The 2D Materials Technical Group will review the worldwide effort exploring 2D materials covering their synthesis, characterization, processing, properties, and applications. Papers are solicited in growth and fabrication; properties including electronic, magnetic, optical, and mechanical properties; characterization including microscopy and spectroscopy; surface chemistry, functionalization, bio and sensor applications; dopants, defects, and interfaces; nanostructures including heterostructures; device physics and applications; novel 2D materials; and novel quantum and symmetry-protected phenomena in 2D materials.
2D+AS+BI+HC+SS-FrM: 2D Materials: Biological, Electronic, Energy, and Other Applications
- Derrick Butler, Penn State University, “Printable Electrochemical Biosensors based on 2D and 3D Graphene”
- Keun Su Kim, Yonsei University, Republic of Korea, “Bandstructure Engineering in Two-Dimensional Semiconductors”
- Dmitry Kireev, The University of Texas at Austin, “Two-Dimensional Skintronics”
2D+AS+EM-ThA: 2D Materials: Electron Microscopy and Photoemission Spectroscopy
- Robert Hovden, 2300 Hayward St, “Periodic Lattice Displacements in Low Dimensional Materials”
2D+AS+NS+SS-ThM: 2D Materials: Scanning Probe Microscopy and Spectroscopy
- An-Ping Li, Oak Ridge National Laboratory, “Atomically Precise Graphene Nanoribbons for Quantum Electronics”
- Xiaomeng Liu, Princeton University, ” Visualize Emergent Electron Orders in Two-Dimensional Quantum Materials “
2D+AS+SS-MoA: 2D Materials: Defects, Dopants, Edges, Functionalization, and Intercalation
- Ralph Claessen, Physikalisches Institut and Würzburg-Dresden Cluster of Excellence ct.qmat, Universität Würzburg, Germany, “Orbital Engineering of Atomic Monolayers as Quantum Spin Hall Insulators”
- Sarah Haigh, University of Manchester, UK, “Atomic Imaging of Dynamic Behaviour at 2D Material Solid-Solid and Solid-Liquid Interfaces”
2D+EM-MoM: 2D Materials: Electronic, Mechanical, and Optical Properties
- Chih-Kang (Ken) Shih, Department of Physics, The University of Texas at Austin, “Scanning Tunneling Spectroscopy of 2d Electronic Materials – from Monolayers to Complex Heterostructures”
- Young-Woo Son, Korea Institute for Advanced Study, Republic of Korea, “Interplay between Electronic, Magnetic and Mechanical Properties in 2D Crystals”
2D+EM+MI-WeA: 2D Materials: Charge Density Waves, Magnetism, and Superconductivity
- Yi-Ting Hsu, University of Notre Dame, “Novel Materials for Quantum Computing Devices: Monolayer Topological Superconductors”
- Thomas Michely, Universität zu Köln, Germany, “Tunable Electronic Structure and Correlations in Quasi-Freestanding Monolayer Transition Metal Disulfides”
2D+EM+MI+NS+QS-WeM: 2D Materials: Quantum and Symmetry-Protected States
- Simranjeet Singh, Carnegie Mellon University, “Weyl Semimetals with Low-Symmetry Crystal Structure for Generating Out-of-Plane Oriented Spin Current”
- Francesca Tavazza, National Institute of Standard and Technology, “Semi-High Throughput Investigation of 2d Materials: Anomalous Quantum Confinement Effect and Spectral Properties”
- Suyang Xu, Harvard University, “Observation of the Layer Hall Effect in Topological Axion Antiferromagnet MnBi2Te4”
2D+MI-TuA: 2D Materials: Heterostructures, Twistronics, and Proximity Effects
- Ute Kaiser, University of Ulm, Germany, “Understanding Structural, Chemical, and Number of Layer-Dependent Properties in 2D Lateral and Vertical Structures for Subsequent Optical Measurements”
- Frances Ross, MIT, “Strategies for Controlling Structure and Magnetic Texture in 2D Magnets “
- Wei Ruan, Fudan University, China, “Imaging Quantum Spin Liquid Behavior in Single-layer 1T-TaSe2”
2D-ThP: 2D Materials: Poster Session