The 2D Materials Technical Group organizes 7 oral sessions from Tuesday through Friday. A total of 15 renowned invited speakers in their fields will share recent progress in 2D-materials synthesis, properties, characterization, and applications. Tuesday’s morning and afternoon sessions focus on the synthesis and characterization of 2D materials and their heterostructures with a special focus on exploiting topological and quantum phenomena. Wednesday morning, we will explore modifications and new phenomena in 2D materials through doping, defects, and interfaces, while in the afternoon many body and quantum effects are forming the focus of the program. Atomic scale characterization using electron and scanning probe microscopy are on the program on Thursday morning, and Thursday afternoon, progress in the synthesis and characterization of novel topological and quantum phenomena in 2D materials are at the center. Finally, on Friday the potential for 2D materials in electronic device applications is being discussed.
2D-TuM: 2D-Materials: Heterostructures and Functionalization
- David Johnson, University of Oregon, “A Wafer Scale Approach to Synthesize Targeted Metastable Heterostructures”
- Peter Liljeroth, Aalto University, Finland, “Designer Quantum Matter in Van Der Waals Heterostructures”
- Nitin Samarth, Pennsylvania State University, “Hybrid Epitaxial Heterostructures for Topological Spintronics”
2D+TF-TuA: 2D-Materials: Synthesis
- Xiangfeng Duan, UCLA, “High-Order Van Der Waals Superlattices and Artificial Quantum Solid Beyond Mechanical Exfoliation and Restacking”
2D-WeM: 2D-Materials: Defects, Dopants, and Modifications
- Victor Brar, University of Wisconsin – Madison, “Imaging Carrier Motion in Graphene Using Scanning Tunneling Potentiometry”
- Xuedan Ma, Argonne National Laboratory, “Developing Quantum Photon Sources from 2D Semiconductor Materials”
2D-WeA: 2D-Materials: Electronic/Magnetic/Optical Properties
- SungWoo Nam, University of California, Irvine, USA, “Strain-Exciton Coupling in Two-dimensional Semiconductors”
- Stuart Parkin, Max Planck Institute for Microstructure Physics, Germany, “Josephson Diode Effect via Proximity Induced Superconductivity in 2D Materials”
- Eli Rotenberg, Lawrence Berkeley Lab, USA, “2D Materials Explored Using nanoARPES”
2D-ThM: 2D-Materials: Microscopy
- Miaofang Chi, Oak Ridge National Laboratory, “Phase Transformations in 2D Van der Waals Materials: Insights from Cryogenic Atomic Resolution STEM and EELS”
- Jani Kotakoski, University of Vienna, Austria, “In and Ex Situ (S)TEM Manipulation of 2D Materials”
2D-ThA: 2D-Materials: Topological and Quantum Properties
- David Cobden, University of Washington, “2D Transition Metal Chalcogenide Semimetals”
- Tongcang Li, Purdue University, “Quantum Sensing with Spin Qubits in Hexagonal Boron Nitride”
2D+EM-FrM: 2D-Materials: Device Application
- Saptarshi Das, N-333 Millennium Science Complex, “Stochastic Computing Enabled by 2D Memtransistors”
- Mario Lanza, King Abdullah University of Science and Technology, Saudi Arabia, “Hybrid 2D/CMOS Circuits for Data Storage and Computation”
- Eric Pop, Stanford University, “What Are 2D Materials Good for?”
2D-ThP: 2D-Materials: Poster Session