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: Physics Postdoc Appointment Term: 2-years Appointment Start Date: As soon as possible Group or Departmental Website: http://aaronsharpe.science (link is external) http://ggg.stanford.edu (link is external
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2D materials, including graphene, MXenes, TMDs, boron nitride–based materials, and carbon nanostructures, with demonstrated experience in electrocatalysis and catalytic materials for ammonia production
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quantum simulator. The goal is to construct a new experimental tool based on a graphene superlattice to not only measuring macroscopic observables, such as electrical resistivity and magnetization, but also
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might be the right one for you. The Mijakovic lab is offering a 24-month fixed term postdoctoral position to a motivated candidate with experience in linker chemistry and graphene functionalization, and
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of organic synthetic chemistry you will develop novel catalysts based on carbon surfaces (such as graphene and its derivatives) and investigate applications of these catalysts towards transformation of bio
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of severe heat dissipation in both electronic and optoelectronic devices. Among the plethora of 2D materials, graphene and h-BN are distinguished due to their high thermal conductivity and their mechanical
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. Direct access to dedicated synthesis and fabrication facilities (CVD, glove box) and to LEM's dense network of collaborations (legacy of the Graphene Flagship, GDR HOWDI) will be crucial to provide
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. The quantum photonic platforms used within the group includes rare-earth doped crystals, defects in wide band-gap materials such as SiC or diamond, two-dimensional materials ‘beyond graphene’, quantum dots in
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band superconductivity using twisted bilayer graphene (TBG) and engineered stacking faults in graphite as platforms. In the beginning, a large effort will be invested in understanding the superfluid
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, graphene-based structures, intrinsic, or artificially created defects in them, or [hetero]structures derived from them); perform, analyze, and interpret electronic-structure calculations using suitable