1
Tapesh Yadav, Dmitri Routkevitch, Peter Mardilovich, Alex Govyadinov, Stephanie Hooker, Stephen S Williams: Semiconductor and device nanotechnology and methods for their manufacture. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson L, September 20, 2005: US06946197 (47 worldwide citation)

Device nanotechnology based on silicon wafers and other substrates is described. Methods for preparing such devices are discussed. The teachings allow integration of current semiconductor device, sensor device and other device fabrication methods with nanotechnology. Integration of nanotubes and nan ...


2
Dmitri Routkevitch, Peter Mardilovich, Alex Govyadinov, Stephanie Hooker, Stephen S Williams: Nanostructured ceramic platform for micromachined devices and device arrays. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, March 16, 2004: US06705152 (46 worldwide citation)

The present invention discloses a type of nanostructured ceramic platform for gas sensors and sensor arrays. These sensors comprise micromachined anodic aluminum oxide films, which contains extremely high density (e.g., 10


3
Tapesh Yadav, Dmitri Routkevitch, Peter Mardilovich, Alex Govyadinov, Stephanie Hooker, Stephen S Williams: Semiconductor and device nanotechnology and methods for their manufacture. Hogan & Hartson, August 19, 2004: US20040161949-A1

Device nanotechnology based on silicon wafers and other substrates is described. Methods for preparing such devices are discussed. The teachings allow integration of current semiconductor device, sensor device and other device fabrication methods with nanotechnology. Integration of nanotubes and nan ...


4
Dmitri Routkevitch, Peter Mardilovich, Alex Govyadinov, Stephanie Hooker, Stephen S Williams: Nanostructured ceramic platform for micromachined devices and device arrays. Stuart T Langley Esq, Hogan & Hartson, August 29, 2002: US20020118027-A1

The present invention discloses a type of nanostructured ceramic platform for gas sensors and sensor arrays. These sensors comprise micromachined anodic aluminum oxide films, which contains extremely high density (e.g., 1011 cm2) nanoscale pores. Sensing materials deposited inside this self-organize ...