Gruen; Dieter M.

Patent Applications and Registrations

Patent applications and USPTO patent grants for Gruen; Dieter M..The latest application filed is for "high efficiency graphene/wide band-gap semiconductor heterojunction solar cells".

Company Profile

2.34.19

Gruen; Dieter M. - Downers Grove IL
Gruen; Dieter M. - Downer Grove IL

*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
High Efficiency Graphene/Wide Band-Gap Semiconductor Heterojunction Solar Cells App 20220190267 - Gruen; Dieter M.	2022-06-16
High efficiency graphene/wide band-gap semiconductor heterojunction solar cells Grant 11,296,291 - Gruen April 5, 2	2022-04-05
High Efficiency Graphene/Wide Band-Gap Semiconductor Heterojunction Solar Cells App 20210343962 - Gruen; Dieter M.	2021-11-04
High efficiency graphene/wide band-gap semiconductor heterojunction solar cells Grant 11,069,870 - Gruen July 20, 2	2021-07-20
High Efficiency Graphene/Wide Band-Gap Semiconductor Heterojunction Solar Cells App 20210005833 - Gruen; Dieter M.	2021-01-07
High Efficiency Graphene/Wide Band-Gap Semiconductor Heterojunction Solar Cells App 20200381645 - Gruen; Dieter M.	2020-12-03
High efficiency graphene/wide band-gap semiconductor heterojunction solar cells Grant 10,833,285 - Gruen November 10, 2	2020-11-10
Solar Cells Having Nanowire Titanium Oxide and/or Silicon Carbide Cores and Graphene Exteriors App 20170054044 - Gruen; Dieter M.	2017-02-23
Solar Cells Having Nanowire Titanium Oxide And/or Silicon Carbide Cores And Graphene Exteriors App 20150200316 - Gruen; Dieter M.	2015-07-16
Apparatus pertaining to solar cells having nanowire titanium oxide cores and graphene exteriors and the co-generation conversion of light into electricity using such solar cells Grant 9,040,395 - Gruen May 26, 2	2015-05-26
Apparatus pertaining to the co-generation conversion of light into electricity Grant 8,829,331 - Gruen September 9, 2	2014-09-09
Apparatus Pertaining to Solar Cells Having Nanowire Titanium Oxide Cores and Graphene Exteriors and the Co-Generation Conversion of Light into Electricity Using Such Solar Cells App 20140041711 - Gruen; Dieter M.	2014-02-13
Apparatus Pertaining to the Co-Generation Conversion of Light Into Electricity App 20140041704 - Gruen; Dieter M.	2014-02-13
Apparatus pertaining to a core of wide band-gap material having a graphene shell Grant 8,586,999 - Gruen November 19, 2	2013-11-19
Self-composite comprised of nanocrystalline diamond and a non-diamond component useful for thermoelectric applications Grant 8,257,494 - Gruen September 4, 2	2012-09-04
Self-Composite Comprised of Nanocrystalline Diamond and a Non-Diamond Component Useful for Thermoelectric Applications App 20110147669 - Gruen; Dieter M.	2011-06-23
Method and Apparatus Pertaining to Nanoensembles Having Integral Variable Potential Junctions App 20110005564 - Gruen; Dieter M.	2011-01-13
Method and article of manufacture corresponding to a composite comprised of ultra nonacrystalline diamond, metal, and other nanocarbons useful for thermoelectric and other applications Grant 7,718,000 - Gruen May 18, 2	2010-05-18
Self-composite comprised of nanocrystalline diamond and a non-diamond component useful for thermoelectric applications Grant 7,572,332 - Gruen August 11, 2	2009-08-11
Method to grow pure nanocrystalline diamond films at low temperatures and high deposition rates Grant 7,556,982 - Carlisle , et al. July 7, 2	2009-07-07
Apparatus, Methods, And Articles Of Manufacture Corresponding To A Self-composite Comprised Of Nanocrystalline Diamond And A Non-diamond Component And Corresponding To A Composite Comprised Of Nanocrystalline Diamond, Metal, And Other Nanocarbons That Is Useful For Thermoelectric And Other Applicati App 20090092824 - Gruen; Dieter M.	2009-04-09
High efficiency diamond solar cells Grant 7,368,658 - Gruen May 6, 2	2008-05-06
Method and Article of Manufacture Corresponding To a Composite Comprised of Ultra Nanocrystalline Diamond, Metal, and Other Nanocarbons Useful for Thermoelectric and Other Applications App 20070137684 - Gruen; Dieter M.	2007-06-21
