Zheng; Jian-Ping

Patent Applications and Registrations

Patent applications and USPTO patent grants for Zheng; Jian-Ping.The latest application filed is for "hybrid lithium-ion battery-capacitor (h-libc) energy storage devices".

Company Profile

8.22.21

Zheng; Jian-Ping - Tallahassee FL
Zheng; Jian-ping - Tallahasssee FL
Zheng, Jian-Ping - Eatontown NJ

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Hybrid Lithium-ion Battery-capacitor (h-libc) Energy Storage Devices App 20220277903 - Cao; Wanjun Ben ; et al.	2022-09-01
Lithium battery using lithium polysulfide as the cathode active material Grant 11,329,311 - Zheng , et al. May 10, 2	2022-05-10
Method of negative electrode pre-lithiation for lithium-ion capacitors Grant 11,211,205 - Cao , et al. December 28, 2	2021-12-28
Electrochemical energy storage device Grant 11,011,321 - Zheng , et al. May 18, 2	2021-05-18
Method Of Negative Electrode Pre-lithiation For Lithium-ion Capacitors App 20210118624 - Cao; Wanjun ; et al.	2021-04-22
Dry process method for producing electrodes for electrochemical devices and electrodes for electrochemical devices Grant 10,923,707 - Zheng , et al. February 16, 2	2021-02-16
Method For Making Ultralow Platinum Loading And High Durability Membrane Electrode Assembly For Polymer Electrolyte Membrane Fue App 20200106107 - Zheng; Jian-ping	2020-04-02
Hybrid Lithium-ion Battery-capacitor (h-libc) Energy Storage Devices App 20190318882 - Cao; Wanjun Ben ; et al.	2019-10-17
Lithium Battery Using Lithium Polysulfide As The Cathode Active Material App 20190229366 - Zheng; Jian-ping ; et al.	2019-07-25
Electrochemical energy storage device Grant 10,354,808 - Zheng , et al. July 16, 2	2019-07-16
Electrochemical Energy Storage Device App 20190139710 - ZHENG; Jian-ping ; et al.	2019-05-09
Apparatus for in-situ NMR spectroscopy of metal-air and metal-free air batteries Grant 10,126,366 - Zheng , et al. November 13, 2	2018-11-13
Dry Process Method For Producing Electrodes For Electrochemical Devices And Electrodes For Electrochemical Devices App 20180175366 - Zheng; Jian-ping ; et al.	2018-06-21
Metal-air flow batteries using oxygen enriched electrolyte Grant 9,991,545 - Zheng , et al. June 5, 2	2018-06-05
Metal-air Flow Batteries Using Oxygen Enriched Electrolyte App 20170301945 - Zheng; Jian-ping ; et al.	2017-10-19
Metal-air flow batteries using oxygen enriched electrolyte Grant 9,722,289 - Zheng , et al. August 1, 2	2017-08-01
Electrochemical Energy Storage Device App 20170062140 - ZHENG; Jian-ping ; et al.	2017-03-02
Apparatus For In-situ Nmr Spectroscopy Of Metal-air And Metal-free Air Batteries App 20160116540 - ZHENG; Jian-ping ; et al.	2016-04-28
High energy density electrochemical capacitors Grant 9,245,691 - Zheng January 26, 2	2016-01-26
High Energy Density Electrochemical Capacitors App 20160012979 - ZHENG; Jian-ping	2016-01-14
Bifunctional hollandite Ag.sub.2Mn.sub.8O.sub.16 catalyst for lithium-air batteries Grant 9,088,049 - Zheng , et al. July 21, 2	2015-07-21
High energy density electrochemical capacitors Grant 9,076,591 - Zheng July 7, 2	2015-07-07
Metal-air Flow Batteries Using Oxygen Enriched Electrolyte App 20150125763 - Zheng; Jian-ping ; et al.	2015-05-07
Catalytic electrode with gradient porosity and catalyst density for fuel cells Grant 8,703,355 - Zhang , et al. April 22, 2	2014-04-22
BIFUNCTIONAL HOLLANDITE Ag2Mn8O16 CATALYST FOR LITHIUM-AIR BATTIERIES App 20130216922 - Zheng; Jian-ping ; et al.	2013-08-22
Carbon nanotube and nanofiber film-based membrane electrode assemblies Grant 8,415,012 - Zheng , et al. April 9, 2	2013-04-09
High Energy Density Electrochemical Capacitors App 20130070391 - ZHENG; Jian-ping	2013-03-21
Catalytic Electrode With Gradient Porosity And Catalyst Density For Fuel Cells App 20110008705 - Zheng; Jian-Ping ; et al.	2011-01-13
System and methods for implementing a non-linear electrical circuit dynamic fuel cell model Grant 7,844,434 - Wang , et al. November 30, 2	2010-11-30
Carbon Nanotube And Nonofiber Film-based Membrane Electrode Assemblies App 20100143822 - Zheng; Jian-ping ; et al.	2010-06-10
System And Methods For Implementing A Non-linear Electrical Circuit Dynamic Fuel Cell Model App 20070288126 - Wang; Yang ; et al.	2007-12-13
Thermal desorption of oxide from surfaces App 20060276038 - Pun; Arthur F. ; et al.	2006-12-07
Proton inserted ruthenium oxide electrode material for electrochemical capacitors App 20010001194 - Jow, T. Richard ; et al.	2001-05-17
Electrode materials from hydrous metal and/or hydrous mixed metal oxides Grant 6,097,588 - Zheng , et al. August 1, 2	2000-08-01
Proton inserted ruthenium oxide electrode material for electrochemical capacitors Grant 5,875,092 - Jow , et al. February 23, 1	1999-02-23
Electrode materials from hydrous metal and/or hydrous mixed metal oxides and method of preparing the same Grant 5,851,506 - Zheng , et al. December 22, 1	1998-12-22
Capacitor having an enhanced dielectric breakdown strength Grant 5,636,100 - Zheng , et al. June 3, 1	1997-06-03
Amorphous thin film electrode materials from hydrous metal oxides Grant 5,600,535 - Jow , et al. February 4, 1	1997-02-04

uspto.report is an independent third-party trademark research tool that is not affiliated, endorsed, or sponsored by the United States Patent and Trademark Office (USPTO) or any other governmental organization. The information provided by uspto.report is based on publicly available data at the time of writing and is intended for informational purposes only.

While we strive to provide accurate and up-to-date information, we do not guarantee the accuracy, completeness, reliability, or suitability of the information displayed on this site. The use of this site is at your own risk. Any reliance you place on such information is therefore strictly at your own risk.

All official trademark data, including owner information, should be verified by visiting the official USPTO website at www.uspto.gov. This site is not intended to replace professional legal advice and should not be used as a substitute for consulting with a legal professional who is knowledgeable about trademark law.