代表论文(第一或通讯作者)
[1] Hua-Bin Yuan, Manman Zhao, Xue Lei, Desheng Sha, Tieling Xing*, Guoqiang Chen. Fabrication of multifunctional cotton fabric with “pompon mum” shaped surface by ZIF-8 for applications in oil-water separation and anti-icing. Progress in Organic Coatings. 186(2024)108056 https://doi.org/10.1016/j.porgcoat. 2023.108056
[2] Hua-Bin Yuan, Jin Cheng, Desheng Sha, ManMan Zhao, Tieling Xing*, Guoqiang Chen. Fabrication of multi-functional and breathable superhydrophobic cotton fabric based on curcumin/ZIF-8 through mild thiol-ene click chemistry reaction. Applied SurfaceScience 646(2024)158882 https://doi.org/10.1016/j.apsusc.2023.158882
[3] Shuaikang Yang, Desheng Sha, Yijiang Li, Meiqi Wang, Xiaowei Zhu, Xiangrong Wang, Guoqiang Chen, Yichen Li* and Tieling Xing* Preparation of natural plant polyphenol catechin film for structural coloration of silk fabrics,Biomimetics (2024), 9, 15. https://doi.org/10.3390/biomimetics9010015
[4] Aijing Li, Xinpeng Chen, Yurong Sun, Jin Cheng, Ping Yao, Tieling Xing*, Guoqiang Chen. Photocatalytic activity and mechanism of PCN@GO/AgNPs heterojunction in Rhodamine B degradation. Colloids and Surfaces A:Physicochemical and Engineering Aspects. 679(2023)132651
[5] Xinpeng Chen,§ Jiapeng Wang,§ Ailing Xie, Boan Wang, Jiabao Wu, Guoqiang Chen, and Tieling Xing*. Fabrication of Robust Superhydrophobic Polyester Fabrics with Photothermal Conversion and Oil−Water Separation Performance through Deposition of Natural Polyphenols Langmuir(2023),https://doi.org/10.1021/acs.langmuir.3c02508
[6] Runshan Chu, Yanbo Zhang, Ling Li, Tieling Xing,* and Guoqing Chen,* Transfer Printing Process of Bio-Based Nylon 56 and Cotton Interwoven Fabrics. Journal of Composites and Biodegradable Polymers, 2023, 11, 1-8
[7] Huabin Yuan, Guoqiang Chen, Tieling Xing*,Thiol-ene Click Chemistry Reaction for Preparing Superhydrophobic Polyamide Fabric with Self-cleaning, UV-blocking, Photothermal Conversion and Antibacterial Properties. Industrial Crops & Products, 205(2023)117448
[8] Lili Xing, Haiwei Yang, Xinpeng Chen, Yirong Wang, Desheng Sha, Guoqiang Chen, Tieling Xing*, Caffeic acid induced in-situ growth of AgNWs on cotton fabric for temperature and pressure sensing and electrical interference shielding. Chemical Engineering Journal, 471(2023)144620
[9] Lili Xing, Yirong Wang, Jin Cheng, Guoqiang Chen, Tieling Xing*. Robust and flexible smart silk/PEDOT conductive fibers as wearable for personal health management and information transmission. International Journal of Biological Macromolecules 248 (2023) 125870
[10] Aijing Li , Xinpeng Chen , Ping Yao , Jun Zhang , Tieling Xing ,* Guoqiang Chen Comparison study on dye degradation by PDA-SF/AgNPs-H2O2 and PDA-SF/AgNPs-PMS catalytic system. Arabian Journal of Chemistry (2023) 16, 105167
[11] Xin Ai#, Shuqing Lu#, Ailing Xie, Haoran Zhang, Juntao Zhao, Tianjiao Wang, Guoqiang Chen, Shenzhou Lu*, and Tieling Xing* Fabrication of flexible conductive silk fibroin/polythiophene membrane and its properties. e-Polymers 2022, 22: 1-10
[12] 李爱景, 王曦予, 姚 平, 张 俊, 邢铁玲*, 陈国强, 张雪根 纳米银粒子的生物制备及其对直接紫1染料的催化还原降解 上海纺织科技2023,51(3):5-8
[13] Tianchen Wei, Xiaowei Zhu, Xueni Hou, Yijiang Li, Aoqing Dong, Xinying Jiang, Yu Huang, Xue Dong,* Xiangrong Wang, Guoqiang Chen, Tieling Xing*. Preparation of biomimetic non-iridescent structural color based on polystyrene–polycaffeic acid core–shell nanospheres. RSC Advances, 2022, 12, 3602.
