Topic
- Computing and Processing
- Components, Circuits, Devices and Systems
- Communication, Networking and Broadcast Technologies
- Power, Energy and Industry Applications
- Signal Processing and Analysis
- Robotics and Control Systems
- General Topics for Engineers
- Fields, Waves and Electromagnetics
- Engineered Materials, Dielectrics and Plasmas
- Bioengineering
- Transportation
- Photonics and Electrooptics
- Engineering Profession
- Aerospace
- Geoscience
- Nuclear Engineering
- Career Development
- Emerging Technologies
- Telecommunications
- English for Technical Professionals
J. A. Carlisle
Also published under:John A. Carlisle, J. Carlisle, John Carlisle
Affiliation
Advanced diamond technologies, Inc., Romeoville, USA
Topic
Acoustic Velocity,Frequency Response,Piezoelectric Film,Resonance Frequency,Spurious Modes,Young’s Modulus,Aspect Ratio,Atomic Force Microscopy,Bottom Metal,Chemical Vapor Deposition,Coupling Coefficient,Electrode,Insertion Loss,Lateral Dimensions,Piezoelectric Layer,Quality Factor,Reactive Ion Etching,Scanning Electron Microscopy,Silicon Crystal,Sputtering,Tetramethylammonium Hydroxide,Tip Radius,Ultrananocrystalline Diamond,Acoustic Coupling,Alignment Marks,Alkaline Solution,Aluminum Nitride,Anisotropic Etching,Atomic Force Microscopy Cantilever,Atomic Force Microscopy Probe,Atomic Force Microscopy Tip,Buffered Oxide Etchant,Cantilever Tip,Changes In Topography,Chemical Vapor Deposition Technique,Color Shades,Convenient Way,Deposition Temperature,Design Guidelines,Device Length,Diamond Tip,Dry Etching,Electrical Loss,Electromechanical Coupling,Equivalent Circuit,Fabrication Process,Film Growth,Finite Element Analysis,Finite Element Model,Frequency Separation,
Biography
John A. Carlisle received the Ph.D. degree in physics from the University of Illinois, Urbana, IL, USA, in 1993.
In 2000–2006, he was a Staff Scientist with the Materials Science Division, Argonne National Laboratory, Lemont, IL, USA. He is currently the Chief Technical Officer of Advanced Diamond Technologies (ADT), Inc., Romeoville, IL, USA, which he cofounded in 2003. For the past 15 years, his interests have focused on the synthesis, properties, and application of nanostructured carbon materials in products ranging from low-friction wear-resistant coatings to biosensors, RF electronics, and other devices made using diamond-based microelectromechanical systems technology.
Dr. Carlisle is a member of the Materials Research Society and the American Physical Society. He is a four-time recipient of the R&D 100 Award. In 2006, he received an Excellence in Technology Transfer Award from the Federal Laboratory Consortium, and ADT, Inc. was recognized as a Technology Pioneer by the World Economic Forum in 2007.
In 2000–2006, he was a Staff Scientist with the Materials Science Division, Argonne National Laboratory, Lemont, IL, USA. He is currently the Chief Technical Officer of Advanced Diamond Technologies (ADT), Inc., Romeoville, IL, USA, which he cofounded in 2003. For the past 15 years, his interests have focused on the synthesis, properties, and application of nanostructured carbon materials in products ranging from low-friction wear-resistant coatings to biosensors, RF electronics, and other devices made using diamond-based microelectromechanical systems technology.
Dr. Carlisle is a member of the Materials Research Society and the American Physical Society. He is a four-time recipient of the R&D 100 Award. In 2006, he received an Excellence in Technology Transfer Award from the Federal Laboratory Consortium, and ADT, Inc. was recognized as a Technology Pioneer by the World Economic Forum in 2007.