个人概况：
姓 名：代坤 性 别：男
籍 贯：河南省永城市 最高学历：博士
从事专业：材料加工工程 职 称：教授, 博士生导师
社会兼职：中国材料研究学会会员，美国化学会会员，
Advanced Materials, ACS Nano, Journal of Materials
Chemistry A等期刊审稿人
E-mail：kundai@zzu.edu.cn
研究主页：www.kundai.polymer.cn
个人简历：
[1] 2011.1-至今；郑州大学，材料科学与工程学院，高分子成型及模具系，橡塑模具国家工程研究中心工作。
[2] 2008.12-2010.11；美国加州大学洛杉矶分校（University of California, Los Angeles, UCLA），化学与生物分子工程系 (Department of Chemical and Biomolecular Engineering)，纳米材料领域****卢云峰 (Yunfeng Lu) 教授课题组参加国家公派；
[3] 2005.9-2011.1；四川大学，高分子科学与工程学院，高分子材料工程国家重点实验室，材料加工工程专业攻读博士学位（硕博连读），获工学博士学位，导师：李忠明教授；
[4] 2001.9-2005.7；四川大学，高分子科学与工程学院，高分子材料与工程专业攻读学士学位（本科），获工学学士学位。
教学情况：
讲授《聚合物共混改性原理及应用》，《材料物理性能》，《塑料成型工艺学》。
研究领域：
导电高分子复合材料及其在航天中的应用
柔性可穿戴导电高分子复合材料
高分子纳米复合材料及功能化
聚合物成型加工-形态结构-性能关系
承担和参加的科研项目:
[1] 国家自然科学基金(面上项目)，Contract Number: **，主持，进行中；
[2] 国家自然科学基金(河南联合)，Contract Number: U**，主持，进行中；
[3] 国家自然科学基金(青年基金)，Contract Number: **，主持，已结项；
[4] 国家自然科学基金(河南联合基金)，Contract Number: U**，主持，已结项；
[5] 中国博士后科学基金特别资助，Contract Number: 2012T50638，主持，已结项；
[6] 郑州大学优秀青年教师基金项目，Contract Number: ，主持，已结项；
[7] 中国博士后科学基金面上一等资助，Contract Number: 2015M580637，主持，已结项；
[8] 河南省博士后科研基金二等资助，Contract Number: **，主持，已结项；
[9] 中国博士后科学基金特别资助，Contract Number: 2016T90675，主持，已结项；
[10] 河南省教育厅科学技术研究重点项目，Contract Number: 13A430652，主持，已结项；
[11] 四川大学重点实验室开放基金，Contract Number: sklpme2016-4-21，主持，已结项；
[12] 河南煤业化工集团-郑州大学联合项目，“碳纤维/聚合物导电复合材料开发及其性能强化”，主研，第一参与人；已结项。
主要荣誉：
[1] 2019.7 河南省高校科技创新人才；
[2] 2019.6 河南省教育厅“学术技术带头人”；
[3] 2019.5 河南省优秀硕士学位论文指导教师（两位同学）；
[4] 2019.5 河南省优秀博士论文指导教师（第二导师）；
[5] 2018.03 郑州大学首届青年拔尖人才；
[6] 2017.05河南省优秀硕士学位论文指导教师；
[7] 2016.10郑州大学优秀硕士学位论文指导教师；
[8] 2014.10郑州大学优秀青年教师基金获得者；
[9] 2015.10 郑州大学青年骨干教师；
[10] 2013. 02 河南省优秀博士后研究人员；
[11] 2008. 10陶氏化学教育发展奖学金“优秀论文奖”；
[12] 2008. 11 DSM (帝斯曼) 工程塑料公司教育发展奖学金。
科研情况
主要学术论文：
2020年研究论文：
[62] Kangkang Zhou, Yi Zhao, Xiupeng Sun, Zuqing Yuan, Guoqiang Zheng, Kun Dai*, Liwei Mi, Caofeng Pan*, Chuntai Liu, Changyu Shen. Ultra-stretchable triboelectric nanogenerator as high-sensitive and self-powered electronic skins for energy harvesting and tactile sensing. Nano Energy, 2020, 70: 104546. (中科院大类一区，IF=15.548)
[61] Xiaoyan Yue, Yanyan Jia, Xiaozheng Wang, Kangkang Zhou, Wei Zhai, Guoqiang Zheng, Kun Dai*, Liwei Mib, Chuntai Liu*, Changyu Shen. Highly stretchable and durable fiber-shaped strain sensor with porous core-sheath structure for human motion monitoring. Composites Science and Technology, 2020, 189, 108038. (中科院大类一区，IF=6.309)
[60] Yanjun Zheng, Yilong Li, Yujie Zhou, Kun Dai*, Guoqiang Zheng, Bing Zhang, Chuntai Liu*, Changyu Shen. High performance wearable strain sensor based on graphene/cotton fabric with high durability and low detection limit, ACS Applied Materials & Interfaces, 2020, 12, 1474-1485. (中科院大类一区，IF=8.456)
[59] Yue Zhai, Yunfei Yu, Kangkang Zhou, Zhigeng Yun, Wenju Huang, Hu Liu, Quanjun Xia, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. Flexible and wearable carbon black/thermoplastic polyurethane foam with a pinnate-veined aligned porous structure for multifunctional piezoresistive sensors, Chemical Engineering Journal, 2020, 382: 122985. (中科院大类一区，IF=8.355)
[58] Yanyan Jia, Xiaoyan Yue, Yalong Wang, Chao Yan, Guoqiang Zheng, Kun Dai *, Chuntai Liu, Changyu Shen. Multifunctional stretchable strain sensor based on polydopamine/ reduced graphene oxide/ electrospun thermoplastic polyurethane fibrous mats for human motion detection and environment monitoring. Composites Part B: Engineering, 2020, 183: 107696. (中科院小类一区，IF=6.864)
2019年研究论文：