[14] Xiaowei Zhu, Yijiang Li, Tianchen Wei, Yichen Li *,Tieling Xing *,Matthew D. Shawkey,Guoqiang Chen.TA–Fe(III) complex coated PS nanospheres for non-iridescent structural coloration of cotton fabric. Journal of Materials Chemistry C,2022, 10, 17472–17480 DOI: 10.1039/d2tc03849h
[15] 朱小威, 韦天琛, 李亦江, 邢铁玲*, 陈国强.聚苯乙烯/ 铁-单宁酸配合物微球在棉织物上的结构生色,纺织学报,2022,43(5):32-37
[16] 谢爱玲,乐昱含,艾馨,王亚辉,王义容,陈新彭,陈国强,邢铁玲* 茶多酚改性超疏水涤纶织物制备及其在油水分离中的应用 纺织学报,2022,43(2):162-169.
[17] Xiaowei Zhu, Tianchen Wei, Matthew D. Shawkeyd, Tieling Xing*, Guoqiang Chen. Bioinspired fabrication of noniridescent structurally colored cotton fabric based on polystyrene@polycaffeic acid particles. Industrial Crops & Products, 2022,176:114419.
[18] Ailing Xie , Xinpeng Chen , Xin Ai , Yahui Wang , Yirong Wang , Xiaowei Zhu , Tieling Xing*, Guoqiang Chen. Novel fabrication of robust superhydrophobic polyester fabric with eugenol based on thiol-ene click chemistry for self-cleaning and water–oil separation. Colloids and Surfaces A: Physicochemical and Engineering Aspects, https://doi.org/10.1016/j.colsurfa.2021.127947.
[19] Lili Xing, Yirong Wang, Jin Cheng, Aijing Li, Jiali Gu, Xue Dong, Guoqiang Chen, Tieling Xing*. One-step flame retardant/hydrophobic finishing on cotton fabric with ammonium salt of hexamethylenediamine - N, N, N0, N0 - tetra (methylphosphonic acid) doped silica sol J Appl Polym Sci. 2022;e53050. https://doi.org/10.1002/app.53050
[20] Lili Xing, Qingqing Zhou, Guoqiang Chen, Gang Sun and Tieling Xing*. Recent developments in preparation, properties, and applications of superhydrophobic textiles. Textile Research Journal, 2022, Vol. 92(19–20) 3857–3874.
[21] Xin Ai, Ailing Xie, Jin Cheng, Xueni Hou, Shenzhou Lu, Ning Qi,* Guoqiang Chen, and Tieling Xing*. Fabrication of Robust and High Resilient Polythiophene Conductive Polyamides Fibers Based on Tannic Acid Modification. Ind. Eng. Chem. Res. https://doi.org/10.1021/acs.iecr.2c01630 , 2022, 61, 30, 11025–11033
[22] Xin Ai, Jin Cheng, Xueni Hou* Guoqiang Chen and Tieling Xing* Fabrication of robust silver plated conductive polyamide fibres based on tannic acid modification. RSC Adv., 2022, 12, 18585.
