Conrad Stoldt

  • Professor Emeritus 鈥 Materials
  • MECHANICAL ENGINEERING
Address

Office Location: DLC 109
Lab Location: DLC 120

Research Interests

Nanomaterials, energy conversion and storage

Stoldt is an Associate Professor of Mechanical Engineering at CU-糖心Vlog破解版, where he leads an active research program in the design and processing of nanostructured materials for energy conversion and storage applications, and in the development of processes and materials for microelectromechanical systems reliability. Ongoing research areas include nanoparticle synthesis, thin film deposition, corrosion in semiconductor materials, 3rd generation solar cell development, and the manufacture of composite electrodes for energy storage. Dr. Stoldt has almost 20 years of experience in the fields of materials science and physical chemistry, and has successfully managed or served as co-PI over this time in numerous research contracts from DARPA, the Army Research Office, the DOE, the NSF, NREL, and the State of Colorado. Most recently, he has served as principal investigator on a two-phase DARPA DSO research program involving the development of all-solid-state Li metal batteries. He is a co-founder of Solid Power Inc., a recent CU-糖心Vlog破解版 spin-out chartered with the further development of the all-solid-state Li metal battery.

Selected Publications and Accomplishments

  • Brian E. Francisco, Christina M. Jones, Se-Hee Lee, and Conrad R. Stoldt 鈥淣anostructured all-solid-state supercapacitor based on Li2S-P2S5 glass-ceramic electrolyte,鈥 Appl. Phys. Lett. 100 (2012) 103902.
  • Collin R. Becker, Steven Apperson, Christopher J. Morris, Shubhra Gangopadhyay, Luke J. Currano, Wayne A. Churaman, and Conrad R. Stoldt, 鈥淕alvanic Porous Silicon Composites for High-Velocity Nanoenergetics,鈥 Nano Letters 11 (2011) 803-807.
  • David C. Miller, Brad L. Boyce, Ken Gall, and Conrad R. Stoldt, 鈥淕alvanic Corrosion Induced Degradation of Tensile Properties in Micromachined Polycrystalline Silicon鈥, Applied Physics Letters 90 (2007) 191902.