Imperial College London

DrJohannesLischner

Faculty of EngineeringDepartment of Materials

Senior Lecturer
 
 
 
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Contact

 

+44 (0)20 7594 9949j.lischner

 
 
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Location

 

342Bessemer BuildingSouth Kensington Campus

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Summary

 

Summary

Johannes is a Lecturer in the Department of Materials and a Royal Society University Research Fellow in the Department of Materials and the Department of Physics at Imperial College London. He is also the Assistant Director of the Centre for Doctoral Training in Theory and Simulation of Materials at Imperial College.

He obtained a Ph.D. in physics from Cornell University in 2010 working in the group of Prof. Tomas  Arias. From 2010 to 2014, he was a postdoctoral researcher at UC Berkeley and Lawrence Berkeley National Lab in the groups of Prof. Steven Louie and Prof. Marvin Cohen.

His research interest lies at the interface of theoretical condensed matter physics, chemistry, materials science and scientific computing. He studies the properties of matter using a variety of tools ranging from first principles many-body perturbation theory (GW/BSE method) and density-functional theory to classical force field methods and continuum theories. Currently, he is working on new materials for photovoltaics (for example, polymers), oxide-water interfaces for photoelectrochemistry, two-dimensional materials for electronics and energy storage (such as, graphene-based supercapacitors) and iron-based superconductors.

Personal Website

Publications

Journals

Lischner J, Kahk J, Lovelock K, et al., Frontier Orbitals and Quasiparticle Energy Levels in Ionic Liquids, Npj Computational Materials, ISSN:2057-3960

Stepanov P, Das I, Lu X, et al., 2020, Untying the insulating and superconducting orders in magic-angle graphene, Nature, Vol:583, ISSN:0028-0836, Pages:375-378

Goodwin Z, Vitale V, Liang X, et al., 2020, Hartree theory calculations of quasiparticle properties in twisted bilayer graphene, Physical Review B: Condensed Matter and Materials Physics, ISSN:1098-0121

Li L, Zhang J, Myeong G, et al., 2020, Gate-tunable reversible rashba-edelstein effect in a few-layer graphene/2H-TaS2 heterostructure at room temperature., Acs Nano, Vol:14, ISSN:1936-0851, Pages:5251-5259

Goodwin Z, Vitale V, Corsetti F, et al., 2020, Critical role of device geometry for the phase diagram of twisted bilayer graphene, Physical Review B: Condensed Matter and Materials Physics, Vol:101, ISSN:1098-0121, Pages:1-8

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