曹雷涛

曹雷涛  博士

Leitao Cao, Ph.D.

职务：特聘副研究员

研究所：特种聚合物研究所

研究方向：生物基复合材料、仿生材料、功能性纤维材料

邮箱：caolt@zju-qz.edu.cn

地址：浙江省衢州市柯城区浙大路99号

个人简介：

曹雷涛（1990-），陕西渭南人

2009年9月-2013年6月，江南大学，纺织工程，学士学位；

2013年9月-2020年6月，东华大学，纺织材料与纺织品设计，博士学位，导师 俞建勇教授、丁彬教授。主要从事微纳米纤维的结构设计及其功能化应用研究；

2020年6月-2022年6月，上海科技大学，材料科学与工程，博士后，导师 凌盛杰研究员。主要从事丝蛋白材料结构-性能解析及其功能化应用研究；

2022年7月全职加入浙江大学衢州研究院

学术成果

曹雷涛博士致力天然材料的结构解析及仿生制备、纤维材料的结构设计及功能化应用，在Advanced Materials、Advanced Functional Materials、Nano Letters、Nature Communications、ACS Nano、Small等学术期刊已发表学术论文20余篇 （其中ESI高被引2篇）；参与书籍章节4章；申请国家发明专利8项，已授权3项；主持博士后科学基金面上项目1项，参与国家自科基金委、上海市科委基础研究重点项目等其他项目多项。

发表论文

2022年：

[1] Y. Zhang^#, S. Ye^#, L. Cao^#, Z. Lv, J. Ren, Z. Shao, Y. Yao*, S. Ling*. Natural silk spinning-inspired meso-assembly-processing engineering strategy for fabricating soft tissue-mimicking biomaterials, Adv. Funct. Mater., 2022, 10.1002/adfm.202200267

[2] L. Cao^#, H. Shan^#, D. Zong^#, X. Yu, X. Yin*, Y. Si*, J. Yu, B. Ding*. Fire-Resistant and Hierarchically Structured Elastic Ceramic Nanofibrous Aerogels for Efficient Low-Frequency Noise Reduction. Nano Lett.,2022, 22, 1609.

[3] S. Lin, L. Cao, Z. Lv, J. Ren, S. Ling*. Quantitative Evaluation of Pseudo Strain Signals Caused by Yarn Structural Deformation, Adv. Fiber Mater., 2022, 4, 214.

[4] C. Ye^#, S. Yang^#, J. Ren, S. Dong, L. Cao, Y. Pei, S. Ling*. Electro-assisted core-spun triboelectric nanogenerator fabrics for IntelliSense and artificial intelligence perception, ACS Nano, 2022, 16, 4415.

[5] Q. Liu^#, X. Li^#, H. Zhang^#, J. Ren*, S. Yang, L. Cao, J. Liang*, S. Ling*. IntelliSense silk fibroin ionotronic batteries for wildfire detection and alarm, Nano Energy, 2022, 101, 10637. DOI: 10.1016/j.nanoen.2022.107630

[6] Z. Chen, T. Zhang, C. Chen, S. Yang, Z. Lv, L. Cao, J. Ren, Z. Shao, L. Jiang, S. Ling*. Mechanically and electrically biocompatible hydrogel ionotronic fibers for fabricating structurally stable implants and enabling noncontact physioelectrical modulation, Mater. Horiz., 2022, 10.1039/d2mh00296e

[7] C. Zhao^#, Y. Liu^#, Z. Lv, L. Cao, J. Ren, Z. Shao, S. Ling*. Silk fibroin nacre, Adv. Fiber Mater., 2022, 10.1007/s42765-022-00171-6

[8] Y. Wang^#, J. Ren^#, Z. Lv, L. Cao, S. Lin, Y. Pei, Q. Zhang, Z. Shao, S. Ling*. Direct functionalization of natural silks through continuous force-reeling technique, Chem. Eng. J., 2022, 435, 134901.

[9] C. Dai^#, Y. Wang^#, Y. Shan^#, C. Ye, Z. Lv, S. Yang, L. Cao, J. Ren*, H. Yu, S. Liu, Z. Shao, Jian Li, W. Chen*, S. Ling*. Cytoskeleton-inspired hydrogel ionotronics for tactile perception and electroluminescent display in complex mechanical environments, Materials Horizons, 2022, DOI: 10.1039/d2mh01034h

[10] Z. Lv, L. Cao, J. Ren, S. Ling*. Understanding the mechanical “shakedown” of hydrogel ionotronics for realizing their highly functional stability, Polymer, 2022, DOI: 10.1016/j.polymer.2022.125498

2021年：

[1] L. Cao^#, Q. Liu^#, J. Ren, W. Chen*, Y. Pei, D. L. Kaplan*, S. Ling*. Electro-Blown Spun Silk/Graphene Nanoionotronic Skin for Multifunctional Fire Protection and Alarm. Adv. Mater., 2021, 33 (38), e2102500.

