2022 MRS Spring Meeting
Symposium EQ08—Quantum Dot Optoelectronics and Low-Dimensional Semiconductor Electronics
This symposium is jointly organized by MRS and MRS-Korea (MRS-K). Since its foundation in 1991, MRS-K has been serving as a great platform where a number of researchers in materials science from both academia and industry interact, promoting the growth
of the technology and scholarship of the materials science and engineering. One of the main interests of the society is functional materials for (opto)electronic and energy applications. As such, the joint symposium is dedicated to the topic of
quantum dot optoelectronics and low-dimensional semiconductor materials for electronics and (photo)electrochemical applications. The low-dimensional structures of interest include quantum dots, colloidal nanocrystals, nanowires, nanorods, as well
as 2D layered crystals. Relevant materials include (but are not limited to) metal-chalcogenide, binary, tertiary, and quaternary compound semiconductors. The target applications are solar cells, light emitting diodes, and thin film transistors
based on low-dimensional semiconductors, but the invitation is extended to other devices such as laser, photo- and radiation-detectors based on active layers in the form of nanostructures. Given the wide use of low-dimensional structures in photoelectrochemical
energy conversion, the application of nanostructured semiconductors for photoelectrodes/(photo)electrocatalysts will be also discussed. The symposium will cover advances in the synthesis, characterization, computational modeling and applications
of these low-dimensional optoelectronic materials. Given the interdisciplinary nature of the topic, participation of experts with a broad range of backgrounds is anticipated.
Topics will include:
- Novel synthesis methods of low-dimensional semiconductors, including layered crystals
- Advances in the controlled assembly of nanocrystals
- Large scale synthesis of low-dimensional semiconductors
- Strategies for defect passivation of nanostructures
- In-situ characterization of formation/degradation of nanostructures
- Atomic-scale and in-situ characterization of semiconductor nanocrystals
- Advances in high efficiency quantum dot solar cells
- Bulk thin films and single crystals of materials with low structural dimensionality
- Non-toxic III-V semiconductor quantum dots for electroluminescence device applications
- Thin film transistors based on a layered semiconductor channel
- Novel nanostructured semiconductors for photoelectrodes/(photo)electrocatalysts in (photo)electrochemical energy conversion devices
Invited Speakers:
- Manish Chhowalla (University of Cambridge, United Kingdom)
- Jianbo Gao (Clemson University, USA)
- Shujuan Huang (Macquarie University, Australia)
- Kwang Seob Jeong (Korea University, Republic of Korea)
- Sohee Jeong (Sungkyunkwan University, Republic of Korea)
- Cherie Kagan (University of Pennsylvania, USA)
- Hemamala Karunadasa (Stanford University, USA)
- Joonhyung Kim (Samsung Advanced Institute of Technology, Republic of Korea)
- Tae-Gon Kim (Samsung Advanced Institute of Technology, Republic of Korea)
- Yong-Hyun Kim (Korea Advanced Institute of Science and Technology, Republic of Korea)
- Zheng Liu (Nanyang Technological University, Singapore)
- Joseph Luther (National Renewable Energy Laboratory, USA)
- Cecilia Mattevi (Imperial College London, United Kingdom)
- David Muñoz-Rojas (Université Grenoble Alpes, France)
- Kevin Musselman (University of Waterloo, Canada)
- Lea Nienhaus (Florida State University, USA)
- Jiwoong Park (The University of Chicago, USA)
- Shuyan Shao (Tianjin University, China)
- Dmitri Talapin (The University of Chicago, USA)
- Ming Lee Tang (The University of Utah, USA)
Symposium Organizers
Byungha Shin
Korea Advanced Institute of Science and Technology
Department of Materials Science and Engineering (MSE)
Republic of Korea
Robert Hoye
Department of Chemistry
United Kingdom
Shinae Jun
Samsung Electronics
Republic of Korea
Laura Schelhas
National Renewable Energy Laboratory
USA
Topics
2D materials
III-V
lighting
luminescence
optical properties
optoelectronic
perovskites
photovoltaic
quantum materials