Transport of Charge and Energy in Low-Dimensional Materials
This special issue of JCP focuses on fundamental phenomena associated with short-range and long-range movement of charge and energy within low-dimensional materials, including those quantum-confined in one, two, or three dimensions and assemblies thereof.
Topics covered include, but are not limited to:
- Spin transport in perovskite and lamellar semiconductors
- magnon transport in lamellar semiconductors
- skyrmion transport in metallic thin films and lamellar materials
- charge transport in assemblies of nanocrystals
- ionic transport
- the quantum Hall effect
- implementation of transport phenomena in new and emerging spin-electronics and quantum related technologies
- interfacial electronic processes, including in semiconductor and semiconductor/metal heterostructures and inorganic-organic complexes
- interfacial electronic processes in van der Waals heterojunctions
- mixed-dimensional heterojunctions and other dielectric interfaces
- imaging of charge/energy transport
- the role of electron-phono coupling in transport
Guest Editors
Efrat Lifshitz, Technion- Israel Institute of Technology
Oleg Prezhdo, University of Southern California Dornsife
Haiming Zhu, Zhejiang University
JCP Editors
David Reichman, Columbia University
Emily A. Weiss, Northwestern University
Xiaoyang Zhu, Columbia University
Tim Lian, Emory University
More information:
Please note that papers will be published as normal when they are ready in a regular issue of the journal and will populate on a virtual collection page within a few days of publication. Inclusion in the collection will not cause delay in publication.