Effect of UV irradiation on properties of hot pressed aluminum nitride

Kaplan, Jefferson Coker

08 1900

No description available.

Aluminum nitrate

Ultraviolet radiation

Codeposition of baron nitride plus aluminum nitride composites by chemical vapor deposition

Twait, Douglas J.

08 1900

No description available.

Boron nitride

Vapor-plating

Aluminum nitrate

Wideband characterization of aluminum nitride substrates and high power-high frequency thick film applications

Farzanehfard, Hosein

12 October 2005

Ceramic substrates play an important role in thick film hybrid microelectronic circuits. Existing substrates such as alumina and beryllia do not meet satisfactorily the desired requirements. The newly developed aluminum nitride (<i>AIN</i>) substrate shows a great deal of promise and potentially embraces the best qualities of alumina and beryllia. The objective of this dissertation is to study the electrical properties, thick film interaction, and environmental effects on <i>AIN</i> substrates, and also to examine the performance of this material for high power - high frequency hybrid thick film applications. In particular, wideband dielectric constant measurements of A1N and other ceramic substrates are performed, oxidization and humidity effects on surface properties of <i>AIN</i> are addressed, and short and long term aging effects on several circuit parameters are studied. To evaluate the performance of <i>AIN</i> in high power and high frequency applications, two circuits; an impulse generator and a power converter, are realized, tested and compared with those on alumina substrates. The thick film circuits realized on <i>AIN</i> perform considerably better than those on alumina. / Ph. D.

LD5655.V856 1992.F379

Aluminum nitrate

Thick films