Sun Jingyao

Author:留学生办公室 Release date:2024-03-08

北京化工大学硕博留学生导师简介

BriefIntroduction of Professor of BUCT

Name

姓名

JingyaoSun

孙靖尧

Gender

性别

Male



College

学院

Collegeof Mechanical and Electrical Engineering

Highestdegree

最高学历

Ph.D.

ProfessionalTitle

职称

AssociateProfessor

Discipline/Major

专业

MechanicalEngineering

ResearchArea/Direction

招生研究方向

MechanicalEngineering;Materials Science and Engineering

OfficePhone

办公电话


CellPhone

手机号码


Email

邮箱

sunjingyao@mail.buct.edu.cn

ResearchTopicsnomore than 100 words)研究方向

1. Polymercomposites;

2. Polymer-basedfunctional devices;

3.Micro-nano fabrication of polymer materials

EducationBackground 教育背景

Ph.D.  MechanicalEngineering  Beijing University of Chemical Technology, China 2018

M.S.  MechanicalEngineering  Beijing University of Chemical Technology, China 2015

B.S. Mechanical Engineering  Beijing University of ChemicalTechnology, China  2013

WorkExperience 工作经历

Sep. 2018 to now Associate Professor in College of Mechanical and ElectricalEngineering, Beijing University of Chemical Technology, China

Dec.2016 to Jan. 2018  Visiting Scholar in College of Chemical andBiomolecular Engineering, the Ohio Sate University, USA

Publications(nomore than 10 representative publications) 发表文章

  1. JingyaoSun, et al.Highly thermally conductive and electrically insulatingpolydimethylsiloxane composites prepared by ultrasonic-assistedforced infiltration for thermal management applications.CompositesPart B: Engineering,2021, 224, 109207; (TOP)

  2. JingyaoSun, et al.Preparation of flexible and elastic thermal conductivenanocomposites via ultrasonic-assisted forced infiltration.CompositesScience and Technology,2021, 202, 108582; (TOP)

  3. JingyaoSun, et al. Efficientconstruction and online evaluation of conductive networks withinpolydimethylsiloxane composites via continuous SCFNA method,CompositesCommunications,2021, 24, 100673;

  4. JingyaoSun, et al.Enhancing thermal conductivity via conductive network conversionfrom high to low thermal dissipation in polydimethylsiloxanecomposites. Journalof Materials Chemistry C,2020, 8(10): 3463-3475. (TOP)

  5. JingyaoSun, et al.Study on the fabrication and characterization of tip-loadeddissolving microneedles for transdermal drug delivery. EuropeanJournal of Pharmaceutics and Biopharmaceutics,2020, 157, 66-73; (TOP)

  6. JingyaoSun, et al.Thermal conductivity enhancement via conductive networkconversion from “sand-like” to “stone-like”in the polydimethylsiloxane composites. CompositesCommunications,2020: 100509.

  7. JingyaoSun,et al.Highly Elastic and Ultrathin Nanopaper-based Nanocomposites withSuperior Electric and Thermal Characteristics. Journalof Materials Science,2019,54(11),8436-8449; (TOP)

  8. JingyaoSun, et al.ImprovedThermal Conductivity of Polydimethylsiloxane/Short Carbon FiberComposites Prepared by Spatial Confining Forced Network Assembly,Journal of Materials Science,2018, 53 (20), 14299-14310; (TOP)

  9. JingyaoSun, et al.HighlyStretchable and Ultrathin Nanopaper Composites for EpidermalStrain Sensors,Nanotechnology,2018, 29(35): 355304;(TOP)

  10. JingyaoSun, et al.Spatial Confining Forced Network Assembly for preparation ofhigh-performance conductive polymeric composites, CompositesPart A: Applied Science and Manufacturing,2017, 102, 88-95; (TOP)