9.13

(11) 钟建,等人,原子力显微镜探针功能化修饰的固定装置,201710824400.8,申请日期:2017.9.13

(12) 钟建,等人,原子力显微镜配套微型万能力学试验机,201710824397.X,申请日期:2017.9.13

 

(二)著作:

1. 主编

Xichang Wang, Jian Zhong, Evaluation Technologies for Food Quality, Elsevier Publisher, 2017, Approved by Elsevier and the Chapters are Under Review.

2. 参编

(1) Jiuhong Zhang#, Zhiqiang Xie#, Juan Yan, Jian Zhong*, Synthetic Biodegradable Polymers for Bone Tissue Engineering, In Handbook of Composites from Renewable Materials, Wiley-Scrivener Publisher, 2017, ISBN 978-1-119-22379-5, pp 355-376

(2) Jiuhong Zhang, Zhiqiang Xie, Nan Zhang, Jian Zhong, Nanosuspension Drug Delivery System: Preparation, Characterization, Postproduction Processing, Dosage Form, and Application, In Therapeutic Nanostructures MultiVolume SET (I-V)‏, Elsevier Publisher, 2017, ISBN: 978-0-323-46143-6, pp 413-443

(3) Ruirui Qiao*, Kun Wang, Jian Zhong*, Tumor-penetrating peptides, In Peptide Applications in Biomedicine, Biotechnology and Bioengineering, Elsevier Publisher, 2018, ISBN: 978-0-08-100736-5, pp 371-386

论文发表:

代表性第一作者/通讯作者论文(#共第一作者;*通讯作者)

(1) Daixu  Wei#, Ruirui  Qiao#, Jinwei  Dao, Jing Su, Chengmin  Jiang, Xichang  Wang, Mingyuan Gao, Jian  Zhong*. Soybean Lecithin-Mediated Nanoporous PLGA Microspheres with Highly Entrapped and Controlled Released BMP-2 as a Stem Cell Platform. Small (IF=8.463), 2018, 201800063.

(2) Nan Zhang#, Ruirui Qiao#, Jing Su#, Juan Yan, Zhiqiang Xie, Yiqun Qiao, Xichang Wang*, Jian Zhong*. Recent Advances of Electrospun Nanofibrous Membranes in the Development of Chemosensors for Heavy Metal Detection. Small (IF=8.643), 2017, 13: 1604293.

(3) Xunwei Liu#, Daixu Wei#, Jian Zhong*, Mengjia Ma, Juan Zhou, Xiangtao Peng, Yong Ye, Gang Sun*, Dannong He*. Electrospun Nanofibrous P(DLLA–CL) Balloons as Calcium Phosphate Cement Filled Containers for Bone Repair: In Vitro and In Vivo Studies. ACS Applied Materials & Interfaces (IF=7.504), 2015, 7(33): 18540-18552.

(4) Jian Zhong*, Gang Sun*, Dannong He. Classic, Liquid, and Matrix-Assisted Dip-Pen Nanolithography for Materials Research. Nanoscale (IF=7.367), 2014, 6(21): 12217-12228.

(5) Ning Xu#, Xiaojian Ye#, Daixu Wei, Jian Zhong*, Yuyun Chen, Guohua Xu*, Dannong He. 3D Artificial Bones for Bone Repair Prepared by Computed Tomography-Guided Fused Deposition Modeling for Bone Repair. ACS Applied Materials & Interfaces (IF=7.504), 2014, 6(17): 14952-14963.

(6) Jian Zhong*, Mengjia Ma, Juan Zhou, Daixu Wei, Zhiqiang Yan, Dannong He. Tip-Induced Micropatterning of Silk Fibroin Protein Using In Situ Solution Atomic Force Microscopy. ACS Applied Materials & Interfaces (IF=7.504), 2013, 5(3): 737-746.

(7) Gang Sun#*, Daixu Wei#, Xunwei Liu, Yuyun Chen, Min Li, Dannong He, Jian Zhong*. Novel Biodegradable Electrospun Nanofibrous P(DLLA-CL) Balloons for the Treatment of Vertebral Compression Fractures. Nanomedicine: Nanotechnology, Biology and Medicine (IF=5.720), 2013, 9(6): 829-838.

(8) Jian Zhong*, Dannong He. Recent Progress in the Application of Atomic Force Microscopy for Supported Lipid Bilayers. Chemistry–A European Journal (IF=5.317), 2012, 18(14): 4148-4155.

(9) Nan Zhang#, Xiaolin Wang#, Chenchen Ma, Yiqun Qiao, Huan Zhang, Cuiping Shi, Xing Zhou, Yichi Zhang, Ruirui  Qiao, Xichang Wang*, Jian Zhong*. Electrospun Nanofibrous Cellulose Acetate/Curcumin Membranes for Fast Detection of Pb Ions. Journal of Nanoscience and Nanotechnology (IF=1.483), 2018, doi:10.1166/jnn.2018.15893.