[2] D. Zong, L. Cao, X. Yin, Y. Si, S. Zhang*, J. Yu, B. Ding*. Flexible Ceramic Nanofibrous Aerogels with Hierarchically Entangled Graphene Networks Enable Full-Frequency Noise Absorption, Nat. Commun., 2021, 12 (1), 6599.

[3] T. Shu^#, Z. Lv^#, C. Chen, G. X. Gu, J. Ren, L. Cao, Y. Pei, S. Ling*, D. L. Kaplan. Self-reinforcement of Highly Hydrated Silk by Mechanical Training-driven Structural Remodeling, Small, 2021, 17, e2102660.

[4] L. Cao, X. Yu, X. Yin*, Y. Si*, J. Yu, B. Ding. Hierarchically Maze-like Structured Nanofiber Aerogels for Effective Low-frequency Sound Absorption. J. Colloid Interface Sci., 2021, 597, 21.

[5] T. Shu^#, J. Cui^#, Z. Lv, L. Cao, J. Ren, S. Ling*. Moderate Conformational Transition Promotes the Formation of a Self-Reinforced Highly Oriented Silk Fibroin Network Structure, Soft Matter, 2021, 2021, 17, 9576.

[6] Z. Lv^#, T. Shu^#, J. Ren, L. Cao, Y. Pei, Z. Shao, S. Ling*. Mechanism of Mechanical Training-Induced Self-Reinforced Viscoelastic Behavior of Highly Hydrated Silk Materials. Biomacromolecules, 2021, 22, 2189.

[7] X. Lu, L. Cao, Y. Si*, J. Yu, B. Ding*. Stretchable, Tough, and Eelastic Nanofibrous Hydrogels with Dermis-mimicking Network Structure, J. Colloid Interface Sci., 2021, 582, 387.

[8] S. Dong, Y. Zhang, B. Li*, J. Ren, S. Ling*, L. Cao*. Self-adhesive and Contractile Silk Fibroin/graphene Nano-ionotronic Skin for Strain Sensing of Irregular Surfaces. Nanotechnology, 2021, 32, 475505.

2020年及以前：

[1] X. Dong^#, L. Cao^#, Y. Si, B. Ding*, H. Deng*. Cellular Structured CNTs@SiO₂ Nanofibrous Aerogels with Vertically Aligned Vessels for Salt-Resistant Solar Desalination. Adv. Mater., 2020, 32, 190826.

[2] Y. Li^#, L. Cao^#,X. Yin, Y. Si*, J. Yu, B. Ding*. Semi-Interpenetrating Polymer Network Biomimetic Structure Enables Superelastic and Thermostable Nanofibrous Aerogels for Cascade Filtration of PM_2.5. Adv. Funct. Mater., 2020, 30, 1910426.

[3] L. Cao, Y. Si*, X. Yin*, J. Yu, B. Ding*. Ultralight and Resilient Electrospun Fiber Sponge with a Lamellar Corrugated Microstructure for Effective Low-frequency Sound Absorption. ACS Appl. Mater. Interfaces, 2019, 11, 35333.

[4] X. Wu^#, L. Cao^#, J. Song, Y. Si, J. Yu, B. Ding*. Thorn-like Flexible Ag₂C₂O₄/TiO₂ Nanofibers as Hierarchical Heterojunction Photocatalysts for Efficient Visible-light-driven Bacteria-killing. J. Colloid Interface Sci., 2020, 560, 681.

[5] D. Zong, L. Cao, Y. Li, X. Yin, Y. Si*, J. Yu, B. Ding*. Interlocked Dual-Network and Superelastic Electrospun Fibrous Sponges for Efficient Low-Frequency Noise Absorption. Small struct., 2020, 1, 2000004.

[6] Y. Li, L. Cao, X. Yin, Y. Si*, J. Yu, B. Ding*. Ultrafine, Self-Crimp, and Electret Nano-Wool for Low-Resistance and High-Efficiency Protective Filter Media Against PM_0.3. J. Colloid Interface Sci., 2020, 578, 565.

[7] W. Zhou^#, X. Yu^#, L. Cao, M. Yang, Y. Li, Y. Si*, J. Yu, B. Ding*. Green and Ethanol-Resistant Polyurethane Nanofibrous Membranes Based on an Ethanol Solvent for Waterproof and Breathable Textiles. Adv. Sustainable Syst., 2020, 4, 2000105.

