Academic Profile : Faculty

Martial Duchamp.jpg picture
Asst Prof Martial Duchamp
Assistant Professor, School of Materials Science & Engineering
External Links
 
Dr. Martial Duchamp received his Master of Engineering and Research degree from the Ecole Nationale Supérieure de Physique, Grenoble (ENSPG-INPG), France in 2005 and a Ph.D. degree from the Physic department at the Ecole Polytechnique Fédérale Lausanne (EPFL), Switzerland in 2009, where he studied the growth, electrical and mechanical properties of ZnO nanowires. After postdoctoral research at Danmarks Tekniske Universitet (DTU), Copenhagen, Denmark, he joined the Research Center Jülich in The Ernst Ruska-Centre for Microscopy and Spectroscopy with Electrons (ER-C) institute in 2011, where he investigated solar cells using various TEM techniques, mainly focusing on the chemical analysis of very low dopant concentrations and in-situ TEM experiments. In 2016, he joined NTU as an Assistant Professor.
Development of novative in operando TEM methods for application to solar cells, batteries, fuel cells devices...

In situ and in operando TEM studies of 2D devices for applications in optoelectronics, electronic, sensors...

Fundamental understanding of 2D materials to reveal their unprecedented electrical properties at local scale including half-metallic, semiconducting, superconducting and charge density wave behavior
 
  • All-solid-state batteries: unlock the stability issues to solid electrolytes and interfaces
  • Characterisation of memristive systems
  • ELECTrically Reconfigurable Optoelectronic materials through ionic modulation
  • IN Situ ANalysis of Solid Oxide Fuel Cell in operation(INSTANT)
  • IPP-NTU WORKSHOP ON EMERGENT MATERIALS AND TECHNOLOGIES
  • Memristive Halide Perovskites for Next Generation Embedded Neuromorphic Computing
  • MEMS-Based Programmable Phase Array to Enhance TEM Capabilities
  • Rational design of halide perovskite-based quantum dots for photonic applications (DesperQD)
  • Study of Length Scale Effects and Interfaces on Mechanical Properties
  • TEM In-situ Electrical Characterization & Defect Isolation of Microprocessors
  • Visualizing Perovskite Growth to Unlock Optoelectronic Secrets
  • Wide temperature-range supercapacitors, from electrode materials design to energy storage mechanism.
Courses Taught
MS733M Electron Microscopy of Materials