[57] Hongling Sun, Kun Dai,* Wei Zhai, Yujie Zhou, Jianwei Li, Guoqiang Zheng, Bo Li,* Chuntai Liu,* Changyu Shen. A Highly Sensitive and Stretchable Yarn Strain Sensor for Human Motion Tracking Utilizing a Wrinkle-Assisted Crack Structure, ACS Applied Materials & Interfaces, 2019, 11(39): 36052-36062. (中科院大类一区，IF=8.456)
[56] Yunfei Yu, Yue Zhai, Zhigeng Yun, Wei Zhai, Xiaozheng Wang, Guoqiang Zheng, Chao Yan, Kun Dai,* Chuntai Liu, and Changyu Shen, Exponential Response in Full Sensing Range and Excellent Anti-interference Ability towards Buckling, Torsion, Temperature and Humidity, Advanced Electronic Materials, 2019, 5(10): **. (中科院大类一区，IF=6.312)
[55] Hongling Sun, Kangkang Zhou, Yunfei Yu, Xiaoyan Yue, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen, Highly Stretchable, Transparent and Bio-friendly Strain Sensor Based on Self-Recovery Ionic-Covalent Hydrogels for Human Motion Monitoring, Macromolecular Materials and Engineering, 2019, 304(10): **. (中科院大类二区，IF=3.038)
[54] Wei Zhai, Quanjun Xia, Kangkang Zhou, Xiaoyan Yue, Miaoning Ren, Guoqiang Zheng, Kun Dai*, Chuntai Liu*, Changyu Shen. Multifunctional Flexible Carbon Black/Polydimethylsiloxane Piezoresistive sensor with ultrahigh linear range, excellent durability and oil/water separation capability. Chemical Engineering Journal, 2019, 372: 373-382. (中科院大类一区，IF=8.355)
[53] Yujie Zhou, Pengfei Zhan, Miaoning Ren, Guoqiang Zheng, Kun Dai*, Liwei Mi, Chuntai Liu, Changyu Shen. Significant Stretchability Enhancement of Crack-based Strain Sensor combined with High Sensitivity and Superior Durability for Motion Monitoring. ACS Applied Materials & Interfaces, 2019, 11(7): 7405-7414. (中科院大类一区，IF=8.456)
[52] Lijun Lu, Yujie Zhou, Jian Pan, Taiqiang Chen, Yajie Hu, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen, Xuemei Sun, Huisheng Peng*. The Design of Helically Double-Leveled Gaps for Stretchable Fiber Strain Sensor with Ultralow Detection Limit, Broad Sensing Range and High Repeatability. ACS Applied Materials & Interfaces, 2019, 11(4): 4345-4352. (中科院大类一区，IF=8.456)
[51] Miaoning Ren, Yujie Zhou, Yan Wang, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Tunable temperature-resistivitybehaviors of Highly stretchable and durable strain sensor based on carbon nanotubes decorated thermoplastic polyurethane fibrous mat with aligned wave-like structure, Chemical Engineering Journal, 2019, 360: 762-777. (中科院大类一区，IF=8.355)
[50] Pengfei Zhan, Wei Zhai, Ning Wang, Xiangdong Wei, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Electrically conductive carbon black/electrospun polyamide 6/poly(vinyl alcohol) composite based strain sensor with ultrahigh sensitivity and favorable repeatability. Materials Letters, 2019, 236: 60-63. (中科院三区，IF=2.687)
2018年研究论文：
[49] Xiaohan Cao, Yujie Zhou, Xiangdong Wei, Wei Zhai, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Lightweight, mechanical robust foam with a herringbone-like porous structure for oil/water separation and filtering. Polymer Testing, 2018, 72:86-93. (中科院小类二区，IF=2.247)
[48] Jiachen Gao, Xiaozheng Wang, Wei Zhai, Hu Liu, Guoqiang Zheng, Kun Dai*, Liwei Mi, Chuntai Liu, Changyu Shen. Ultra-stretchable Multilayered Fiber with a Hollow-Monolith Structure for High Performance Strain Sensor. ACS Applied Materials & Interfaces, 2018, 10: 34592-34603. (中科院大类一区，IF=8.097)
