1
Brent M Lok, Celeste A Messina, Robert L Patton, Richard T Gajek, Thomas R Cannan, Edith M Flanigen: Crystalline silicoaluminophosphates. Union Carbide Corporation, Richard G Miller, April 3, 1984: US04440871 (777 worldwide citation)

A novel class of crystalline microporous silicoaluminophosphates is synthesized by hydrothermal crystallization of silicoaluminophosphate gels containing a molecular structure-forming templating agent. The class comprises a number of distinct species, each with a unique crystal structure. The compos ...


2
Celeste A Messina, Brent M Lok, Edith M Flanigen: Crystalline ferroaluminophosphates. Union Carbide Corporation, Richard G Miller, November 19, 1985: US04554143 (83 worldwide citation)

Novel class of crystalline microporous ferroaluminophosphate compositions containing as lattice constituents in addition to AlO.sub.2 and PO.sub.2 structural units, ferric and/or ferrous iron in tetrahedral coordination with oxygen atoms. These compositions are prepared hydrothermally using organic ...


3
Brent M Lok, Celeste A Messina, Robert L Patton, Richard T Gajek, Thomas R Cannan, Edith M Flanigen: Hydrocarbon conversions using catalysts silicoaluminophosphates. UOP, Thomas K McBride, Richard G Miller, May 19, 1992: US05114563 (14 worldwide citation)

The catalytic conversion of hydrocarbon feedstocks is affected under effective conversion process conditions in the presence of silicoaluminophosphate-based catalyst compositions.


4
Brent M T Lok, Bonita K Marcus, Celeste A Messina, Stephen T Wilson, Edith M Flanigen: Molecular sieve compositions. UOP, Thomas K McBride, Eugene I Snyder, Frank S Molinaro, September 11, 1990: US04956165 (10 worldwide citation)

Crystalline molecular sieves having three-dimensional microporous framework structures of MO.sub.2.sup.n, AlO.sub.2, and PO.sub.2 tetrahedral oxide units are disclosed. These molecular sieves have an empirical chemical composition on an anhydrous basis expressed by the formula:


5
Brent M T Lok, Bonita K Marcus, Celeste A Messina, Edith M Flanigen: Iron-titanium-aluminum-phosphorus-oxide molecular sieve compositions. UOP, Thomas K McBride, Eugene I Snyder, Frank S Molinaro, April 17, 1990: US04917876 (7 worldwide citation)

Crystalline molecular sieves having three-dimensional microporous framework structures of FeO.sub.2, TiO.sub.2, AlO.sub.2, and PO.sub.2 tetrahedral oxide units are disclosed. These molecular sieves have an empirical chemical composition on an anhydrous basis expressed by the formula:


6
Celeste A Messina, Brent M Lok, Edith M Flanigen: Hydro-carbon conversion using ferroaluminophosphates. Union Carbide Corporation, Richard G Miller, May 17, 1988: US04744885 (5 worldwide citation)

Novel class of crystalline microporous ferroaluminophosphate compositions containing as lattice constituents in addition to AlO.sub.2 and PO.sub.2 structural units, ferric and/or ferrous iron in tetrahedral coordination with oxygen atoms. These compositions are prepared hydrothermally using organic ...


7
Brent M T Lok, Bonita K Marcus, Celeste A Messina, Stephen T Wilson, Edith M Flanigen: Molecular sieve compositions. UOP, Thomas K McBride, Eugene I Snyder, Frank S Molinaro, August 28, 1990: US04952384 (4 worldwide citation)

Crystalline molecular sieves having three-dimensional microporous framework structures of MO.sub.2.sup.n, AlO.sub.2, and PO.sub.2 tetrahedral oxide units are disclosed. These molecular sieves have an empirical chemical composition on an anhydrous basis expressed by the formula: