Home > News > Process Optimization Key to Innovation in Smart Material Technology
March 8th, 2005
Process Optimization Key to Innovation in Smart Material Technology
Abstract:
Researchers are now combining combinatorial chemistry methodologies with nanotechnology to develop novel smart materials with higher performance standards. "Nanotechnology brings with it the possibilities of designing, altering, and controlling material structure at nanoscale levels in order to enhance material performance and process efficacy," explains Nadkarny.
Nanotechnology is finding wide applications in varying products such as sensors and electronic devices, and promises to push smart materials technology into diverse industries.
Source:
businesswire
Bookmark:
Sensors
New Nanopore Sensor Simplifies Analysis of Methylated DNA May 20th, 2013
Advancements and developments of solid-state nanopores sensors May 16th, 2013
Imec and Renesas collaborate on ultra-low power short range radios: Collaboration will develop robust wireless solutions for future electronics May 16th, 2013
Physicists discover a new kind of friction: Friction in the nano-world May 16th, 2013
Materials
INSCX™ exchange announces substantial increase in capital designated to provide Trade Finance for registered Nanomaterial Producers May 21st, 2013
International survey supports need for built-in water protection on smartphones and tablets May 21st, 2013
Kinks and curves at the nanoscale: New research shows 'perfect twin boundaries' are not so perfect May 20th, 2013
Advancements and developments of solid-state nanopores sensors May 16th, 2013
Announcements
Whirlpools on the Nanoscale Could Multiply Magnetic Memory: At the Advanced Light Source, Berkeley Lab scientists join an international team to control spin orientation in magnetic nanodisks May 22nd, 2013
Bacterial spare parts filter antibiotic residue from groundwater May 22nd, 2013
UofL scientists uncover how grapefruits provide a secret weapon in medical drug delivery May 22nd, 2013
Atomic-Scale Investigations Solve Key Puzzle of LED Efficiency: MIT and Brookhaven Lab scientists use electron microscopy imaging techniques to settle a solid-state controversy and raise new experimental possibilities May 22nd, 2013