(10) Yuhong Wu#, Hao Guo#, Juan Bu, Yanglan Tan, Jian Zhong*, Qingbiao Zhao*. Rapid and Sensitive Determination of Formamidines and Metabolites with HPLC-MS/MS Using Core-Shell Columns. Journal of Chromatography B (IF=2.603), 2018, 1076: 22-28.

(11) Hao Guo, Huijun Wang, Jing Zheng, Wenwen Liu, Jian Zhong*, Qingbiao Zhao*. Sensitive and Rapid Determination of Glyphosate, Glufosinate, Bialaphos and Metabolites by UPLC–MS/MS Using a Modified Quick Polar Pesticides Extraction Method. Forensic Science International (IF=1.989), 2018, 283: 111-117.

(12) 王晓琳, 时翠萍, 张楠, 乔逸群, 何玉宁, 王锡昌*, 钟建*. 静电纺丝纳米纤维在食品领域中的应用进展. 食品工业科技, 2017, (24): 334-338.

(13) 乔逸群, 张楠, 颜娟, 王锡昌*, 钟建*. 静电纺丝纳米纤维膜基光化学传感器的制备及其在重金属检测中的应用进展. 食品安全质量检测学报, 2017, 8(3): 869-875.

(14) Jian Zhong*, Yinlin Sha*, Yang Gan*, Guangyi Shang*. A Special Section on Instrumental Development and Application of Atomic Force Microscopy. Science of Advanced Materials (IF=1.671), 2017, 9(1): 52-54.

(15) Qi Xin#, Peng Li#, Yuning He, Cuiping Shi, Yiqun Qiao, Xiaojun Bian, Jing Su Su, Ruirui Qiao, Xinbo Zhou*, Jian Zhong*. Magnetic Tweezers for the Mechanical Research of DNAs at Single Molecule Level. Analytical Methods (IF=1.900), 2017, 9: 5720-5730.

(16) Yiqun Qiao#, Ruirui Qiao#, Yuning He, Cuiping Shi, Yao Liu, Hongxun Hao*, Jing Su*, Jian Zhong*. Instrumental Analytical Techniques for the Characterization of Crystals in Pharmaceutics and Foods. Crystal Growth & Design (IF=4.052), 2017, 17: 2138-2148.

(17) Jian Zhong*, Juan Yan. Seeing Is Believing: Atomic Force Microscopy Imaging for Nanomaterial Research. RSC Advances (IF=3.108), 2016, 6(2): 1103-1121.

(18) Lu Yu, Jie Sheng, Jianguo Zhou, Yingchun Gu, Jiuhong Zhang, Xuening Fei*, Jian Zhong*. Fluorescent Magnetic Nanoparticles Based on Supramolecular Interactions as a Prospective Imaging Biomaterial. Science of Advanced Materials (IF=1.671), 2016, 8(10): 1893-1900.

(19) Wei Wei#*, Lin Lin#, Xianghai Cai, Yiwen Li, Zhiqiang Yu, Jian Zhong*. Low-Temperature Synthesized Well-Crystallized ZnO Microspheres for Photocatalysis. Science of Advanced Materials (IF=1.671), 2016, 8(4): 811-816.

(20) Chen Chen, Donghua Li, Zhiguo Wang, Tong Li, Xunwei Liu*, Jian Zhong*. Safety and Efficacy Studies of Vertebroplasty, Kyphoplasty, and Mesh-Container-Plasty for the Treatment of Vertebral Compression Fractures: Preliminary Report. PloS One (IF=2.806), 2016, 11(3): e0151492.

(21) Hongjun Zhou#, Quan Xu#, Shaowei Li#, Yan-Jun Zheng, Xu Wu, Chaokang Gu, Yusheng Chen, Jian Zhong*. Dynamic Enhancement in Adhesion Forces of Truncated and Nanosphere Tips on Substrates. RSC Advances (IF=3.108), 2015, 5(111): 91633 - 91639.

(22) Jian Zhong*, Huan Zhang, Juan Yan, Xiao Gong. Effect of Nanofiber Orientation of Electrospun Nanofibrous Scaffolds on Cell Growth and Elastin Expression of Muscle Cells. Colloids and Surfaces B: Biointerfaces (IF=3.887), 2015, 136(0): 772-778.

(23) Jian Zhong*, Xunwei Liu, Daixu Wei, Juan Yan, Ping Wang, Gang Sun*, Dannong He. Effect of Incubation Temperature on the Self-Assembly of Regenerated Silk Fibroin: A Study Using Afm. International Journal of Biological Macromolecules (IF=3.671), 2015, 76(0): 195-202.

(24) Jian Zhong*, Dannong He*. Combination of Universal Mechanical Testing Machine with Atomic Force Microscope for Materials Research. Scientific Reports (IF=4.259), 2015, 5(0): 12998.

(25) Jian Zhong*. Nanotechnology for Drug Delivery: Part II. Current Pharmaceutical Design (IF=2.611), 2015, 21(29): 4129-4130.

