| | |
| RN2-12-07 | Method for reducing charging in the CD SEM | Melvin “Warren” Montgomery; Cecelia Montgomery (SEMATECH); Ben Bunday (SEMATECH) |
| RN2-11-16 | Carbon nanotube growth on silicon and silicon nanowire substrates via simultaneous delivery of carbon and catalyst via plasma enhanced atomic layer deposition (PEALD) | Jae Ho Lee; Issac Lund; Eric Eisenbraun; Robert Geer |
| S846-320 | Process for Etching, Depositing, and Treating Materials Using a Flowing Afterglow (FA) Plasma Technique | Corbett, James W.; Yencha, Andrew J. |
| S836-320 | Process for Making Improved Silicon-Germanium Alloys by Low-Temperature Metal-Organic Chemical Vapor Deposition | Kaloyeros, Alain E.; Corbett, James W.; Barbero, Christopher; Toscano, Paul J. |
| S742-320 | Improved Process for Producing Amorphous Silicon (a-Si) | Corbett, James W.; Kaloyeros, Alain E.; Toscano, Paul J. |
| S740-320 | Process for the Growth of an Overlayer of Crystalline or Polycrystalline Material | Corbett, James W.; Kaloyeros, Alain E. |
| RN2-09-16 | Method of creating Cs-free III-Nitride based Photocathodes | Shahedipour-Sandvik , Fatemeh; Tripathi, Neeraj |
| RN2-09-12 | Novel Nanoporous Cathodes for Oxygen Reduction Reaction in High Temperature Fuel Cells | Dalavoy, Tulika; Elter, John |
| RN2-09-11 | In-Situ Confined Plasma Channel Source for Enhanced Thin Films Uniformity | Stewart, Stephen L. |
| RN2-09-09 | Built-in CMP pad End-of-Life-Monitor | Borst, Christopher |
| RN2-09-08 | Bandgap Engineering in Mono-and Multi-layer Graphene via formation of Interface charges | Shahedipour-Sandvik, Fatemeh |
| RN2-09-01A | Spatial Tuneable Pressure Plates for bonding wafer to wafer/die to wafer applications | Altemus, Bruce |
| R2-02-03 | Real Time Processing Capillary Electrophoresis Method and Fabrication Using MEMS Technology | Dong ,Yan; Xu, Bai; Castracane, James |
| R99-09-320 | Silver Precursors for CVD Processes | Welch, John T.;Ngo, Silvana C.;Banger, Kulbinder K. |
| R99-08-320 | MOCVD Processes Using Precursors Based on Organometalloid Ligands | Welch, John T., Claessen, Rolf;Banger, Kulbinder K.;Kaloyeros, Alain E.;Toscano, Paul J.;Kornilov, Andrei |
| R99-07-320 | Chemical Source and Processes for Tungsten Nitride Deposition | Kaloyeros, Alain
Arkles, Barry
|
| R98-02-320.2 | MOCVD Precursors based on Organometalloid Ligands | Welch, John T. Claessen, Rolf Banger, Kulbinder K. Toscano, Paul J., Kornilov, Andrei |
| R98-02-320.1 | MOCVD Precursors based on Organometalloid Ligands | Welch, John T. Claessen, Rolf Banger, Kulbinder K. Toscano, Paul J., Kornilov, Andrei |
| R97-04-320 | Slicon Based Films Formed from Iodosilane Precursors and Method of Making the Same | Kaloyeros, Alain E., Arkles, Barry (Gelest), Chen, Xiaomeng, Endisch, Denis, Lin, Xian |
| R96-04-320.2 | Method for Chemical Vapor Deposition of Copper-Based Films and Copper Source Precursors for the Same | Kaloyeros, Alain E.; Eisenbraun, Eric T.; Zheng, Bo |
| R96-04-320.1 | Method for Chemical Vapor Deposition of Copper-Based Films and Copper Source Precursors for the Same | Kaloyeros, Alain;
Arkles, Barry
|
| R905-320 | A Universal Chemical Vapor Deposition Process for the Selective Growth of Metals | Kaloyeros, Alain E. |
| R904-320 | Process and apparatus for the use of solid precursor sources in liquid form for vapor deposition of materials | Kaloyeros, Alain E.; Eisenbraun, Eric T.; Zheng, Bo |
| R855-320 | A Temperature-Controlled Chemical Vapor Deposition (TC-CVD) Process for the Growth of High Temperature Superconductors | Kaloyeros, Alain E.; Feng, Aiguo |
