Inventor
CHAUDHARI PRAVEEN
US48 patents
⚠️ This page may combine multiple inventors who share the name “CHAUDHARI PRAVEEN”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
IBM
40 patentsUS6665033B2Dec 16, 2003
Method for forming alignment layer by ion beam surface modification
IBM63 citations96
US5563583AOct 8, 1996
Multibit magnetic radio frequency tag using micromechanics
IBM70 citations96
US5554974ASep 10, 1996
Encodable tag with radio frequency readout
IBM100 citations96
US6774463B1Aug 10, 2004
Superconductor gate semiconductor channel field effect transistor
IBM70 citations95
US6061114AMay 9, 2000
Alignment of liquid crystal layers
IBM71 citations95
US6020946AFeb 1, 2000
Dry processing for liquid-crystal displays using low energy ion bombardment
IBM83 citations95
US6632483B1Oct 14, 2003
Ion gun deposition and alignment for liquid-crystal applications
IBM71 citations94
US5770826AJun 23, 1998
Atomic beam alignment of liquid crystals
IBM91 citations94
US4046618ASep 6, 1977
Method for preparing large single crystal thin films
IBM83 citations93
US3965463AJun 22, 1976
Apparatus using amorphous magnetic compositions
IBM46 citations93
US6331381B1Dec 18, 2001
Method for making a liquid crystal alignment layer
IBM32 citations92
US6195146B1Feb 27, 2001
Tilted liquid crystal alignment produced by ion beam treatment on the alignment layer using a voltage less than 200v
IBM38 citations92
US6124914ASep 26, 2000
Method an apparatus for forming an alignment pattern on a surface using a particle beam useful for a liquid crystal
IBM47 citations92
US3949387AApr 6, 1976
Beam addressable film using amorphous magnetic material
IBM34 citations92
US7429552B2Sep 30, 2008
System and method of transfer printing an organic semiconductor
IBM19 citations91
US6918982B2Jul 19, 2005
System and method of transfer printing an organic semiconductor
IBM16 citations91
US6724449B1Apr 20, 2004
Vertical aligned liquid crystal display and method using dry deposited alignment layer films
IBM31 citations91
US6346975B2Feb 12, 2002
Liquid crystal display having alignment layer using ion bombarded amorphous material 100Å thickness or less
IBM24 citations91
US4341942AJul 27, 1982
Method of bonding wires to passivated chip microcircuit conductors
IBM36 citations89
US7615776B2Nov 10, 2009
Method of self-assembling electronic circuitry and circuits formed thereby
IBM10 citations84
US6660341B2Dec 9, 2003
Tilted vertical alignment of liquid crystals employing inorganic thin film composition and ion beam treatment
IBM14 citations84
US6682786B1Jan 27, 2004
Liquid crystal display cell having liquid crystal molecules in vertical or substantially vertical alignment
IBM18 citations82
US4012756AMar 15, 1977
Method of inhibiting hillock formation in films and film thereby and multilayer structure therewith
IBM22 citations81
US6654089B2Nov 25, 2003
Maskless method and system for creating a dual-domain pattern on a diamond-like carbon alignment layer
IBM7 citations74
US7097884B2Aug 29, 2006
Stability of ion beam generated alignment layers by surface modification
IBM5 citations73
US6593586B2Jul 15, 2003
Method and apparatus for making a crystal alignment layer
IBM6 citations73
US5278140AJan 11, 1994
Method for forming grain boundary junction devices using high Tc superconductors
IBM13 citations71
US5162298ANov 10, 1992
Grain boundary junction devices using high tc superconductors
IBM15 citations71
US4714831ADec 22, 1987
Spherical retarding grid analyzer
IBM10 citations71
US5863869AJan 26, 1999
Thin film high Tc oxide superconductors and method for making the same
IBM10 citations69
US4293374AOct 6, 1981
High aspect ratio, high resolution mask fabrication
IBM9 citations68
US6954247B2Oct 11, 2005
Multi-domain low twist angle liquid crystal cells and methods of production thereof
IBM5 citations62
US5447906ASep 5, 1995
Thin film high TC oxide superconductors and vapor deposition methods for making the same
IBM3 citations62
US4515650AMay 7, 1985
Method for producing large grained semiconductor ribbons
IBM5 citations62
US7176484B2Feb 13, 2007
Use of an energy source to convert precursors into patterned semiconductors
IBM2 citations61
US6583847B2Jun 24, 2003
Self alignment of substrates by magnetic alignment
IBM6 citations61
US4264813AApr 28, 1981
High intensity ion source using ionic conductors
IBM4 citations61
US7316831B2Jan 8, 2008
Tilted vertical alignment of liquid crystals employing inorganic thin film composition and ion beam treatment
IBM1 citations52
US6731361B2May 4, 2004
High resolution in-plane switching mode TFT-LCD
IBM1 citations52
US4052709AOct 4, 1977
Accessing information in a lattice array by dislocation punching
IBM1 citations43
CHAUDHARI KARIN
8 patentsUS9054249B2Jun 9, 2015
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN19 citations92
US8491718B2Jul 23, 2013
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN29 citations92
US8916455B2Dec 23, 2014
Method of growing heteroepitaxial single crystal or large grained semiconductor films on glass substrates and devices thereon
CHAUDHARI KARIN2 citations62
US9722130B2Aug 1, 2017
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN1 citations52
US9059371B2Jun 16, 2015
Enhancing critical current density of cuprate superconductors
CHAUDHARI KARIN0 citations52
US10056519B2Aug 21, 2018
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN0 citations51
US10199529B2Feb 5, 2019
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN0 citations40
US10199518B2Feb 5, 2019
Methods of growing heteroepitaxial single crystal or large grained semiconductor films and devices thereon
CHAUDHARI KARIN0 citations40