[47] Xiaozheng Wang, Hongling Sun, Xiaoyan Yue, Yunfei Yu, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen . A highly stretchable carbon nanotubes/thermoplastic polyurethane fiber-shaped strain sensor with porous structure for human motion monitoring. Composites Science and Technology, 2018, 168, 126-132. (中科院小类一区，IF=5.160)
[46] Yalong Wang, Yanyan Jia, Yuejie Zhou, Yan Wang, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Ultra-stretchable, sensitive and durable strain sensors based on polydopamine encapsulated carbon nanotubes/elastic bands. Journal of Materials Chemistry C, 2018, 6: 8160-8170. (中科院大类一区，IF=5.976)
[45] Wei Zhai, Ruizhou Sun, Hongling Sun, Miaoning Ren, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. Segregated conductive CNTs/HDPE/UHMWPE composites fabricated by plunger type injection molding, Materials Letters, 2018, 229,13-16. (中科院大类二区，IF=2.687)
[44] Guojie Li, Kun Dai*, Miaoning Ren, Yan Wang, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. Aligned flexible conductive fibrous networks for highly sensitive, ultrastretchable and wearable strain sensors, Journal of Materials Chemistry C, 2018, 6, 6575-6583. (中科院大类一区，IF=5.976)
[43] Shuaiguo Zhao, Dandan Lou, Guojie Li, Yanjun Zheng, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Yuanli Jiang, Changyu Shen. Bridging the segregated structure in conductive polypropylene composites: An effective strategy to balance the sensitivity and stability of strain sensing performances. Composites Science and Technology, 2018, 163: 18-25. (中科院小类一区，IF=5.160)
[42] Yanjun Zheng, Yilong Li, Kun Dai*, Yan Wang, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. A highly stretchable and stable strain sensor based on hybrid carbon nanofillers/polydimethylsiloxane conductive composites for large human motions monitoring. Composites Science and Technology, 2018, 156:276-286. (中科院小类一区，IF=4.873)
[41] Wei Zhai, Shuaiguo Zhao, Yan Wang, Guoqiang Zheng, Kun Dai*, Chuntai Liu*, Changyu Shen. Segregated conductive polymer composite with synergistically electrical and mechanical properties. Composites Part A, 2018, 105: 68-77. (中科院小类一区，IF=4.075)
[40] Yalong Wang, Ji Hao, Zhenqi Huang, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Flexible electrically resistive-type strain sensors based on reduced graphene oxide-decorated electrospun polymer fibrous mats for human motion monitoring. Carbon, 2018, 126:360-371.(中科院大类一区，IF=6.337, ESI高被引论文)
[39] Yilong Li, Yanjun Zheng, Pengfei Zhan, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Vapor sensing performance as a diagnosis probe to estimate the distribution of multi-walled carbon nanotubes in poly(lactic acid)/polypropylene conductive composites. Sensors and Actuators B: Chemical, 2018, 255: 2809-2819. （中科院大类一区，IF=5.401）
2017年研究论文：
[38] Wenju Huang, Kun Dai*, Hu Liu, Pengfei Zhan, Jiachen Gao, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. Flexible and Lightweight Pressure Sensor Based on Carbon Nanotube/Thermoplastic Polyurethane Aligned Conductive Foam with Superior Compressibility and Stability. ACS Appl Mater Interfaces, 2017, 9: 42266-42277. (中科院大类一区，IF=7.504)
[37] Shuaiguo Zhao, Dandan Lou, Pengfei Zhan, Guojie Li, Kun Dai*, Jiang Guo, Guoqiang Zheng, Chuntai Liu, Changyu Shen, Zhanhu Guo*. Heating-induced negative temperature coefficient effect in conductive graphene/polymer ternary nanocomposites with a segregated and double-percolated structure. Journal of Materials Chemistry C, 2017, 5: 8233-8242. （中科院一区，IF=5.256 , 2017 Journal of Materials Chemistry C HOT Papers）.
