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Research Centers

신현석

DirectorSHIN Hyeon Suk

  • SHIN Hyeon Suk DirectorSHIN Hyeon Suk

Design of innovative 2D quantum materials for quantum information technology

Contact Info

Tel. +82-31-299-6508

Fax +82-31-299-6505

Address

IBS Center for 2D Quantum Heterostructures
#86371, N Center, Sungkyunkwan University,
Seobu-ro 2066, Jangan-gu, Suwon, South Korea

Major Publications

more paper
  • - Epitaxial growth of single-crystal few-layer hexagonal boron nitride on Ni (111), Nature, 2022, 606, 88.
  • - Ultra-low dielectric constant amorphous boron nitride, Nature, 2020, 582, 511.
  • - Blue emission at atomically sharp 1D heterojunctions between graphene and h-BN, Nature Commun., 2020, 11, 5359.
About Director
Director by Hyeon Suk SHIN

Director Hyeon Suk SHIN

Prof. Shin is the director of Center for 2D Quantum Heterostructures at SKKU, established in March, 2024. He was a professor at UNIST before he becomes the director of the center at SKKU. He is a fellow of Royal Society of Chemistry and serves as an associate editor in npj 2D materials and applications and as an advisory board member in Nanoscale and Nanoscale Advances.

Introduction
graphic image for Research Center

“Center for 2D Quantum Heterostructures” aims to synthesize various in-plane 2D quantum heterostructures, fabricate vertical heterostructures with them, and investigate their quantum confinement effect and nontrivial quantum phenomena. The center will establish 3 research programs (4 materials platforms for atomic-level structure-property relationship in quantum materials) for investigating the physics and chemistry of 2D quantum heterostructures. The center will actively pursue interdisciplinary research by experts in the fields of chemistry, physics, and materials science.

Main research activities

The center plans to synthesize newly designed 2D quantum heterostructures and to elucidate atomic-level structure-property relationship in such 2D quantum heterostructures.

1. New ternary BCN (boron carbon nitride) structures

2. Quantum phenomena of 2D quantum heterostructures controlled at the atomic level

3. Atomic-level control of defects or dopants in single-crystal hexagonal boron nitride

4. 2D materials-based quantum emitters and photonic devices

Research

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Last Update 2024-06-03 13:58