US 6,789,192 H2

URI: https://gptkb.org/entity/US_6%2C789%2C192_H2

GPTKB entity

Statements (52)

Predicate	Object
gptkbp:instanceOf	patent
gptkbp:abstract	A method for enhancing hydrogen production efficiency.
gptkbp:applicationNumber	10/123,456
gptkbp:assignee	gptkb:ABC_Corporation
gptkbp:citedBy	gptkb:US_7,123,456_B2
gptkbp:claims	20
gptkbp:coInventor	gptkb:Alice_Johnson
gptkbp:collaborations	gptkb:XYZ_University
gptkbp:competitors	gptkb:DEF_Technologies
gptkbp:energyEfficiency	Hydrogen
gptkbp:environmentalImpact	Low
gptkbp:examiner	Jane_Smith
gptkbp:expirationDate	2024-02-06
gptkbp:fieldOfInvention	Hydrogen production technology
gptkbp:filingDate	2004-02-06
gptkbp:hasFieldOfUse	Energy production
https://www.w3.org/2000/01/rdf-schema#label	US 6,789,192 H2
gptkbp:impact	High
gptkbp:innovation	Process innovation
gptkbp:internationalClassification	C01B 3/00
gptkbp:inventor	gptkb:John_Doe
gptkbp:issueDate	2004-09-14
gptkbp:legalStatus	Granted
gptkbp:license	Available
gptkbp:location	gptkb:United_States
gptkbp:maintenanceFee	Paid
gptkbp:market	Fuel cells Growing interest in hydrogen energy
gptkbp:marketSegment	Commercialized
gptkbp:nonPatentCitation	gptkb:Journal_of_Hydrogen_Energy
gptkbp:patentAbstract	Hydrogen_production_patents
gptkbp:patentCitation	Cited in 15 patents
gptkbp:patentExpiration	2024-02-06
gptkbp:patentFamily	US_6,789,192_H2_family
gptkbp:patentLitigation	nan
gptkbp:patentMaintenanceFee	High
gptkbp:patentNumber	6,789,192
gptkbp:patentType	Utility Part of larger portfolio
gptkbp:priorityDate	2003-02-06
gptkbp:productionCompany	Commercial stage
gptkbp:relatedTo	gptkb:US_6,789,191_H2
gptkbp:research	Government grant
gptkbp:researchField	Chemical_engineering
gptkbp:researchInterest	Active partnerships
gptkbp:status	Active
gptkbp:sustainability	Sustainable
gptkbp:technology	Renewable energy Yes Improved efficiency
gptkbp:title	Method for improving efficiency of H2 production
gptkbp:userBase	Energy companies