[23] Md Shipan Mia, Ping Yao, Xiaowei Zhu, Jun Zhang,Tieling Xing* and Guoqiang Chen. Removal of heavy metals from aqueous solutions by modified waste silk. Textile Research Journal DOI: 10.1177/00405175221076026
[24] Lili Xing, Baoliang Wang, Yumin Zhang, Haiwei Yang, Xiaowei Zhu, Guoqiang Chen,Tieling Xing. Universal fabrication of superhydrophobic and UV resistant cotton fabric with polyphenols. Cellulose https://doi.org/10.1007/s10570-021-04254-2
[25] Xiaojie Yan , Xiaowei Zhu , Md Shipen Mia , Tieling Xing*, Chunxiao Zhou, Guoqiang Chen. Rapid fabrication of superhydrophobic cotton fabric based on metal-phenolic networks for oil-water separation. Colloids and Surfaces A: Physicochemical and Engineering Aspects,2021,126305
[26] 朱小威, 韦天琛, 邢铁玲, 陈国强.非晶光子晶体结构色织物的制备及其数值模拟 纺织学报,2021(9):90-96
[27] Yirong Wang, Yirong Wang, Xin Ai, Shenzhou Lu, Tieling Xing,*, Ning Qi, Guoqiang Chen Fabrication of a type of silk/PEDOT conductive fibers for wearable sensor. Colloids and Surfaces A: Physicochemical and Engineering Aspects,2021,126909
[28] Ailing Xie, Boan Wang, Xinpeng Chen, Yahui Wang, Yirong Wang, Xiaowei Zhu, Tieling Xing *,Guoqiang Chen. Facile fabrication of superhydrophobic polyester fabric based on rapid oxidation polymerization of dopamine for oil–water separation. RSC Advances, 2021, 11, 26992-27002
[29] Md Shipan Mia, Ping Yao, Xiaowei Zhu, Xue Lei, Tieling Xing*,Guoqiang Chen. Degradation of textile dyes from aqueous solution using tea-polyphenol/Fe loaded waste silk fabrics as Fenton-like catalysts. RSC Adv., 2021, 11, 8290
[30] Xiaowei Zhu, Tianchen Wei, Md Shipan Mia, Tieling Xing*, Guoqiang Chen. Preparation of PS@PDA amorphous photonic structural colored fabric with vivid color and robust mechanical properties based on rapid polymerization of dopamine. Colloids and Surfaces A: Physicochemical and Engineering Aspects,2021, 126651
[31] Md Shipan Mia, Xiaowei Zhu, Ping Yao, Juntao Zhao, Xiaojie Yan, Tieling Xing*, Guoqiang Chen. Adsorption of Cd2+, Cu2+ and Ni2+ with modified silk fabric. Fibers and Polymers, 2021:22 :3003–3013
[32] Xinpeng Chen, Runshan Chu, Tieling Xing *, Guoqiang Chen *. One-step preparation of superhydrophobic cotton fabric based on thiol-ene click chemistry. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021,125803
[33] Qingqing Zhou, Wei Wu, Shaoqiang Zhou, Tieling Xing*, Gang Sun, Guoqiang Chen. Polydopamine-induced growth of mineralized γ-FeOOH nanorods for construction of silk fabric with excellent superhydrophobicity, flame retardancy and UV resistance. Chemical Engineering Journal , 2020,382:122988.
[34] Xiaojie Yan, Xiaowei Zhu, Yuting Ruan,Tieling Xing*, Guoqiang Chen, Chunxiao Zhou. Biomimetic, dopamine-modifified superhydrophobic cotton fabric for oil–water separation. Cellulose , 2020, 27:7873-7885.
[35] Xiaowei Zhu, Biaobiao Yan, Xiaojie Yan, Tianchen Wei, Hongli Yao, Md Shipan Mia, Tieling Xing*, Guoqiang Chen. Fabrication of non-iridescent structural color on silk surface by rapid polymerization of dopamine. Progress in Organic Coatings, 2020,149:105904.
