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Quantum@Harvard Seminar: Synthesis and Characterization of 2D Quantum Materials
Prof. Jing Kong, MIT
March 10th, 2023 12pm-1pm
Maxwell Dworkin 119
[+MORE]Quantum@Harvard seminar: Engineered quantum materials using van der Waals atomic layer heterostructures
February 24, 2023
12pm – 1pm
Maxwell Dworkin 119
Abstract: Over the last 50 years, two-dimensional (2D) electron systems have served as a key material platform for the investigation of fascinating quantum phenomena in engineered material systems. Recently, scientists have found that it is feasible to produce van der Waals (vdW) layered materials that are atomically thin. In these atomically thin materials, quantum physics enables electrons to move effectively only in a 2D space. Additionally, by stacking these 2D quantum materials, it is also possible to create atomically thin vdW heterostructures with an extensive range of interfacial electronic and optical properties. Novel 2D electronic systems realized in vdW atomic stacks have served as an engineered quantum material platform. In this presentation, we will discuss several research initiatives aimed at realizing emergent physical phenomena in stacked vdW interfaces between 2D materials.
About Speaker: Philip Kim is Professor of Physics and Professor Applied Physics at Harvard University. Professor Kim is a world leading scientist in the area of materials research. His research area is experimental condensed matter physics with an emphasis on physical properties and applications of nanoscale low-dimensional materials. The focus of Prof. Kim’s group research is the mesoscopic investigation of transport phenomena, particularly, electric, thermal and thermoelectrical properties of low dimensional nanoscale materials.
[+MORE]Recent Publications
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High-Temperature Thermal Magneto-Conductivity in Graphene Corbino
APS March Meeting 2023, Abstract: Y20.00007
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Visualization of bulk and edge photocurrent flow in anisotropic Weyl semimetals
https://www.nature.com/articles/s41567-022-01898-0
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Empowering metasurfaces with inverse design: principles and applications
12
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Inverse design enables large-scale high-performance meta-optics reshaping virtual reality
32
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Raspberry Colloid Templated Catalysts Fabricated Using Spray Drying Method
Catalysts 2023, 13, 60
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Reducing the β-Ga2O3 Epitaxy Temperature to 240 °C via Atomic Layer Plasma Processing
ACS Appl. Electron. Mater. 2023, 5, 1, 335–343
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(Abstract) ANOVA Investigation of Neural Network Aided Spurious Modes Reduction in Lithium Niobate MEMS Resonators
N/A
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Rapid post-eruptive maturation of porcine enamel
Frontiers in Vol 14.
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Fluorinated zwitterionic polymers as dynamic surface coatings
Polym. Chem., 2023,14, 32-36
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Tunable Mid-Infrared Interband Emission from Tensile-Strained InGaAs Quantum Dots
ACS Nano 2023, XXXX, XXX, XXX-XXX Publication Date:January 17, 2023 https://doi.org/10.1021/acsnano.2c08985

EXECUTIVE DIRECTOR
Directors Welcome
The Center for Nanoscale Systems (CNS) at Harvard University was created with a very clear vision: To provide a collaborative multi-disciplinary research environment to support of the creation and evolution of world-class nanoscience and technical expertise, for the Harvard research community as well as the larger community of external researchers both from academia and industry.
Our Core Values:
Facilitating leading-edge, multi-disciplinary, research a
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