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邵将 副教授

机械工程学院

通讯地址:

个人邮箱:jiangshao@just.edu.cn

邮政编码:

办公地点:机械工程学院446

传真:

  • 个人简介

  • 研究方向

  • 科研团队

  • 科研项目

  • 获奖动态

  • 教学随笔

  • 教育经历

  • 课程教学

  • 论文著作

  • 科研论文

  • 科研横向项目

  • 科研纵向项目

  • 科研专利

  • 科研动物专利

  • 邵将,男,博士,副教授,学术/专业硕士研究生导师。长期致力于功能化高分子材料的设计、改性以及应用研究,在Journal of Materials Chemistry CIndustrial & Engineering Chemistry ResearchACS Applied Polymer Materials等国际权威学术期刊上发表多篇SCI学术论文

    课题组氛围好,伙食标准高,常年招收学术型/专业型硕士研究生,具体要求如下:

    希望乐观、开朗,能积极、主动地跟导师和课题组同学沟通;具有较好的执行力和团队合作能力;(对新材料、柔性材料等研究领域有兴趣且英语水平优良的同学优先,如果没有相关学术背景也无所谓,导师愿意从头开始培养!)

    承诺好相处、亲自指导、绝不欺压、不抢一作、不夺成果,争取成为一股清流!招生名额有限,欢迎各位同学通过电子邮件尽早/复试前与我联系(简单介绍个人情况、学业成绩、研究生考试成绩、外语水平、过往科研经验(若有)等,并附上相关证明材料),需要简单的面对面交流(不强求学生读博,尊重学生意愿!但如有读博打算,会尽量助力去往更好的平台)。

  • 1.柔性纳米导电/介电材料

    2.软体气动机器人

    3.海洋能量收集/纳米发电机


    近期发表的SCI论文:

    1.Zhou, L., Liu, X., Zhong, W., Pan, Q., Sun, C., Gu, Z., ... & Shao, J. (2024). Wearable Smart Silicone Belt for Human Motion Monitoring and Power Generation. Polymers16(15), 2146.

    2.Huang, J., Shao, J., Zhong, W., Sun, C., Zhang, G., Chen, L., ... & Liu, X. (2024). A Wind Bell Inspired Triboelectric Nanogenerator for Extremely Low‑Speed and Omnidirectional Wind Energy Harvesting. Small Methods, 2400078.

    3.Fan, B., Fang, J., Jiang, S., Li, C., Shao, J., & Liu, W. (2024). A hybrid energy harvester inspired by bionic flapping wing structure based on magnetic levitation. Review of Scientific Instruments95(1).

    4.Li, C., Shen, L., Shao, J., & Fang, J. (2023). Simulation and experiment of active vibration control based on flexible piezoelectric MFC composed of PZT and PI layer. Polymers15(8), 1819.

    5.Wang, J., Tong, Y., Li, C., Zhang, Z., & Shao, J. (2022). A Novel Vibration Piezoelectric Generator Based on Flexible Piezoelectric Film Composed of PZT and PI Layer. Polymers14(14), 2871.

    6.Shao, J., Zhou, L., Chen, Y., Liu, X., & Ji, M. (2022). Model-based dielectric constant estimation of polymeric nanocomposite. Polymers14(6), 1121.

    7.Shao, J., Liu, X., & Ji, M. (2022). Effect of interfacial properties of filled carbon black nanoparticles on the conductivity of nanocomposite. Journal of Applied Polymer Science139(6), 51604.

    8.Shao, J., Liao, X., Ji, M., & Liu, X. (2021). A Modeling Study of the Dielectric Property of Polymeric Nanocomposites Based on the Developed Rayleigh Model. ACS Applied Polymer Materials3(12), 6338-6344.

    9.Shao, J., Ji, M., & Liu, X. (2021). A Developed Rahaman Model for Estimating the Dielectric Permittivity of Polymer–Barium Titanate Nanocomposites. Industrial & Engineering Chemistry Research60(36), 13265-13271.

    10.Liu, X., Ji, M., & Shao, J. (2021). Estimating the dielectric constant of BaTiO3–polymer nanocomposites by a developed Paletto model. RSC advances11(42), 26056-26062.

    11.Shao, J., Yu, L., Skov, A. L., & Daugaard, A. E. (2020). Highly stretchable conductive MWCNT–PDMS composite with self-enhanced conductivity. Journal of Materials Chemistry C8(38), 13389-13395.

    • 论文著作

      近五年代表论文


      • Shao J, Yu L, Skov A L, et al. Highly stretchable conductive MWCNT–PDMS composite with self-enhanced conductivity[J].      Journal of Materials Chemistry C, 2020, 8(38): 13389-13395.