[36] Xinpeng Chen, Baoliang Wang, Runshan Chu, Tieling Xing * and Guoqiang Chen *. Fabrication of Robust Water-Repellent Technology on Cotton Fabric via Reaction of Thiol-ene Click Chemistry. Coatings, 2020, 10, 508; doi:10.3390/coatings10060508.
[37] 李育洲,张雨凡,周青青,陈国强,邢铁玲*. 二氧化锰/石墨烯 /棉织物复合电极的制备及其电化学性能,纺织学报.2020(1):96-101.
[38] Qingqing Zhou, Biaobiao Yan, Guoqiang Chen, Tieling Xing*. Fabrication of superhydrophobic caffeic acid/Fe@cotton fabric and its oil-water separation performance. Carbohydrate Polymers, 2019, 203:1-9.
[39] Biaobiao Yan, Muying Yang, Qingqing Zhou, Tieling Xing*, Guoqiang Chen and Jiayong Sheng. Yellow pigment of Metarhizium anisopliae and its application to the dyeing of fabrics. Coloration Technology, 2019,
[40] Biaobiao Yan, Qingqing Zhou, Xiaowei Zhu, Jianfeng Guo, Md Shipan Mia, Xiaojie Yan,Guoqiang Chen, Tieling Xing*, A superhydrophobic bionic coating on silk fabric with flame retardancy and UV shielding ability. Applied Surface Science, 2019,483:929-939.
[41] Yuzhou Li, Yufan Zhang, Haoran Zhang, Tie-Ling Xing * , Guo-qiang Chen A facile approach to prepare a flexible sandwichstructured supercapacitor with rGO-coated cotton fabric as electrodes, RSC Advances, 2019, 9:4180-4189.
[42] Yimin Ji, Guoqiang Chen, Tieling Xing*. Rational design and preparation of flame retardant silk fabrics coated with reduced graphene oxide. Applied Surface Science, 2019,474:203-210.
[43] Md Shipan Mia † , Biaobiao Yan † , Xiaowei Zhu, Tieling Xing * and Guoqiang Chen. Dopamine Grafted Iron-Loaded Waste Silk for Fenton-Like Removal of Toxic Water Pollutants. Polymers, 2019, 11, 2037.
[44] Haoran Zhang, Juntao Zhao, Tieling Xing * , Shenzhou Lu *,Guoqiang Chen. Fabrication of Silk Fibroin/Graphene Film with High Electrical Conductivity and Humidity Sensitivity. Polymers, 2019, 11, 1774
[45] Qingqing Zhou, Guoqiang Chen, Tieling Xing*. Facile construction of robust superhydrophobic tea polyphenol/Fe@cotton fabric for self-cleaning and efficient oil–water separation. Cellulose, 2018, 25: 1513-1525 .
[46] Jinqiu Yang, Shenzhou Lu ID , Tieling Xing *, Guoqiang Chen. Preparation, structure, and properties of silk fabric grafted with 2-hydroxypropyl methacrylate using the HRP biocatalyzed ATRP Method. Polymers, 2018, 10, 557.
[47] Muying Yang, Yingying Yu, Hongxia Zhai, Jiayong Sheng, Tieling Xing*, Guoqiang Chen. Ecological dyeing of silk fabric with Monascus. Journal of the Textile Institute, 2018, 109(10):1329-1334.
[48] Biaobiao Yan, Qingqing Zhou, Tieling Xing*, Guoqiang Chen. Dopamine-Dyed and Functionally Finished Silk with Rapid Oxidation Polymerization. Polymers, 2018, 10,728.
[49] Chun Liu, Tieling Xing*, Bingju Wei and Guoqiang Chen. Synergistic Effects and Mechanism of Modified Silica Sol Flame Retardant Systems on Silk Fabric. Materials, 2018, 11, 1842.
