Are we fully utilizing the quantum properties of materials? How can the spin and lattice properties intermingle to create something novel?
Saurabh Maiti
- Assistant Professor
- Department of Physics
- collective phenomena
- spintronics/magnonics
- unconventional superconductivity
- spin-orbit coupling
- condensed matter physics6
- quantum magnetism
- quantum field theory4
- many-body physics
- electronic correlations
- chiral spin waves
- graphene2
- 2D materials
- high-Tc superconductors
- Chern-Simons gauge fields
- electronic structures studies2
- materials science42
- quantum mechanics4
- superconductors2
- nanoscience21
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Sushil Misra
condensed matter physics, electron paramagnetic resonance, single crystals
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Alexandre Champagne
condensed matter physics, nanoelectronics, graphene
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Gilles H. Peslherbe
nanoscience, quantum mechanics, computational chemistry
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Ingo Salzmann
organic semiconductors, surfaces and interfaces, materials science
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Pablo Bianucci
light-matter interactions, optical microresonators, light-emitting nanostructures
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Rafik Naccache
nanoscience, carbon quantum dots, plasmonic nanoparticles
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Nhat Truong Nguyen
photocatalysis, nanostructured catalysts, renewable energy
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Sixu Deng
clean energy, energy storage, batteries/supercapacitors
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Truong Vo-Van
light, optical properties of nanomaterials, functional thin films
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Christine DeWolf
surfaces and interfaces, biochemistry of cell membranes, lipid monolayers as model systems
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Jung Kwon (John) Oh
biomedical engineering, materials science, biomacromolecules
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Louis A. Cuccia
supramolecular chemistry, protein-protein interactions, bioinspired engineering
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John Capobianco
lanthanide-doped nanoparticles, magnetic nanoparticles, luminescence
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Xia Li
energy storage, materials science, nanoscience
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Mojtaba Kahrizi
nanosystems, quantum devices, MEMS/NEMS