Inventor
TAKEUCHI ICHIRO
JP25 patents
⚠️ This page may combine multiple inventors who share the name “TAKEUCHI ICHIRO”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
UNIV MARYLAND
7 patentsUS10018385B2Jul 10, 2018
Solid-state heating or cooling systems, devices, and methods
UNIV MARYLAND46 citations94
US7345475B2Mar 18, 2008
Ultrasensitive magnetoelectric thin film magnetometer and method of fabrication
UNIV MARYLAND18 citations79
US10823465B2Nov 3, 2020
Solid-state heating or cooling systems, devices, and methods
UNIV MARYLAND4 citations70
US11808492B2Nov 7, 2023
Systems and methods for cooling using a composite elastocaloric device
UNIV MARYLAND0 citations55
US10808159B2Oct 20, 2020
Thermoelastic cooling
UNIV MARYLAND0 citations49
US7309644B2Dec 18, 2007
System and method of fabrication and application of thin-films with continuously graded or discrete physical property parameters to functionally broadband monolithic microelectronic optoelectronic/sensor/actuator device arrays
UNIV MARYLAND1 citations45
US7084445B2Aug 1, 2006
High-throughput thin-film fabrication vacuum flange
UNIV MARYLAND1 citations44
UNI CHARM CORP
5 patentsUS6248444B1Jun 19, 2001
Water-retentive cellulose fiber, method of manufacturing the same, and water-retentive sheet comprising cellulose fiber of high water retentivity
UNI CHARM CORP7 citations73
US5998025ADec 7, 1999
Water-retentive cellulose fiber, method of manufacturing the same, and water-retentive sheet comprising cellulose fiber of high water retentivity
UNI CHARM CORP7 citations73
US6436325B1Aug 20, 2002
Process of making cellulose based fiber
UNI CHARM CORP1 citations62
US6221474B1Apr 24, 2001
Water-retentive sheet manufactured from a cellulose fiber of high water retentivity
UNI CHARM CORP0 citations52
US6187436B1Feb 13, 2001
Water-retentive sheet manufactured from a cellulose based fiber of high water retentivity
UNI CHARM CORP0 citations52
TOPY IND
3 patentsUS ENERGY
2 patentsUS6146907ANov 14, 2000
Method of forming a dielectric thin film having low loss composition of Bax Sry Ca1-x-y TiO3 : Ba0.12-0.25 Sr0.35-0.47 Ca0.32-0.53 TiO3
US ENERGY42 citations95
US6285049B1Sep 4, 2001
Low loss composition of BaxSryCa1-x-yTiO3: Ba0.12-0.25Sr0.35-0.47Ca0.32-0.53TiO3
US ENERGY1 citations51