Learn more

INTERCAT INC

Overview
  • Total Patents
    117
  • GoodIP Patent Rank
    239,669
About

INTERCAT INC has a total of 117 patent applications. Its first patent ever was published in 1987. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and Australia. Its main competitors in its focus markets chemical engineering, basic materials chemistry and materials and metallurgy are SHENYANG SANJU KAITE CATALYST CO LTD, KANAZIREV VLADISLAV I and POROCEL INT LLC.

Patent filings per year

Chart showing INTERCAT INCs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Vierheilig Albert A 64
#2 Demmel Edward J 31
#3 Keener Bruce 12
#4 Diddams Paul 7
#5 Evans Martin 6
#6 Mo Xunhua 6
#7 Magnabosco Louis M 5
#8 Vierheilig Albert 5
#9 Reagan William J 4
#10 Verrenkamp Darren 4

Latest patents

Publication Filing date Title
WO2013126670A1 Process of removing nox from flue gas
AU2011202519A1 Additives for metal contaminant removal
CN102165044A Composition and methods for preferentially increasing yields of one or more selected hydrocarbon products
CA2667995A1 Sulfur oxide removing additives and methods for partial oxidation conditions
TW200604332A Mixed metal oxide additives
CA2548500A1 Mixed metal oxide sorbents
AU2004316294A1 Gasoline sulfur reduction using hydrotalcite like compounds
US7431825B2 Gasoline sulfur reduction using hydrotalcite like compounds
TW200404024A Flue gas treatments to reduce NOx and CO emissions
US6508930B1 Method for stabilizing operation of fluid catalytic converter units
AU7363596A Bottoms cracking catalysts
US5503814A Processes for using bastnaesite/metal oxide compounds
US5545604A Processes for reacting bastnaesite with alkaline-earth metals
WO9420211A1 Production of attrition-resistant catalyst binders through use of delaminated clay
US5422332A Processes for reacting bastnaesite with metal oxides
WO9324222A1 Method for producing attrition-resistant catalyst binders
US5108979A Synthetic spinels and processes for making them
US4826793A Method of incorporating small crystalline catalytic ingredients into an attrition-resistant matrix