| R743-320 | Metal-Organic Vapor Phase Epitaxy (Movpe) of High Temperature Superconductors | Kaloyeros, Alain E.; Corbett, James W. |
| R741-320 | Low-Temperature Metal-Organic Chemical Vapor Deposition (Ltmocvd) of Copper for Microelectronic Device Applications | Kaloyeros, Alain E.; Toscano, Paul J.; Corbett, James W. |
| R239-320 | Method for Introducing Hydrogen into Semiconductors | Corbett, James W. |
| R2-08-24 | Apparatus and methods for continuously growing carbon nanotubes and graphene sheets | Lee, Ji Ung |
| R2-08-21 | Multi-value resistive memory by utilizing metallic and ionic filaments in parrallel | Wang, Wei |
| R2-08-18 | Fluidic Devices for Cell Encapsulation and methods of Making Same of Biological applications | Bergkvist, Magnus; Cady ,Nathaniel; Gracias, Allison; Xie, Yubling |
| R2-08-14 | Porous Micro-Heater for Surface Dusruption and Controllled Sampling of Fluids | Gadre, Anand |
| R2-08-11 | Use of confined plasma as an Extreme Ultraviolet light source | Denbeaux, Gregory; Goodwin,Francis |
| R2-08-10 | Nano/Viral Sensor Conjugated Polymeric Non-Invasive Nanosensor for Viral Dectection | Gadre, Anand |
| R2-08-09 | Sticksensor Minimally invasive nanosensor for Continuous Monitoring of Bioanalysis | Gadre, Anand |
| R2-08-06 | Polymeric Micro-Cantilevers for Ultra-Low Volume Fluid and Living Cell Deposition | Cady, Nathaniel C. ;Bergkvist Magnus; Gracias, Allison |
| R2-08-03 | Environmental X-ray Photoelectron Spectroscopy | Theil, Bradley |
| R2-07-26 | Novel Fabrication Method for Producing 3D Periodic nanoporous structures | Tokranova, Natalya; Xu, Bai; Castracane, James |
| R2-06-15 | Direct Closed Loop Proportional-Integral- Derivaive (PID) Substraite Temperature Control for a Molecular Beam Epilaxy (MBE) Machine Via Input from a Band-Edge temperature measurement system | LaBella, Vincent; Awo-Affouda, Chaffra; Stollenwerk, Andrew |
| R2-05-23 | Oxidation liftoff technology for ultra thin active layer transfere and fabrication of silicon based laser diodes | Otkyabrsky, Serge; Yakimov, Michael |
| R2-05-08 | Ion beam deflector for FIB sample preparation | Lifshin, Eric ; Theil, Brad; Levine, Ernie |
| R2-05-06 | Hybrid solar cells based on nanostructured bulk semiconductors and organic materials | Tokranova, Natalya, Xu, Bai, Castracane, James, Levitsky, Igor, Euler, William |
| R2-05-03 | Above Room temperature Ferromagnetic Silicon | LaBella, Vincent Patrick; Bolduc, Martin ; Awo-Affouda, Chaffra; Huang, Mengbing |
| R2-04-02 | MEMS based self caibrating systems for chemical sensors | Carpenter, Michael A. |
| R2-03-10 | MEMS Structure with Anodically Bonded Silicon-on-Insulator Substrate | Xu, Bai, Tokranova, Natalya; Castracane James |
| R2-03-09 | Harsh compatable gate material for GaN or SiC Chemical sensor devices | Carpenter, Michael A. |
| R2-03-08 | Optical Methods and Systems for Detecting a Constituent in a Gas Containing Oxygen in Harsh Environments | Carpenter, Michael A. |
| R2-03-07 | Methods for forming palladium alloy thin films and optical hydrogen sensors employing palladium alloy thin films | Carpenter, Michael A.; Zhao, Zhouying |
| R2-02-07 | Oxidation Lift-off method | Oktyabrsky, Serge; Yakimov, Micahel |
| R2-02-04 | Substrate Engineering Technique for Low Dislocation Defect III-Nitride Wideband Gap Material (AllnGaN) Growth on Silicon Substrate | Shahedipour-Sandvik, Fatemeh; Wu, Di Kahn, Muhammad Jamil |
| R2-02-02 | Method for Enhancing the Resolution of SEM | Lifshin, Eric;Moore, Richard |
| RN2-09-04 | Novel Acid Amplifiers for Use in Photoresists | Brainard, Robert |