Navigation

  • About
  • Resume
  • Research Fields
  • Enrollment and Training
  • Course
  • Scientific
  • Academic Achievements
  • Honor
头像

Tian Shang

Related to the teacher

About

  • Department: School of Physics and Electronic Science
  • Gender: male
  • Post:
  • Graduate School: Zhejiang University
  • Degree: PhD
  • Academic Credentials: PhD
  • Tel:
  • Email: tshang@phy.ecnu.edu.cn
  • Office: Physics Building 425
  • Address: 500 Dongchuan RD, Minhang, Shanghai,
  • PostCode: 200241
  • Fax:

Education

2005.09-2009.07:Hangzhou Normal University,B.S.in Physics, Department of Physics

2009.09-2014.07:Zhejiang University, Ph.D in Condensed Matter Physics, Department of Physics


WorkExperience

Jun. 2014 - Sept. 2015   Assistant researcher at the Ningbo Institute of Materials Technology

Sept. 2015 - Oct. 2019   Postdoctoral researcher at Paul Scherrer Institut, École polytechnique fédérale de                  

                                        Lausanne (EPFL), and Eidgenössische Technische Hochschule Zürich (ETHZ)

Oct. 2019 - Apr. 2020      Postdoctoral researcher at Physik-Institut, Univeristy of Zürich (UZH)

Apr. 2020 - Nov. 2020     Research Scientistat Paul Scherrer Institut (PSI) 

Jan. 2021- Present         Tenure track professor at School of Physics and Electronic Science, East China Normal University (ECNU), Shanghai, China




Resume

Correlated electron system is one of the frontiers of condensed matter physics, whose novel physical properties including magnetism and superconductivity play a significant role in the field of energy, information, medical treatment, and national defense, etc. In the past years, we have focused on the synthesis of the correlated electronic materials and investigating their magnetic and superconducting properties mostly by using the muon-spin rotation and relaxation (mSR) techniques. We have published 68 papers in peer-reviewed journals, in which 30 papers are the first or corresponding authors. These include Phys. Rev. Lett., Nat. Commun., Sci. Adv., npj Quantum Materials, 14 Phys. Rev. B/Materials, and New J. Phys,etc.


Other Appointments

Research Fields

  • Unconventional and high-temperature superconductivity

  • Novel physical properties in correlated systems

  • Quantum phase transitions and critical phenomena under extremely conditions

  • Spin Hall effect and spin transport in ferromagnetic insulator/metal bilayer

  • Multiferroic materials, magnetic oxides

  • Crystal/thin film growth (flux, Czochralski, chemical vapor transport, Bridgman, Floating zone, pulsed laser deposition, magnetic sputtering)

  • Muon spin rotation/relaxation (µSR), neutron scattering


Enrollment and Training

Course

Scientific

Academic Achievements

Honor