An Apparatus, Method, and Article of Manufacture Corresponding to a Self-Composite Comprised of Nanocrystalline Diamond and a Non-Diamond Component that is Useful for Thermoelectric Applications App 20070082200 - Gruen; Dieter M.	2007-04-12
Synthesis of a self assembled hybrid of ultrananocrystalline diamond and carbon nanotubes App 20060222850 - Xiao; Xingcheng ; et al.	2006-10-05
Electrode and electron emission applications for n-type doped nanocrystalline materials App 20060131588 - Gruen; Dieter M. ; et al.	2006-06-22
Method to grow pure nanocrystalline diamond films at low temperatures and high deposition rates App 20050031785 - Carlisle, John A. ; et al.	2005-02-10
Patterning of nanocrystalline diamond films for diamond microstructures useful in MEMS and other devices Grant 6,811,612 - Gruen , et al. November 2, 2	2004-11-02
N-type droping of nanocrystalline diamond films with nitrogen and electrodes made therefrom Grant 6,793,849 - Gruen , et al. September 21, 2	2004-09-21
Patterning Of Nanocrystalline Diamond Films For Diamond Microstructures Useful In Mems And Other Devices App 20040129202 - Gruen, Dieter M. ; et al.	2004-07-08
Ultrananocrystalline diamond cantilever wide dynamic range acceleration/vibration/pressure sensor Grant 6,613,601 - Krauss , et al. September 2, 2	2003-09-02
Tailoring nanocrystalline diamond film properties Grant 6,592,839 - Gruen , et al. July 15, 2	2003-07-15
Tailoring Nanocrystalline Diamond Film Properties App 20020114756 - GRUEN, DIETER M. ; et al.	2002-08-22
Ultrananocrystalline diamond cantilever wide dynamic range acceleration/vibration/pressure sensor Grant 6,422,077 - Krauss , et al. July 23, 2	2002-07-23
Field Emission From Bias-grown Diamond Thin Films In A Microwave Plasma App 20020048638 - GRUEN, DIETER M. ; et al.	2002-04-25
Time-of-flight SIMS/MSRI reflectron mass analyzer and method Grant 6,008,491 - Smentkowski , et al. December 28, 1	1999-12-28
Smooth diamond films as low friction, long wear surfaces Grant 5,989,511 - Gruen , et al. November 23, 1	1999-11-23
Enhanced field emission from microtip structures Grant 5,886,459 - Auciello , et al. March 23, 1	1999-03-23
Method for the preparation of nanocrystalline diamond thin films Grant 5,772,760 - Gruen , et al. June 30, 1	1998-06-30
Conversion of fullerenes to diamonds Grant 5,462,776 - Gruen * October 31, 1	1995-10-31
Conversion of fullerenes to diamond Grant 5,370,855 - Gruen * December 6, 1	1994-12-06
Conversion of fullerenes to diamond Grant 5,328,676 - Gruen July 12, 1	1994-07-12
Conversion of fullerenes to diamond Grant 5,209,916 - Gruen May 11, 1	1993-05-11
Photo ion spectrometer Grant 4,889,987 - Gruen , et al. December 26, 1	1989-12-26
Unified first wall-blanket structure for plasma device applications Grant 4,698,198 - Gruen October 6, 1	1987-10-06
Excimer laser phototherapy for the dissolution of abnormal growth Grant 4,686,979 - Gruen , et al. August 18, 1	1987-08-18
High efficiency direct detection of ions from resonance ionization of sputtered atoms Grant 4,633,084 - Gruen , et al. December 30, 1	1986-12-30
First wall and limiter surfaces for plasma devices Grant 4,414,176 - Krauss , et al. November 8, 1	1983-11-08
Method of gettering hydrogen under conditions of low pressure Grant 4,397,834 - Mendelsohn , et al. August 9, 1	1983-08-09
Oxygen stabilized zirconium-vanadium-iron alloy Grant 4,360,445 - Mendelsohn , et al. November 23, 1	1982-11-23
Method for preparing porous metal hydride compacts Grant 4,292,265 - Ron , et al. September 29, 1	1981-09-29
Method and means of directing an ion beam onto an insulating surface for ion implantation or sputtering Grant 4,278,890 - Gruen , et al. July 14, 1	1981-07-14
System for thermal energy storage, space heating and cooling and power conversion Grant 4,262,739 - Gruen , et al. April 21, 1	1981-04-21

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.