(26) Jian Zhong*. Nanotechnology for Drug Delivery: Part III. Current Pharmaceutical Design (IF=2.611), 2015, 21(42): 6037-6037.

(27) Jian Zhong*. Nanotechnology for Drug Delivery: Part I. Current Pharmaceutical Design (IF=2.611), 2015, 21(22): 3064-3065.

(28) Linxue Lin, Runsong Hao, Wei Xiong, Jian Zhong*. Quantitative Analyses of the Effect of Silk Fibroin/Nano-Hydroxyapatite Composites on Osteogenic Differentiation of MG-63 Human Osteosarcoma Cells. Journal of Bioscience and Bioengineering (IF=2.240), 2015, 119(5): 591-595.

(29) Ang Chen, Ye Shi, Zhiqiang Yan, Hongxun Hao, Yong Zhang, Jian Zhong*, Huiming Hou*. Dosage Form Developments of Nanosuspension Drug Delivery System for Oral Administration Route. Current Pharmaceutical Design (IF=2.611), 2015, 21(29): 4355-4365.

(30) Jian Zhong*, Mengjia Ma, Wenying Li, Juan Zhou, Zhiqiang Yan, Dannong He. Self-Assembly of Regenerated Silk Fibroin from Random Coil Nanostructures to Antiparallel β-Sheet Nanostructures. Biopolymers (IF=1.908), 2014, 101(12): 1181-1192.

(31) 马梦佳, 陈玉云, 闫志强, 丁剑, 何丹农*, 钟建*. 原子力显微镜在纳米生物材料研究中的应用. 化学进展 (IF=0.953), 2013, 25(1): 135-144.

(32) Mengjia Ma#, Jian Zhong#*, Wenying Li, Juan Zhou, Zhiqiang Yan, Jian Ding, Dannong He*. Comparison of Four Synthetic Model Peptides to Understand the Role of Modular Motifs in the Self-Assembly of Silk Fibroin. Soft Matter (IF=3.889), 2013, 9(47): 11325-11333.

(33) Yunrong Zhu#, Yuyun Chen#, Guohua Xu, Xiaojian Ye*, Dannong He, Jian Zhong*. Micropattern of Nano-Hydroxyapatite/Silk Fibroin Composite onto Ti Alloy Surface Via Template-Assisted Electrostatic Spray Deposition. Materials Science and Engineering: C (IF=4.164), 2012, 32(2): 390-394.

(34) E. Martines#, J. Zhong#, J. Muzard, A. C. Lee, B. B. Akhremitchev, D. M. Suter*, G. U. Lee*. Single-Molecule Force Spectroscopy of the Aplysia Cell Adhesion Molecule Reveals Two Homophilic Bonds. Biophysical Journal (IF=3.656), 2012, 103(4): 649-657.

(35) Jian Zhong*. From Simple to Complex: Investigating the Effects of Lipid Composition and Phase on the Membrane Interactions of Biomolecules Using In Situ Atomic Force Microscopy. Integrative Biology (IF=3.252), 2011, 3(6): 632-644.

(36) Jian Zhong*, Chunhui Yang, Wenfu Zheng, Lixin Huang, Yuankai Hong, Lijun Wang, Yinlin Sha*. The Role of Calcium Ions in the Interactions of PrP106-126 Amide with Model Membranes. Colloids and Surfaces B: Biointerfaces (IF=3.887), 2010, 77(2010): 40-46.

(37) Jian Zhong*, Chunhui Yang, Wenfu Zheng, Lixin Huang, Yuankai Hong, Lijun Wang, Yinlin Sha*. Effects of Lipid Composition and Phase on the Membrane Interaction of the Prion Peptide 106–126 Amide. Biophysical Journal (IF=3.656), 2009, 96(11): 4610-4621.

(38) Jian Zhong, Wenfu Zheng, Lixin Huang, Yuankai Hong, Lijun Wang, Yang Qiu*, Yinlin Sha*. Prp106–126 Amide Causes the Semi-Penetrated Poration in the Supported Lipid Bilayers. Biochimica et Biophysica Acta (BBA) - Biomembranes (IF=3.498), 2007, 1768(6): 1420-1429.

在投第一作者/通讯作者论文(#共第一作者;*通讯作者)

(39)  Cuiping Shi; Yuning He; Yifen Wang; Jian Zhong*, Nanoimaging of Food Proteins by Atomic Force Microscopy. Part I: Components, Imaging Modes, Observation Ways, and Research Types(as a Part of the Special Issue of "Application of Atomic Force Microscopy in Food Science" Edited by Jian Zhong, et al.). Trends in Food Science & Technology (IF=5.191) 2017, Revised

(40)  Cuiping Shi; Yuning He; Yifen Wang; Jian Zhong*, Nanoimaging of Food Proteins by Atomic Force Microscopy. Part II: Application for Food Proteins from Different Sources (as a Part of the Special Issue of "Application of Atomic Force Microscopy in Food Science" Edited by Jian Zhong, et al.). Trends in Food Science & Technology (IF=5.191) 2017, Under Review