[36] Lijun Lu, Xiangdong Wei, Ye Zhang, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. A flexible and self-formed sandwich structure strain sensor based on AgNW decorated electrospun fibrous mats with excellent sensing capability and good oxidation inhibition properties. Journal of Materials Chemistry C, 2017, 5: 7035-7042.（中科院一区，IF=5.256）
[35] Xiangdong Wei, Xiaohan Cao, Yalong Wang, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen.Conductive herringbone structure carbon nanotube/thermoplastic polyurethane porous foam tuned by epoxy for high performance flexible piezoresistive sensor. Composites Science and Technology, 2017,149: 166-177. (中科院小类一区，IF=4.873)
[34] Yanjun Zheng, Yilong Li, Kun Dai*, Mengran Liu, Kangkang Zhou, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. Conductive thermoplastic polyurethane composites with tunable piezoresistivity by modulating the filler dimensionality for flexible strain sensors. Composites: Part A,2017, 101: 41-49. (中科院小类一区，IF=4.075)
[33] Shuaiguo Zhao, Guojie Li, Hu Liu, Kun Dai*, Guoqiang Zheng, Xingru Yan, Chuntai Liu, Jingbo Chen, Changyu Shen, Zhanhu Guo*. Positive temperature coefficient (PTC) evolution of segregated structural conductive polypropylene nanocomposites with visually traceable carbon black conductive network. 2017, Advanced Materials Interfaces, 2017, **. (Adv Mater新姊妹刊，IF=4.279, 封面文章)
[32] Lijun Lu, Yajie Hu, Kun Dai*. The advance of fiber-shaped lithium ion batteries. Materials Today Chemistry, 2017, 5: 24-33.
[31] Ning Wang, Zhuoyan Xu, Pengfei Zhan, Kun Dai*, Guoqiang Zheng, Chuntai Liu, Changyu Shen. A tunable strain sensor based on a carbon nanotubes/electrospun polyamide 6 conductive nanofibrous network embedded into poly(vinyl alcohol) with self-diagnosis capabilities. Journal of Materials Chemistry C, 2017, 5:4408-4418. (中科院一区，IF=5.256, 2017 Journal of Materials Chemistry C HOT Papers)
[30] Chao Hu, Zeyu Li, Yalong Wang, Jiachen Gao, Kun Dai*, Guoqiang Zheng, Chuntai Liu, Changyu Shen, Haixiang Song, Zhanhu Guo*. Comparative assessment of the strain-sensing behaviors of polylactic acid cocomposites: reduced graphene oxide or carbon nanotubes. Journal of Materials Chemistry C, 2017, 5: 2318-2328.（中科院一区，IF=5.256, ESI Highly Cited Paper）
[29] Xiaohan Cao, Xiangdong Wei, Guojie Li, Chao Hu, Kun Dai*, Jiang Guo, Guoqiang Zheng, Chuntai Liu, Changyu Shen, Zhanhu Guo*. Strain sensing behaviors of epoxy nanocomposites with carbon nanotubes under cyclic deformation. Polymer, 2017, 112: 1-9.
