CBE colloquia - - Open-Air Spray-Plasma Manufacturing of Large-Area Perovskite Solar Cells and Modules
Open-air plasmas provide opportunities for versatile and low-cost materials synthesis and
film deposition on large and/or complex shapes in laboratory air and at low temperature. The
generally solvent-free process further allows for the simultaneous functionalization of, and deposition
on, substrates in a single step. Advances in the use of jet plasma process together with precursor spray
deposition have further expanded the utility of the deposition technique for a range of multi-functional
films.
In this talk I will describe our labs work to develop and demonstrate a scalable open-air plasma
process to rapidly deposit and form perovskite cells and modules in open air at fast linear deposition
rates. The process uses a combination of reactive species, UV and thermal energy to rapidly form the
perovskite film after air spraying, forming high quality perovskite films. I will further mention
solution combustion processing of conducting oxide layers, and an indirect laser scribing technique
we have developed to efficiently form serially interconnected perovskite cells to form modules.
Finally, I will describe technoeconomic modeling of module manufacturing costs and LCOE
estimates for pilot scale solar installations. I will discuss important aspects related to the stability of
perovskite cells and modules and implications for module lifetimes.
Reinhold H. Dauskardt is the Ruth G. and William K. Bowes Professor of the Department of
Materials Science and Engineering, the Department of Mechanical Engineering and the Department
of Surgery in the Stanford School of Medicine. He is a Visiting Professor in the School of Materials
Science at the Nanyang Technical University in Singapore.
He and his research group have worked extensively on integrating new hybrid materials into emerging
device, nanoscience, and energy technologies and also on the biomechanical function and barrier
properties of human skin and other soft tissues. He is an internationally recognized expert on spray
plasma processing of functional thin-films, and on the reliability and damage processes in device
technologies and soft tissues, specifically the biomechanics of human skin and regeneration processes
in cutaneous wounds. He has won numerous awards including the Henry Maso Award from the
Society of Cosmetic Chemists for fundamental contributions to skin science (2011), the IBM Shared
University Research Award (2011), the Semiconductor Industry Association University Researcher
Award (2010), an IBM Faculty Award (2006), the ASM International Silver Medal (2003), an
Alexander von Humboldt Research Award (2002), and the U.S. Department of Energy Outstanding
Scientific Accomplishment Award (1989).