Expertise

He works in the area of nanotechnology with a focus on processing-structure-property characterization of two-dimensional materials and molecular precursor derived ceramics for energy-based devices. Singh's research on liquid phase exfoliation of 2-D crystals to generate atomically thin sheets of graphene oxide, tungsten and molybdenum disulfide for high capacity metal-ion batteries has appeared in top American Chemical Society and Nature journals.

Research in Dr. Singh’s lab at K-State is focused on two major areas:

  1. Synthesis and fundamental property characterization of precursor-derived ceramics based hybrid composites for high temperature applications (for example, absorber coatings for thermal calorimeters and low-cost pre-ceramic polymers for ceramic matrix composites) and
  2. Large-scale exfoliation of layered materials for energy storage devices (i.e., metal-ion battery electrodes based on conversion reactions). Singh’s lab has made important contributions in these areas that are reflected in the increased number of citations (>2900).

Research: Solid Mechanics and Machine Design

Past Affiliations
Communities
Nuclear Engineering, Mechanical Engineering
Degrees
PhD, University of Colorado at Boulder, Mechanical Engineering, 2007
MS, University of Colorado at Boulder, Mechanical Engineering, 2006
BS, Government College of Engineering, Pune, India, Mechanical Engineering, 2003
Keywords
mechanical engineering
Associations
American Ceramic Society
ASME