John K Alford
Private Investigators at Zion St, Denver, CO
License number
Colorado 86
Issued Date
Jun 1, 2015
Renew Date
Jun 1, 2016
Expiration Date
May 31, 2017
Type
Licensed Private Investigator
Address
Address
2796 Zion St, Denver, CO 80011
Personal information
See more information about John K Alford at radaris.comName
Address
Phone
619 Augusta Dr, Louisville, CO 80027
568 S Alkire St, Lakewood, CO 80228
Professional information
Fullerene Contrast Agent For Magnetic Resonance Imaging And Spectroscopy
US Patent:
6355225, Mar 12, 2002
Filed:
Oct 5, 1999
Appl. No.:
09/412662
Inventors:
John M. Alford - Lakewood CO
Lon J. Wilson - Houston TX
Lon J. Wilson - Houston TX
Assignee:
Wm. Marsh Rice University TDA Research, Inc. - Houston TX
International Classification:
A61B 5055
US Classification:
424 93, 424 932, 424 936, 436173
Abstract:
A non-toxic contrast agent for enhancing contrast in in vivo magnetic resonance measurements, comprised of a water-soluble, stable paramagnetic fullerene that is free of paramagnetic metal species. A preferred contrast agent is a fullerol having at least one unpaired electron.
John Alford - Aurora, CO
Work:
R.A. Heales Global Intelligence
Private Investigator Outsource Investigations - Castle Rock, CO
Private Investigator Riviera Black Hawk Casino - Black Hawk, CO
Surveillance Investigator
Private Investigator Outsource Investigations - Castle Rock, CO
Private Investigator Riviera Black Hawk Casino - Black Hawk, CO
Surveillance Investigator
Education:
ITT Technical Institute - Aurora, CO
Associate of Applied Science in Electronics
Associate of Applied Science in Electronics
Isolation Of Small-Bandgap Fullerenes And Endohedral Metallofullerenes
US Patent:
6517799, Feb 11, 2003
Filed:
Feb 27, 2001
Appl. No.:
09/794271
Inventors:
Michael D. Diener - Denver CO
John Michael Alford - Lakewood CO
John Michael Alford - Lakewood CO
Assignee:
TDA Research, Inc. - Wheat Ridge CO
International Classification:
C01B 3102
US Classification:
423445B
Abstract:
A method for recovering small bandgap fullerenes, including metallofullerenes, from soot by passivating individual fullerenes and/or metallofullerenes to an anionic configuration. The addition of extra electrons to a metallofullerene or small bandgap fullerene breaks the interfullerene bonding in the solid material, and the resulting anions are soluble in organic electrochemical solvents. Once dissolved, the small bandgap fullerenes can be plated out or precipitated by returning them to a neutral state.
Fullerene Derivatives That Modulate Nitric Oxide Synthase And Clamodulin Activity
US Patent:
2003002, Feb 6, 2003
Filed:
May 15, 2002
Appl. No.:
10/147453
Inventors:
Stephen Wilson - Chatham NJ, US
Donald Wolff - Bridgewater NJ, US
David Schuster - Wilton CT, US
Christine Richardson - Hastings-on-Hudson NY, US
Alexandru Dragos Papoiu - Piscataway NJ, US
John Alford - Lakewood CO, US
Donald Wolff - Bridgewater NJ, US
David Schuster - Wilton CT, US
Christine Richardson - Hastings-on-Hudson NY, US
Alexandru Dragos Papoiu - Piscataway NJ, US
John Alford - Lakewood CO, US
International Classification:
A61K031/135, A61K031/05
US Classification:
514/656000, 514/732000
Abstract:
This invention provides novel fullerene derivatives, particularly fullerene derivatives that are water-soluble, that modulate the activity of nitric oxide synthase (NOS) and/or calmodulin. The invention provides methods for modulating NOS activity and particularly provides methods for inhibiting NOS activity, by contacting one or more fullerene derivatives of this invention with cells or tissue that exhibit NOS activity. In a specific embodiment, the invention provides water-soluble fullerene derivatives that are selective inhibitors of neuronal NOS or iNOS. Preferred water soluble fullerenes have substituents that contain one or more amine groups, amine cationic groups. More generally, water-soluble fullerenes of this invention contain one or more polar, one or more charged or more zwitterionic groups
Methods For Fullerene Recovery
US Patent:
7794682, Sep 14, 2010
Filed:
Feb 28, 2006
Appl. No.:
11/364808
Inventors:
Michael D. Diener - Boulder CO, US
James W. Raebiger - Golden CO, US
Robert D. Bolskar - Arvada CO, US
John M. Alford - Lakewood CO, US
James W. Raebiger - Golden CO, US
Robert D. Bolskar - Arvada CO, US
John M. Alford - Lakewood CO, US
Assignee:
TDA Research, Inc. - Wheat Ridge CO
International Classification:
C01B 31/02, C01B 31/00
US Classification:
423445B, 423461, 4234471, 4234475, 977845
Abstract:
A method of extracting fullerenes from a carbon matrix in which they are produced. The method is applicable to both fullerenes that exhibit greater than 0. 1 mg/ml solubility in toluene and to fullerenes that are essentially insoluble in toluene, i. e. , those exhibiting less than or equal to 0. 1 mg/ml solubility. The method disclosed herein extracts more of the soluble fullerenes from the carbon matrix than extraction conducted by solely contacting with solvent. A method is also provided for creating salts of the extracted fullerenes.
Isolation Of Small-Bandgap Fullerenes And Endohedral Metallofullerenes
US Patent:
6303016, Oct 16, 2001
Filed:
Apr 14, 1999
Appl. No.:
9/291895
Inventors:
Michael D. Diener - Denver CO
John Michael Alford - Lakewood CO
John Michael Alford - Lakewood CO
Assignee:
TDA Research, Inc. - Wheat Ridge CO
International Classification:
C01B 3102
US Classification:
205687
Abstract:
A method for recovering small bandgap fullerenes, including metallofullerenes, from soot by passivating individual fullerenes and/or metallofullerenes to an anionic configuration. Thc addition of extra electrons to a metallofullerene or small bandgap fullerene breaks the interfullerene bonding in the solid material, and the resulting anions are soluble in organic electrochemical solvents. Once dissolved, the small bandgap fullerenes can be plated out or precipitated by returning them to a neutral state.