[50] Yun-Bo Chen, Chun Liu, Shao-Li Zhang, Guo-Qiang Chen,Tie-Ling Xing*. Combustion properties and thermal decomposition kinetics of flame retardant silk fabrics treated by phytic acid and silica sols, Thermal Science, 2018, 22(4):1-7.
[51] Yimin Ji, Yuzhou Li, Guoqiang Chen, Tieling Xing*. Fire-resistant and highly electrically conductive silk fabrics fabricated with reduced graphene oxide via dry-coating, Materials & Design, 2017, 133: 528-535.
[52] Qianghua Zhang, Guoqiang Chen, Tieling Xing*. Silk flame retardant finish by ternary silica sol containing boron and nitrogen, Applied Surface Science, 2017,421: 52-60.
[53] Yi-Min Ji, Ying-Ying Cao, Guo-Qiang Chen, Tie-Ling Xing*. Flame retardancy and ultraviolet resistance of silk fabric coated by graphene oxide. Thermal Science, 2017, 21(4):1733-1738.
[54] Yunbo Chen, Guoqiang Chen, Tieling Xing *. Flame retardant finishing of silk fabrics with boron phosphate doped silica sol. Journal of Textile Research, 2017,38(8):96-101.
[55] Qianghua Zhang, Jiali Gu, Guoqiang Chen, Tieling Xing*. Durable flame retardant finish for silk fabric using boron hybrid silica sol, Applied Surface Science, 2016, 387: 446-453.
[56] Jia-Li Gu, Qiang-Hua Zhang, Yun-Bo Chen, Guo-Qiang Chen, Tie-Ling Xing*. Thermal properties and water repellency of cotton fabric prepared through sol-gel method. Thermal Science, 2016, 20(3):863-866.
[57] Tieling Xing, Xinyue Li, Shoujiao Guo, Ren-cheng Tang, Jian-he Cai, Shao-qiang Zhou. Preparation and properties of silk fabric grafted with e-polylysine by tyrosinase. Textile Research Journal, 2015, 85(16):1743- 1748.
[58] Qianghua Zhang,Wei Zhang, Jianying Huang, YuekunLai, Tingling Xing*, Guoqiang Chen,Weirong Jin ,Hongzhao Liu, Bin Sun. Flame retardance and thermal stability of wool fabric treated by boron containing silica sols. Materials & Design, 2015,85:796-799.
[59] Yuzhang Zhu, Wei Xie, Jingye Li, Tieling Xing*, Jian Jin*, pH- Induced non-fouling membrane for effective separation of oil-in-water emulsion. Journal of Membrane Science, 2015,477:131-138.
[60] Qiang-Hua Zhang, Wei Zhang, Guo-Qiang Chen, Tie-Ling Xing *. Combustion properties of cotton fabric treated by boron doped silica sol. Thermal Science, 2015, 19(4):1347-1350.
[61] Muying Yang, Xinyue Li, Shenzhou Lu, Guoqiang Chen, Tieling Xing*. Prospects of Silk Sericin Membranes Fabricated with Tyrosinase. Journal of Fiber Bioengineering and Informatics, 2015,8(1):57-67.
[62] MY Yang, XY Li, SZ Lu, TL Xing*, Performance of cross-linked silk fibroin membrane using tyrosinase, Materials Research Innovations, 2015,19(10): 392-396.
[63] Tieling Xing, Wei Zhang, Zhijuan Liu, Rencheng Tang, Guoqiang Chen. Preparation of Fe2+-doped Silica Sol and its Application in Silk Modification, Journal of Nano Research, 2014, 27: 95-101.
[64] Wei Zhang, Tie-ling Xing*, Qiang-hua Zhang and Guo-qiang Chen. Thermal properties of wool fabric treated by phosphorus-doped silica sols through sol-gel method, Thermal Science, 2014,18(5):1595-1598.
[65] Tieling Xing, Jie Liu, Shiwei Li. Surface-initiated ATRP on cotton fabric in water aqueous. Textile Research Journal, 2013,83(4):363-370. .
