Prof. Mohseni's group (Bio-inspired Sensors and Optoelectronics) pushes III-V semiconductor photodetector technology toward thermodynamic and quantum limits of photon sensitivity. Key directions: (1) Nanoscale IR photodetectors: shrinking pixel dimensions below the diffraction limit using quantum confinement effects (InGaAs/InAlAs quantum well and dot structures) to improve sensitivity, bandwidth, and resolution simultaneously; (2) Superlattice photomultipliers — high-gain, low-noise avalanche photodetectors at room temperature approaching quantum-limited sensitivity for mid-wave and long-wave infrared detection; (3) Quantum sensing applications including squeezed-light-enhanced thermoreflectance imaging of electronic hotspots, and photon-counting receivers for quantum communications. Co-author on 275+ papers, 33+ US patents; NAI Fellow 2023; W.M. Keck Foundation Award, DARPA YFA, NSF CAREER. Fellow of SPIE and Optica. Also Professor of Physics and Astronomy.