P

Inventor

PINNAVAIA THOMAS J

US85 patents
⚠️ This page may combine multiple inventors who share the name “PINNAVAIA THOMAS J”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.

UNIV MICHIGAN STATE

41 patents
US6027706AFeb 22, 2000

Porous aluminum oxide materials prepared by non-ionic surfactant assembly route

UNIV MICHIGAN STATE129 citations98
US6465387B1Oct 15, 2002

Combined porous organic and inorganic oxide materials prepared by non-ionic surfactant templating route

UNIV MICHIGAN STATE95 citations97
US5795559AAug 18, 1998

Porous inorganic oxide materials prepared by non-ionic surfactant templating route

UNIV MICHIGAN STATE143 citations97
US5622684AApr 22, 1997

Porous inorganic oxide materials prepared by non-ionic surfactant templating route

UNIV MICHIGAN STATE146 citations97
US5114898AMay 19, 1992

Layered double hydroxide sorbents for the removal of SOx from flue gas and other gas streams

UNIV MICHIGAN STATE144 citations97
US6869906B2Mar 22, 2005

Ultrastable porous aluminosilicate structures

UNIV MICHIGAN STATE41 citations96
US6706169B2Mar 16, 2004

Ultrastable hexagonal, cubic and wormhole aluminosilicate mesostructures

UNIV MICHIGAN STATE39 citations96
US6585952B1Jul 1, 2003

Ultrastable hexagonal, cubic and wormhole aluminosilicate mesostructures

UNIV MICHIGAN STATE52 citations96
US6413902B1Jul 2, 2002

Catalytic applications of mesoporous metallosilicate molecular sieves and methods for their preparation

UNIV MICHIGAN STATE48 citations96
US6410473B1Jun 25, 2002

Quasi crystalline inorganic oxide compositions prepared by neutral templating route

UNIV MICHIGAN STATE64 citations96
US6391278B1May 21, 2002

Catalytic applications of mesoporous metallosilicate molecular sieves and methods for their preparation

UNIV MICHIGAN STATE54 citations96
US6193943B1Feb 27, 2001

Catalytic applications of mesoporous metallosilicate molecular sieves and methods for their preparation

UNIV MICHIGAN STATE46 citations96
US6162414ADec 19, 2000

Quasi crystalline inorganic oxide compositions prepared by neutral templating route

UNIV MICHIGAN STATE44 citations96
US5855864AJan 5, 1999

Catalytic applications of mesoporous metallosilicate molecular sieves and methods for their preparation

UNIV MICHIGAN STATE66 citations96
US5840264ANov 24, 1998

Crystalline inorganic oxide compositions prepared by neutral templating route

UNIV MICHIGAN STATE66 citations96
US5801216ASep 1, 1998

Flexible resin-clay composite, method of preparation and use

UNIV MICHIGAN STATE48 citations96
US5800800ASep 1, 1998

Crystalline inorganic oxide compositions prepared by neutral templating route

UNIV MICHIGAN STATE82 citations96
US5785946AJul 28, 1998

Crystalline inorganic oxide compositions prepared by neutral templating route

UNIV MICHIGAN STATE65 citations96
US5760106AJun 2, 1998

Sealant method of epoxy resin-clay composites

UNIV MICHIGAN STATE79 citations96
US5712402AJan 27, 1998

Catalytic applications of mesoporous metallosilicate molecular sieves and methods for their preparation

UNIV MICHIGAN STATE71 citations96
US5672556ASep 30, 1997

Crystalline silicate compositions and method of preparation

UNIV MICHIGAN STATE97 citations96
US5520898AMay 28, 1996

Method for the preparation of highly reactive clay composites for the removal of sox from flue gas streams

UNIV MICHIGAN STATE91 citations96
US5358701AOct 25, 1994

Process of using layered double hydroxides as low temperature recyclable sorbents for the removal of SOx from flue gas and other gas streams

UNIV MICHIGAN STATE62 citations96
US5126300AJun 30, 1992

Clay composites for the removal of SOx from flue gas streams

UNIV MICHIGAN STATE83 citations96
US5114691AMay 19, 1992

Process using sorbents for the removal of SOx from flue gas

UNIV MICHIGAN STATE55 citations96
US5993769ANov 30, 1999

Homostructured mixed organic and inorganic cation exchanged tapered compositions

UNIV MICHIGAN STATE66 citations94
US5079203AJan 7, 1992

Polyoxometalate intercalated layered double hydroxides

UNIV MICHIGAN STATE125 citations94
US7132165B2Nov 7, 2006

Ultra-stable lamellar mesoporous silica compositions and process for the preparation thereof

UNIV MICHIGAN STATE26 citations93
US7067687B2Jun 27, 2006

Ultrastable organofunctional microporous to mesoporous silica compositions

UNIV MICHIGAN STATE38 citations93
US6946109B2Sep 20, 2005

Ultra-stable lamellar mesoporous silica compositions and process for the preparation thereof

UNIV MICHIGAN STATE25 citations93
US6843977B2Jan 18, 2005

Ultrastable porous aluminosilicate structures and compositions derived therefrom

UNIV MICHIGAN STATE50 citations93
US6713643B2Mar 30, 2004

Ultrastable organofunctional microporous to mesoporous silica compositions

UNIV MICHIGAN STATE33 citations93
US6261640B1Jul 17, 2001

Method for the preparation of homostructured mixed proton and organic layered silicates

UNIV MICHIGAN STATE35 citations93
US4981825AJan 1, 1991

Dried metal oxide and clay particle compositions and method for the preparation thereof

UNIV MICHIGAN STATE37 citations93
US6800266B2Oct 5, 2004

Process for the preparation of hybrid mesoporous molecular sieve silicas from amine surfactants

UNIV MICHIGAN STATE43 citations92
US6506485B1Jan 14, 2003

Silica foam compositions

UNIV MICHIGAN STATE17 citations92
US5785938AJul 28, 1998

Process using recyclable sorbents for the removal of sox from flue gases and other gas streams

UNIV MICHIGAN STATE50 citations92
US5334564AAug 2, 1994

Method for the preparation of highly reactive clay composites for the removal of SOx from flue gas streams

UNIV MICHIGAN STATE40 citations92
US5298473AMar 29, 1994

Hydrated lime clay composites for the removal of SOx from flue gas streams

UNIV MICHIGAN STATE32 citations92
US5116587AMay 26, 1992

Layered double hydroxide sorbents for the removal of sox from flue gas resulting from coal combustion

UNIV MICHIGAN STATE48 citations92
US4629712ADec 16, 1986

Delaminated clay materials

UNIV MICHIGAN STATE42 citations92

UNIV MICHIGAN

5 patents

CLAYTEC INC

3 patents

RESEARCH CORP

1 patent

Showing the top 50 of 85 patents by PatentIndex Score.