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Atomic Manipulation for Quantum Nanotechnology

RESEARCH

DEPARTMENTS
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RESEARCH GROUPS
solarcells
quantum-energy tab menu
2DMATERIALS
Atomicmanipulation
quantum electrodynamics 2D BTN menu
theoryquantum
quantum-linear tab menu

DESCRIPTION

The Atomic Manipulation for Quantum Nanotechnology (AMQN) group is dedicated to creating novel two-dimensional materials and nanomaterials for the state-of-the-art magnetic, electronic, optoelectronic, electrochemical and energy applications. We focus on probing the structure-property interplay of low-dimensional material systems at the atomic scale so as to fulfill atomic manipulation of quantum nanostructures by combining (scanning) transmission electron microscopy, spectroscopy, first-principles calculations and property assessment. Scientifically, special attention is given to a range of defects and interfaces in 2D materials and nanomaterials and how they mediate material property shift at the atomic scale, aiming at tackling fundamental material issues in a broad range of functional material systems. By atomistic design based on first-principles calculations, we aim to develop new functional material systems by a series of preparation methods, e.g. chemical vapor deposition (CVD), chemical vapor transport (CVT), molecular beam epitaxy (MBE), and apply them to fabricate advanced electronic, optoelectronic, and energy devices.

GROUP LEADER

Zhongchang Wang - 1

THE TEAM

Bin Wei
Research Fellow

Jingyi Wang
Research Fellow

Zhi Xie
Scientific Associate

QUANTUM-PTI_Social mediaApply today with us and become a part of the Atomic Manipulation for Quantum Technology  Team!

If you are interested in this project please contact me.

Research Area: Quantum Materials for Quantum Science & Technology

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DESCRIPTION

The Atomic Manipulation for Quantum Nanotechnology (AMQN) group is dedicated to creating novel two-dimensional materials and nanomaterials for the state-of-the-art magnetic, electronic, optoelectronic, electrochemical and energy applications. We focus on probing the structure-property interplay of low-dimensional material systems at the atomic scale so as to fulfill atomic manipulation of quantum nanostructures by combining (scanning) transmission electron microscopy, spectroscopy, first-principles calculations and property assessment. Scientifically, special attention is given to a range of defects and interfaces in 2D materials and nanomaterials and how they mediate material property shift at the atomic scale, aiming at tackling fundamental material issues in a broad range of functional material systems. By atomistic design based on first-principles calculations, we aim to develop new functional material systems by a series of preparation methods, e.g. chemical vapor deposition (CVD), chemical vapor transport (CVT), molecular beam epitaxy (MBE), and apply them to fabricate advanced electronic, optoelectronic, and energy devices.

GROUP LEADER

Zhongchang Wang - 1

THE TEAM

Bin Wei
Research Fellow

Jingyi Wang
Research Fellow

Zhi Xie
Scientific Associate

QUANTUM-PTI_Social mediaApply with us for a Quantum position as PhD student and Join our Team!

if you are interested on this Call please contact by email to Dr. Zhongchang Wang.

Research Area: Quantum Materials for Quantum Science & Technology

KNOW MORE >>

RESEARCH

DEPARTMENTS
quantum tab menu
RESEARCH GROUPS
solarcells
quantum-energy tab menu
2DMATERIALS
Atomicmanipulation
quantum electrodynamics 2D BTN menu
theoryquantum
quantum-linear tab menu