Aerosol deposition (AD) is a revolutionary way of producing thick ceramic films using
a kinetic particle spray. The deposition takes place at room temperature, occurs
at a very rapid rate compared to other techniques, and can be done on virtually any
substrate material. The resultant ceramic coating is nano-crystalline and is fully
dense. Tremendous potential exists for sensing, catalytic, energy and tribology
related applications. Fuierer鈥檚 group is leading this technology in the United States,
while his German colleagues at the University of Bayreuth are leaders in Europe.
Together, they have designed new gas sensors and sensing materials. Fuierer鈥檚 group
is now focused on depositing functional ceramics of various type (e.g. Al2O3, TiO2, NiO, LiCoO3, MoS2, Si) and exploring additional application areas for these unique films. Also of
interest is the multi-scale surface roughness and intrinsic stress state of the coatings.
Recent Publications
J. Adamczyk, P. Fuierer, Compressive Stress in Nano-crystalline Titania Films Deposited by Aerosol Deposition, Surfaces and Coating Technology (to be submitted).
P. Fuierer, M. Hinton, Aerosol method for coating the inside of tubing with a dense, nanocrystalline ceramic
coating, Provisional Patent, WSGR Docket No. 47481-709.101, Nov. 2017, (patent pending).
J. Exner, M. Schubert, D. Hanft, T. Stoecker, P. Fuierer, R. Moos, Tuning of the electrical conductivity of Sr(Ti,Fe)O3 oxygen sensing films by aerosol co-deposition with Al2O3, Sensors and Actuators B: Chemical 230 427-433 (2016).
Recent Presentations
P. Fuierer, Aerosol Deposition: Mechanical sintering of ceramics, one particle at a time, International
Conference on SINTERING, San Diego, CA (Nov. 2017).
Ostlind, R. Calvo, P. Fuierer, Deposition of Thick Film Ceramics by Vacuum Kinetic Spray, 29th Rio Grande Symposium
on Advanced Materials (RGSAM) 2017, Albuquerque, NM (Oct. 2017).
J. Adamczyk, M. Hinton, R. Calvo, P. Fuierer, Intrinsic Stress in Aerosol Deposited TiO2 Films Measured by Substrate Bending,
44th International Conference on Metallurgical Coatings and Thin Films (ICMCTF), San
Diego, CA (April, 2017).
P. Fuierer, Aerosol Deposition: A top down approach to nano-ceramic thick films, NMT GSA Nanotechnology
Symposium, NMT, (March 29, 2017).
Paul Fuierer (invited), Unique Thick Film Ceramic Microstructures Achievable by Aerosol Deposition,
43rd International Conference on Metallurgical Coatings and Thin Films (ICMCTF), San
Diego, CA (April, 2016).
Joerg Exner, M. Shubert, T. Stoecker, D. Hanft, R. Moos, P. Fuierer, Tuning of the electrical conductivity of Sr(Ti,Fe)O3 oxygen sensing films by aerosol
co-deposition with Al2O3, 91st DKG Annual Conference & Symposium on High-Performanc
Ceramics, Freiberg, Germany (March 2016).
Jesse Adamczyk, P. Sarobol, A. Vackel, T. Homes, P. Fuierer, Aerosol Deposition as a Method of Room Temperature Thick-Film Deposition, 28th Rio
Grande Symposium on Advanced Materials (RGSAM) 2016, Albuquerque, NM (Oct. 2016).