[28] Yanjun Zheng, Yilong Li, Zeyu Li, Yalong Wang, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen. The effect of filler dimensionality on the electromechanical performance of polydimethylsiloxane based conductive nanocomposites for flexible strain sensors. Composites Science and Technology, 2017,139: 64-73. (中科院小类一区，IF=4.873)
[27] Hu Liu, Mengyao Dong, Wenju Huang, Jiachen Gao, Kun Dai*, Jiang Guo, Guoqiang Zheng, Chuntai Liu*, Changyu Shen, Zhanhu Guo*. Lightweight Conductive Graphene/Thermoplastic Polyurethane Foams with Ultrahigh Compressibility for Piezoresistive Sensing. Journal of Materials Chemistry C, 2017,5:73-83.（中科院一区，IF=5.256，封面文章, ESI Highly Cited Paper, Hot papers)
2016年研究论文：
[26] Hu Liu, Jiachen Gao, Wenju Huang, Kun Dai*, Guoqiang Zheng, Chuntai Liu, Changyu Shen, Jiang Guo, Xingru Yan, Zhanhu Guo*. Electrically Conductive Strain Sensing Polyurethane Nanocomposites with Synergistic Carbon Nanotubes and Graphene Bifillers. Nanoscale, 2016, 8: 12977-12989. (中科院一区，IF=7.76，ESI Highly Cited Paper, Hot papers)
[25]Hu Liu, Wenju Huang, Xinru Yang, Kun Dai*, Guoqiang Zheng, Chuntai Liu,Changyu Shen, Xingru Yan, Jiang Guo, Zhanhu Guo*. Organic vapor sensing behaviors of conductive thermoplastic polyurethane-graphene nanocomposites. Journal of Materials Chemistry C, 2016, 4: 4459-4469. (中科院一区，IF=5.07)
[24] Hu Liu, Yilong Li, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen, Xingru Yan, Jiang Guo, Zhanhu Guo*. Electrically conductive thermoplastic elastomer nanocomposites at ultralow graphene loading levels for strain sensor applications. Journal of Materials Chemisry C, 2016, 4: 157-166. （中科院一区，IF=5.07，ESI Highly Cited Paper, 2016 Journal of Materials Chemistry C Most Accessed Manuscripts)
[23] Hu Liu, Wenju Huang, Jiachen Gao, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Changyu Shen, Xingru Yan, Jiang Guo, Zhanhu Guo*. Piezoresistive behavior of porous carbon nanotube-thermoplastic polyurethane conductive nanocomposites with ultrahigh compressibility. Applied Physics Letters 2016, 108: 011904.
[22] Yan Lan, Hu Liu, Xiaohan Cao, Shuaiguo Zhao, Kun Dai*, Xingru Yan, Guoqiang Zheng, Chuntai Liu, Changyu Shen, Zhanhu Guo*. Electrically conductive thermoplastic polyurethane/polypropylene nanocomposites with selectively distributed graphene. Polymer, 2016, 97:11-19.
[21] Zhuoyan Xu, Ning Wang, Ning Li*, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Liquid sensing behaviors of conductive polypropylene composites containing hybrid fillers of carbon fiber and carbon black. Composites Part B, 2016, 94:45-51.
[20] Guojie Li,Chao Hu,Wei Zhai, Shuaiguo Zhao, Guoqiang Zheng, Kun Dai*, Chuntai Liu*, Changyu Shen. Particle size induced tunable positive temperature coefficient characteristics in electrically conductive carbon nanotubes/polypropylene composite. Materials Letters, 2016, 182: 314-317.
[19] Ning Wang, Zhuoyan Xu, Yingying Qu, Guoqiang Zheng, Kun Dai*, Chuntai Liu, Changyu Shen. Liquid-sensing behaviors of carbon black/polyamide 6/high-density polyethylene composite containing ultrafine conductive electrospun fibrous network. Colloid and Polymer Science, 2016, 294:1343-1350.
2015年研究论文：
[18] Yilong Li, Hu Liu, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Tuning of vapor sensing behaviors of eco-friendly conductive polymer composites utilizing ramie fiber. Sensors and Actuators B: Chemical, 2015, 221(31): 1279-1289. (中科院一区，IF=4.76)
[17] Xiaohan Cao, Yan Lan, Yue Wei, Guoqiang Zheng, Kun Dai*, Chuntai Liu*, Changyu Shen. Tunable resistivity-temperature characteristics of an electrically conductive multi-walled carbon nanotubes/epoxy composite. Materials Letters, 2015, 159(15): 276-279.
