Search Results - jose+kenneth+mapas

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Sub-5 nm Full Pitch Lamellar Microdomains by Chemical Transformation
PRODUCT OPPORTUNITIES Nanolithographic templates for nanoelectronics, storage media and separation media PRODUCT OPPORTUNITIES COMPETITIVE ADVANTAGES Smallest lamellar microdomains ever been achieved with block copolymers Simple process without the use of any additives for the solid state conversion of block copolymers from a...
Published: 8/10/2023   |   Inventor(s): Thomas Russell, Duk Man Yu, Javid Rzayev, Jose Kenneth Mapas
Keywords(s):  
Category(s): Material science, Nanotechnology, Physical Science
Sub-5 nm Pitch Lamellar Microdomains by Chemical Transformations
A method of fabricating microphase separated block copolymer thin films with ordered, sub-5 down to sub-3 nm full pitch lamellar microdomains. Background: Current photolithographic processes are generally unable to achieve size scale features in the single nanometer range, which is highly desirable for microelectronic and storage devices. While...
Published: 7/11/2024   |   Inventor(s): Javid Rzayev, Thomas Russell, Duk Man Yu, Jose Kenneth Mapas
Keywords(s): Technologies
Category(s): Technology Classifications > Materials and Chemicals, Campus > University at Buffalo
Lens with Electronically Controlled Optical Properties
Executive SummaryThis MSU-developed device allows for electrical control of the optical properties in a liquid lens and other optic devices. Capable of altering light’s focal point, this technology lends itself into many applications such as displays, microscopes, telescopes, interferometers, and many more. Description of TechnologyBy controlling...
Published: 8/20/2022   |   Inventor(s): Gary Blanchard, Greg Swain, Romana Jarosova, Ke Ma
Keywords(s):  
Category(s): Advanced Materials, Chemicals, Devices, Photonics
Efficient & Broadband Even-Order Harmonic Multiplication in Standard CMOS
A novel technique to realize highly-efficient passive multipliers in a standard CMOS process is demonstrated to efficiently generate even-order harmonics while simultaneously suppressing odd-order harmonics over broad-bandwidths. This is achieved by improving the cutoff frequency (fT) well beyond a THz. The higher fT combined with proposed nonlinearity...
Published: 4/26/2019   |   Inventor(s): Kenneth O, Zeshan Ahmad
Keywords(s): Devices, Electronics, Engineering & Physical Sciences, Imaging, Optics & Photonics, Semiconductor, MEMS & Nanotechnology, Signal Processing, Wireless
Category(s): Communications