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Meeting Materials Science & Technology 2020
Symposium Advances in Synthesis and Integration Methods for Enhanced Properties, and Applications in Emerging Nanomaterials
Presentation Title Van der Waals and Remote Epitaxy for Quantum Materials Research
Author(s) Jinkyoung Yoo
On-Site Speaker (Planned) Jinkyoung Yoo
Abstract Scope Growth of conventional semiconductors (3D materials) on atomically thin two-dimensional (2D) materials offers novel opportunities of recyclable device manufacturing, functionalities based on charge transfer and exciton transport, and understanding strain relaxation mechanism without structural defects. Van der Waals (vdW) and remote epitaxy techniques have been implemented to realize 3D growth on 2D. Though vdW and remote epitaxy methods have brought resonation in materials synthesis community, epitaxy strategy and full potentials of the techniques haven’t been fully understood due to their short history compared to century-long conventional epitaxy research. In the presentation several key aspects of nucleation of 3D materials on 2D materials, examples of hybrid architectures composed of 2D and 3D materials without interfacial defects, and tuning physical properties of 2D and 3D materials in the 2D/3D heterostructures prepared by van der Waals and remote epitaxy will be discussed.
Proceedings Inclusion? Undecided


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Integration of Synthesis and Computation to Investigate Two-dimensional Transition Metal Chalcogenides: Strain, Defect, and Moiré Engineering
Introduction to Research Capabilities at Center for Functional Nanomaterials, a DOE National User Facility
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Iontronic Devices for Energy Efficient Electronics and Neuromorphic Computing
Laser Processing of Soft Magnetic Amorphous and Nanocrystalline Alloys
Low-reflectivity Carbon Nanotube Coatings for Space Applications
Mixed-Dimensional Hetero-structures for Advanced Logic and Memory Devices
Multi-functional Surfaces
Nanoscale Oxide Layers for Halide Perovskite Solar Cells
Polymer Additives for Stable Hybrid Perovskite Solar Cells
Van der Waals and Remote Epitaxy for Quantum Materials Research

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