      • Shao J, Ji M, Liu X. A Developed Rahaman Model for Estimating the Dielectric Permittivity of Polymer–Barium Titanate      Nanocomposites[J]. Industrial & Engineering Chemistry Research, 2021, 60(36): 13265-13271.

      • Shao J, Liao X, Ji M, et al. A Modeling Study of the Dielectric Property of Polymeric Nanocomposites Based on the Developed Rayleigh Model[J]. ACS Applied Polymer Materials, 2021, 3(12): 6338-6344.

      • Shao J, Liu X, Ji M. Effect of interfacial properties of filled carbon black nanoparticles on the conductivity of    nanocomposite[J]. Journal of Applied Polymer Science, 2022, 139(6): 51604.

      • Liu X, Ji M, Shao J. Estimating the dielectric constant of BaTiO3–polymer nanocomposites by a developed Paletto model[J]. RSC Advances, 2021, 11(42): 26056-26062.

      • Shao J, Zhou L, Chen Y, et al. Model-Based Dielectric Constant Estimation of Polymeric Nanocomposite[J]. Polymers, 2022, 14(6):  1121.

      • Wang, J., Tong, Y., Li, C., Zhang, Z., & Shao, J. (2022). A Novel Vibration Piezoelectric Generator Based on Flexible Piezoelectric Film Composed of PZT and PI Layer. Polymers14(14), 2871.


    • 论文著作

      近五年代表论文


      • Shao J, Yu L, Skov A L, et al. Highly stretchable conductive MWCNT–PDMS composite with self-enhanced conductivity[J].      Journal of Materials Chemistry C, 2020, 8(38): 13389-13395.

      • Shao J, Ji M, Liu X. A Developed Rahaman Model for Estimating the Dielectric Permittivity of Polymer–Barium Titanate      Nanocomposites[J]. Industrial & Engineering Chemistry Research, 2021, 60(36): 13265-13271.

      • Shao J, Liao X, Ji M, et al. A Modeling Study of the Dielectric Property of Polymeric Nanocomposites Based on the Developed Rayleigh Model[J]. ACS Applied Polymer Materials, 2021, 3(12): 6338-6344.

      • Shao J, Liu X, Ji M. Effect of interfacial properties of filled carbon black nanoparticles on the conductivity of    nanocomposite[J]. Journal of Applied Polymer Science, 2022, 139(6): 51604.

      • Liu X, Ji M, Shao J. Estimating the dielectric constant of BaTiO3–polymer nanocomposites by a developed Paletto model[J]. RSC Advances, 2021, 11(42): 26056-26062.

      • Shao J, Zhou L, Chen Y, et al. Model-Based Dielectric Constant Estimation of Polymeric Nanocomposite[J]. Polymers, 2022, 14(6):  1121.

      • Wang, J., Tong, Y., Li, C., Zhang, Z., & Shao, J. (2022). A Novel Vibration Piezoelectric Generator Based on Flexible Piezoelectric Film Composed of PZT and PI Layer. Polymers14(14), 2871.


    • 论文著作


      • Shao J, Yu L, Skov A L, et al. Highly stretchable conductive MWCNT–PDMS composite with self-enhanced conductivity[J].      Journal of Materials Chemistry C, 2020, 8(38): 13389-13395.

      • Shao J, Ji M, Liu X. A Developed Rahaman Model for Estimating the Dielectric Permittivity of Polymer–Barium Titanate      Nanocomposites[J]. Industrial & Engineering Chemistry Research, 2021, 60(36): 13265-13271.

      • Shao J, Liao X, Ji M, et al. A Modeling Study of the Dielectric Property of Polymeric Nanocomposites Based on the Developed Rayleigh Model[J]. ACS Applied Polymer Materials, 2021, 3(12): 6338-6344.

      • Shao J, Liu X, Ji M. Effect of interfacial properties of filled carbon black nanoparticles on the conductivity of    nanocomposite[J]. Journal of Applied Polymer Science, 2022, 139(6): 51604.

      • Liu X, Ji M, Shao J. Estimating the dielectric constant of BaTiO3–polymer nanocomposites by a developed Paletto model[J]. RSC Advances, 2021, 11(42): 26056-26062.

      • Shao J, Zhou L, Chen Y, et al. Model-Based Dielectric Constant Estimation of Polymeric Nanocomposite[J]. Polymers, 2022, 14(6):  1121.

      • Wang, J., Tong, Y., Li, C., Zhang, Z., & Shao, J. (2022). A Novel Vibration Piezoelectric Generator Based on Flexible Piezoelectric Film Composed of PZT and PI Layer. Polymers14(14), 2871.


  • 2023.8-至今 江苏科技大学 副教授

    2021.11-2023.7 江苏科技大学 讲师

  • 1.工程制图

    2.专业英语