[8] L. Cao^#, Y. Si^#, Y. Wu, X. Wang, J. Yu, B. Ding*. Ultralight, Superelastic and Bendable Lashing Structured Nanofibrous Aerogels for Effective Sound Absorption. Nanoscale, 2019, 11 (5), 2289.

[9] L. Cao, Q. Fu, Y. Si, B. Ding, J. Yu*. Porous Materials for Sound Absorption. Compos. Commun., 2018, 10, 25.

[10] J. Ge, Y. Qu, L. Cao, F. Wang, L. Dou, J. Yu, B. Ding*. Polybenzoxazine-Based Highly Porous Carbon Nanofibrous Membranes Hybridized by Tin Oxides Nanoclusters: Durable Mechanical Elasticity and Capacitive Performance. J. Mater. Chem. A, 2016. 4, 7795.

[11] S. Zhang, N. Tang, L. Cao, X. Yin, J. Yu, B. Ding*. Highly Integrated Polysulfone/Polyacrylonitrile/Polyamide-6 Air Filter for Multilevel Physical Sieving Airborne Particles. ACS Appl. Mater. Interfaces, 2016 8, 29062.

专利成果

[1] 一种纳米纤维/纺粘无纺布复合过滤材料制备方法及使用该方法制备的复合过滤材料， 丁彬*、曹雷涛、赵兴雷、俞建勇 （ZL201510632133.5）

[2] 一种静电纺丝方法及其制备的纳米纤维/玻璃纤维复合过滤材料， 丁彬*、赵兴雷、曹雷涛、俞建勇（ZL201510631903.4）

[3] 具有防水透湿功能的超轻质气凝胶保暖材料及其制备方法， 丁彬*、吴红炎、曹雷涛、张世超、印霞、孙刚、俞建勇（ZL201710215889.9）

[4] 一种具有三明治结构的纳米纤维絮片及其制备方法， 丁彬*、王赛、吴红炎、曹雷涛、田昱城、赵磊、郑作保、斯阳、印霞、刘一涛、俞建勇（CN 202010206170.0）

[5] 一种离子导体材料及其制备方法和用途，凌盛杰*、曹雷涛、任婧、刘强（CN202110647100.3）

[6] 三维多孔框架增强纤维海绵高效吸音材料及其制备， 丁彬*、吴红炎、曹雷涛、乌园园、赵兴雷、印霞、孙刚、俞建勇（CN201710213035.7）

[7] 具有防水透湿功能的框架增强气凝胶保暖材料及其制备， 丁彬*、吴红炎、曹雷涛、李玉瑶、印霞、孙刚、俞建勇（CN201710215987.2）

[8] 一种三维多孔框架增强纤维气凝胶材料及其制备方法， 丁彬*、曹雷涛、吴红炎、葛建龙、印霞、孙刚、俞建勇 （CN201710215988.7）

会议报告

[1] 曹雷涛，张月华，董少君，刘强，任婧，凌盛杰*. 丝蛋白纳米纤维离子导体的制备及其功能化应用研究，中国化学会第二届全国纤维素学术研讨会，湖北 武汉，中国化学会纤维素专业委员会，2021.10.14-17（优秀墙报奖）

[2] 曹雷涛，刘强，任婧，凌盛杰*. 丝蛋白纳米纤维电子皮肤的制备及其火灾预警应用研究，中国材料大会2021，厦门，中国材料研究学会，2021.7.8-12 (口头报告)

[3] L. Cao, J. Yu and B. Ding*. Ultralight Nanofiber Aerogels for Efficient Sound Absorption. The Fiber Society’s Fall 2017 Technical Meeting and Conference and International Symposium on Materials from Renewables. 2017.11.08-10 (ISMR) (2017, Georgia, USA) (Oral Presentation)

[4] L. Cao, J. Yu and B. Ding*. Nanofibrous Assemblies for Broadband Sound Absorption. MedTex 17 in conjunction with the 11^th International Forum on Biomedical Textile Materials (IFBMTM 2017), Shanghai, China. May 17-19, 2017. (Oral Presentation)

[5]L. Cao, J. Ge, J. Yu and B. Ding*. Stannic Oxide Doped Polybenzoxazine-Based Carbon Nanofibrous Membranes with Enhanced Mechanical Properties. 2016中国国际静电纺丝大会（CICE 2016） CICE, Beijing, China. Nov. 18-20, 2016. (Poster)