[16] Yilong Li, Kun Dai*, Junhui Zhao, Ning Li, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Liquid-sensing behaviors of carbon black/polypropylene and carbon nanotubes/polypropylene composites: A comparative study. Polymer Composites, 2015, 36（2）：205-213.
2014年研究论文：
[15] Yue Wei, Zeyu Li, Xianhu Liu, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Temperature-resistivity characteristics of a segregated conductive CB/PP/UHMWPE composite. Colloid and Polymer Science, 2014, 292(11)：2891-2898.
[14] Shuaiguo Zhao, Wei Zhai, Ning Li, Kun Dai*, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Liquid sensing properties of carbon black/polypropylene composite with a segregated conductive network. Sensors & Actuators: A. Physical, 2014, 217:13-20.
[13] Shuaiguo Zhao, Huijie Zhao, Guojie Li, Kun Dai*, Guoqiang Zheng, Chuntai Liu, Changyu Shen. Synergistic effect of carbon fibers on the conductive properties of a segregated carbon black/polypropylene composite. Material Letters, 2014, 129:72-75.
[12] Yingying Qu, Wenbo Zhang, Kun Dai*, Guoqiang Zheng,Chuntai Liu, Jingbo Chen,Changyu Shen. Tuning of the PTC and NTC effects of conductive CB/PA6/HDPE composite utilizing an electrically superfine electrospun network. Materials Letters, 2014, 132:48-51.
[11] Yingying Qu, Kun Dai*, Junhui Zhao, Guoqiang Zheng, Chuntai Liu, Jingbo Chen, Changyu Shen*. The strain-sensing behaviors of carbon black/polypropylene and carbon nanotubes/polypropylene conductive composites prepared by the vacuum-assisted hot compression. Colloid and Polymer Science, 2014, 292:945-951.
[10] Kun Dai, Yingying Qu, Yong Li, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Electrically conductive CB/PA6/HDPE composite with a CB particles coated electrospun PA6 fibrous network. Materials Letters, 2014, 114:96-99.
2013年研究论文：
[9] Kun Dai, Shuaiguo Zhao, Wei Zhai, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Tuning of liquid sensing performance of conductive carbon black (CB)/polypropylene (PP) composite utilizing a segregated structure. Composites Part A, 2013, 55: 11-18.
[8] Junhui Zhao, Kun Dai*, Chenggang Liu, Guoqiang Zheng, Bo Wang, Chuntai Liu*, Jingbo Chen, Changyu Shen. A comparison between strain sensing behaviors of carbon black/polypropylene and carbon nanotubes/polypropylene electrically conductive composites. Composites Part A, 2013，48: 129-136.
[7] Ke Li, Kun Dai*, Xiangbin Xu, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen, Changyu Shen. Organic vapor sensing behaviors of carbon black/poly (lactic acid) conductive biopolymer composite. Colloid and Polymer Science, 2013, 291, 2871-2878.
[6] Junhui Zhao, Kun Dai*, Xiangbin Xu, Guoqiang Zheng, Chuntai Liu*, Jingbo Chen. Comparative study of strain sensing behaviors of carbon black/polypropylene and carbon nanotubes/polypropylene with different tensile speeds. Polymer-Plastics Technology and Engineering, 2013, 52：1303-1307.
2012年以前研究论文：
[5] Kun Dai, Xiang-Bin Xu, Zhong-Ming Li*. Electrically conductive carbon black (CB) filled in situ microfibrillar poly(ethylene terephthalate) (PET)/polyethylene (PE) composite with a selective CB distribution. Polymer, 2007, 48(3): 849-859.
[4] Kun Dai, Zhong-Ming Li*, Xiang-Bin Xu. Electrically conductive in-situ microfibrillar composite with a selective carbon black distribution: An unusual resistivity-temperature behavior upon cooling. Polymer, 2008, 49(4): 1037-1048.
[3] Kun Dai, Yi-Chuan Zhang, Jian-Hua Tang, Xu Ji, Zhong-Ming Li*. Organic liquid stimuli-response behaviors of electrically conductive microfibrillar composite with a selective conductive component distribution. Journal of Applied Polymer Science, 2012, 124: 4466-4474.