[66] Shiwei Li, Tieling Xing*, Zhanxiong Li, Guoqiang Chen Structure and properties of silk grafted with acrylate fluoride monomers by ATRP. Applied Surface Science, 2013,268:92-97.
[67] Tieling Xing, Kai Hu, Guoqiang Chen. Study on adsorption and desorption performance of acid dyes on anion exchange membrane. Coloration Technology, 2012, 128(4):295-299.
[68] Tieling Xing, Shiwei Li, Xia Xu, Guoqiang Chen. Structure and properties of silk grafted with N, N-dimethylaminoethyl methacrylate via the ARGET ATRP method. Journal of Engineered Fibers and Fabrics, 2012,7(3):1-6.
[69] Tieling Xing, WeilinHu, Shiwei Li, Guoqiang Chen. Preparation, structure and properties of multi-functional silk via ATRP method. Applied Surface Science, 2012, 258(7):3208-3213.
[70] Tie-Ling Xing, Jie Liu, Shi-Wei Li, Guo-Qiang Chen. Thermal properties of flame retardant cotton fabric grafted by dimethyl methacryloyloxyethyl phosphate. Thermal Science, 2012, 16(5):1572-1575.
授权专利(排名1)
[1] Tieling Xing, Juntao Zhao, Shenzhou Lu, Yirong Wang, Shuqing Lu, Guoqiang Chen, Chuchu Lin. Conductive silk fibroin material, and preparation method and use thereof. Nantong Textile and Silk Industrial Technology Research Institute, Soochow University. US 11845843 B2, 2023.12.19 美国专利
[2] 邢铁玲;朱小威;李义臣;李亦江;杨帅康;陈国强 非晶胶体阵列结构色织物及其制备方法ZL 2022 1 0483296.1 授权日:2023.7.25
[3] 邢铁玲颜小洁谢爱玲陈国强. 多巴胺对废弃棉织物行超疏水改性的方法 ZL 202011225683.2 授权日:2022.8.9
[4] 邢铁玲颜小洁谢爱玲陈国强. 多酚对废弃棉织物进行超疏水改性的方法 ZL 202011225659.9授权日:2022.8.9
[5] 邢铁玲,艾馨,谢爱玲,卢神州,陈国强,卢焦生,刘萍,向中林 一种镀银尼龙导电纤维及其制备方法 ZL 202110603872.7 授权日:2022.5.24
[6] 邢铁玲,艾馨,谢爱玲,卢神州,陈国强,卢焦生,刘萍,向中林 一种聚噻吩复合尼龙导电纤维及其制备方法ZL 202110603925.5授权日:2022.5.24
[7] 邢铁玲,谢爱玲,陈国强,乐昱含,王博安,袁鑫雅,李罗泽元 基于巯基-烯点击反应制备超疏水涤纶织物的方法 ZL 202110449547X 授权日:2022.4.1
[8] 邢铁玲,朱小威,韦天琛,董奥晴,姜鑫颖,黄宇,陈国强.一种基于咖啡酸的结构色织物及其制备方法,中国发明专利,专利号:ZL 202110407250.7授权日:2022-03-11
