ASU researchers are at the forefront of quantum molecular science, designing next-generation quantum materials and developing breakthrough spectroscopic techniques that push the boundaries of measurement precision. Our interdisciplinary teams span quantum sensing, molecular qubit architectures, quantum molecular theory, and next-gen materials. This cutting-edge research addresses the quantum challenges that will define the future of technology and materials discovery.
Faculty
Inorganic solid-state chemistry, non-conventional synthesis methods, (micro)structure of layered solids/2D materials, magnetism, catalysis
Quantum Information Chemistry, Electron spin, Microwave and Optical Spectroscopy, Electron Dynamics, Designer Qubits
Theoretical chemistry, nanoscience, electron transfer, molecular conductance, nanomagnetism, chirality
Nanoparticle synthesis and characterization. Energy and information transduction. Semiconductor assisted electron transfer. Spin effects in nanoarchitectures.
Experimental quantum biosensing; biophysics and protein sciences; diamond material; NMR; microscopy