[2] Kun Dai, Yi-Chuan Zhang, Jian-Hua Tang, Xu Ji, Zhong-Ming Li*. Anomalous attenuation and structural origin of positive temperature coefficient (PTC) effect in a carbon black (CB)/poly(ethylene terephthalate) (PET)/polyethylene (PE) conductive microfibrillar polymer composite with a preferential CB distribution. Journal of Applied Polymer Science, 2012, 125:E561-E570.
[1] 代坤，张荣正，郑国强，王波，刘春太*，申长雨. 具有隔离结构的导电高分子复合材料的研究进展.《高分子通报》，2012，6:10-17.
申请的专利：
[8] 代坤; 黄文举; 李毅祥; 徐卓言; 郑国强; 刘春太; 申长雨, 具有压敏特性的多孔导电高分子材料的制备方法及其应用, 2018.10.9, 中国, ZL8.4.
[7] 代坤; 王宁; 胡超; 郑国强; 刘春太; 申长雨, 导电高分子复合材料的制备及其在应变传感器中的应用, 2018.8.24, 中国, ZL6.8.
[6] 代坤，李泽宇，李国杰，郑国强，刘春太，申长雨. 具有裂纹结构的柔性应变传感器及其制备方法. 2016.5.19，中国发明专利，申请号 3.1。
[5] 代坤，高嘉辰，于云飞，王亚龙，郑国强，刘春太，申长雨。湿法纺丝简易装置，2016.5，中国实用新型专利，专利号ZL 2.X。
[4] 代坤, 赵帅国，李国杰，郑国强，刘春太，申长雨. 具有负温度系数效应的聚合物基温敏电阻材料及其制备方法. 2014. 11，中国发明专利，专利号ZL 5.X。
[3] 代坤, 翟威，李卓，李勇，郑国强，刘春太，申长雨. 一种制备具有隔离结构的导电高分子复合材料的方法. 2014.12，中国发明专利，专利号ZL 7.2。
[2] 代坤, 李勇，徐卓言，王亚龙，翟威，刘春太，郑国强，申长雨. 高分子气敏材料及其制备方法和用途. 2014. 12，中国发明专利，申请号或专利号3.6。
[1] 李忠明，张贻川，代坤. 一种低逾渗值导电高分子复合材料的制备方法. 中国发明专利，申请号6.2，申请公布号CN A，申请公布日期2011.05.18。
发表的会议论文：
[7] 翟威; 于云飞; 翟越; 代坤*; 刘春太; 柔性多孔导电高分子复合材料应变敏感行为调控, 2019年全国高分子学术论文报告会, 西安, 2019-10-15至2019-10-19，口头报告。
[6] Ren Miaoning; Li Guojie; Zhai Wei; Dai Kun*; Carbon nanotubes decorated aligned fibrous network for ultra-stretchable and highly sensitive strain sensor, The 4th International Symposium of Flexible and Stretchable Electronics, Wuhan, China, 2018-6-30~2018-7-1, Oral presentation.
[5] 代坤*; 基于预制导电网络的柔性应变传感器, 中国科协第337次青年科学家论坛, 武汉, 2017-11-24至2017-11-26，口头报告。
[4] 王亚龙; 代坤*; 刘春太; 含预制导电网络的高分子复合材料的结构及性能调控, 2017年全国高分子学术论文报告会, 中国, 四川省, 成都, 2017-10-10至2017-10-15，口头报告。
[3] 代坤*，赵帅国，刘春太。隔离结构导电高分子复合材料的结构与性能调控。2015年全国高分子学术论文报告会，中国，2015.10.17-21，口头报告。
[2] 代坤*，赵俊慧，郑国强，刘春太，申长雨，具有不同维数的填料填充聚丙烯导电复合材料的拉伸敏感行为研究，第一届高分子成型加工及其产业发展研讨会，中国，2013.5.10-12，口头报告。
[1] Kun Dai*，Shuaiguo Zhao, Wei Zhai, Guoqiang Zheng, Chuntai Liu, Carbon black/polypropylene electrically conductive composite with a segregated structure，The sixth Asia-Europe symposium on processing and properties of reinforced polymers, China, 2013.6.2-6, Oral presentation.