[9] 邢铁玲, 王亚辉, 陈国强, 等 尼龙和羊毛混合纤维的一浴染液及染色方法[P]. ZL 202011175333X, 授权日:2022-03-11
[10] 阮玉婷邢铁玲颜小洁陈国强. 一种葡萄多酚改性疏水棉织物的制备方法ZL 201910877229.6, 授权日:2022-02-11
[11] 邢铁玲,朱小威,陈国强. 一种非虹彩结构色织物及其制备方法 ZL 201910441889.X,授权日:2021.11.2
[12] 邢铁玲,周青青, 闫彪彪,朱小威, 颜小洁, 陈国强. 一种超疏水抗紫外阻燃蚕丝织物及其制备方法ZL201910053809.3,授权日:2021.3.5
[13] 邢铁玲,张浩然;,卢神州. 一种丝素/石墨烯复合导电薄膜及其制备方法ZL 201910095186.6 授权日:2021.4.9
[14] 邢铁玲,赵俊涛,导电丝素材料及其制备方法和应用202010032403X,授权日:2020.12.18
[15] 邢铁玲, 闫彪彪, 周青青, 朱小威, 颜小洁, 陈国强. 一种抗紫外疏水阻燃真丝织物及其制备方法. 专利号:ZL 201910053307.0,授权日:2020.9.8
[16] 邢铁玲, 闫彪彪, 周青青, 颜小洁, 朱小威, 陈国强. 一种超疏水羊毛织物及其制备方法.专利号:ZL 201910053309.X授权日:2020.9.8
[17] 邢铁玲,吉益民,李育洲,陈国强. 具有阻燃涂层的织物及其制备方法,专利号:ZL 201710160765.5,授权日:2020.3.27
[18] 邢铁玲俞金键吉益民陈国强金琳莉.一种石墨烯掺杂聚磷酸铵阻燃涂层织物及其制备方法. 专利号:ZL 201710859478 .3,授权日:2020.4.24
[19] 邢铁玲俞金键吉益民周青青陈国强金琳莉. 一种疏水抗紫外线织物及其制备方法, 专利号:ZL 201710859505.7,授权日:2020.5.12
[20] 邢铁玲,俞金键,陈云博,陈国强,谈金麒. 一种阻燃性羊毛织物及其制备方法, 专利号:ZL 201611150131.3, 授权日:2019.7.16
[21] 邢铁玲, 杨慕莹, 陈国强, 盛家镛, 贡成良, 一种蚕丝织物的桑黄色素染色方法, 专利号:ZL 201610571217.7 , 授权日:2019.4.26
[22] 邢铁玲, 杨金秋, 李静, 颜小洁, 陈国强. 功能性真丝织物的制备方法,专利号:ZL 201611129067.0, 授权日:2019.4.5
[23] 邢铁玲,顾佳丽,陈国强. 具有阻燃和疏水功能的织物的制备方法, 专利号:ZL 201610826073.5, 授权日:2019.4.2
[24] 邢铁玲,俞金键,陈云博,陈国强,谈金麒. 一种阻燃性真丝织物的整理方法及其应用, 专利号:ZL 201611150184.5, 授权日:2019.2.26
[25] 邢铁玲, 杨慕莹, 陈国强, 盛家镛, 贡成良, 翟红霞. 一种蚕丝织物的蓝黑紫色杆菌染色方法, 专利号:ZL 201610568781.3, 授权日:2018.8.21
[26] 邢铁玲, 苗赛男, 陈国强. 一种转移拔白印花织物的制备方法,专利号: ZL 201610194723.9,授权日:2018.8.21
[27] 邢铁玲, 杨慕莹, 陈国强, 盛家镛, 贡成良, 翟红霞. 一种蚕丝织物和羊毛织物的绿色木霉孢子粉染色方法, 专利号:ZL 201610571218.1 , 授权日:2018.7.20
[28] 邢铁玲, 李璐,陈国强. 疏水性能可自修复的耐水洗织物的制备方法. 专利号:ZL 201610741341.3, 授权日:2018.7.13
[29] 邢铁玲,张强华, 顾佳丽, 刘志娟, 陈国强. 一种耐久型阻燃真丝的制备方法. 专利号: ZL 201510846893.6, 授权日:2018.1.16
[30] 邢铁玲, 张维, 陈国强. 一种具有阻燃功能的毛纺面料的制备方法. 专利号:ZL 201410167803.6,授权日:2016.10.5
[31] 邢铁玲,陈国强,李青,刘志娟,黄和芳,张祖洪.一种制备有色多功能毛纺面料的方法.专利号:ZL 201210499879.X,授权日:2015.9.2
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