Daniel A Ruddy, 43Boulder, CO

2021030, Oct 7, 2021

Mar 23, 2021

17/210076

- Golden CO, US
Anurag KUMAR - Golden CO, US
Kurt Michael VAN ALLSBURG - Denver CO, US
Daniel RUDDY - Arvada CO, US
Susan E. HABAS - Arvada CO, US
Andrew ROYAPPA - Cantonment FL, US
Brittney E. PETEL - Lakewood CO, US
Claire Townsend NIMLOS - Lakewood CO, US

C01B 32/90
B01J 27/22
B01J 37/08

The present disclosure relates to a method for producing a metal carbide, where the method includes thermally treating a molecular precursor in an oxygen-free environment, such that the treating produces the metal carbide and the molecular precursor includeswhere M is the metal of the metal carbide, N* includes nitrogen or a nitrogen-containing functional group, and x is between zero and six, inclusively.

2021020, Jul 8, 2021

Nov 16, 2020

17/098785

- Golden CO, US
Daniel RUDDY - Arvada CO, US
Joshua A. SCHAIDLE - Arvada CO, US
Connor Patrick NASH - Lakewood CO, US

C10L 1/06
C10L 10/10
B01J 29/72

The present disclosure relates to a mixture that includes a first portion that includes at least one of a paraffin and/or a naphthene having between 5 carbons and 13 carbons, inclusively, at a first concentration between about 75 wt % and about 99 wt %, and a second portion that includes hydrocarbons having greater than 13 carbons at a second concentration of less than 0.05 wt %.

2018006, Mar 8, 2018

Nov 8, 2017

15/806842

- Golden CO, US
Chunmei BAN - Golden CO, US
Daniel RUDDY - Lafayette CO, US
Philip A. PARILLA - Lakewood CO, US

H01M 12/08
H01M 4/38
H01M 4/485
H01M 4/58
H01M 10/0568
H01M 10/054
H01M 4/136
H01M 10/0569
H01M 4/62
H01M 4/66

An aspect of the present invention is an electrical device, where the device includes a current collector and a porous active layer electrically connected to the current collector to form an electrode. The porous active layer includes MgBparticles, where x≧1, mixed with a conductive additive and a binder additive to form empty interstitial spaces between the MgBparticles, the conductive additive, and the binder additive. The MgBparticles include a plurality of boron sheets of boron atoms covalently bound together, with a plurality of magnesium atoms reversibly intercalated between the boron sheets and ionically bound to the boron atoms.

2017030, Oct 26, 2017

Jun 8, 2017

15/617026

- Golden CO, US
Daniel A. RUDDY - Lafayette CO, US
Joshua A. SCHAIDLE - Arvada CO, US
Mayank BEHL - Lakewood CO, US

C10G 3/00
B01J 29/70
B01J 29/76
C01B 3/02
C01B 3/22
C01B 3/34
C07C 41/01
C10G 3/00
C10G 50/00
C07C 29/151
C10L 1/04

This disclosure relates to catalysts and processes designed to convert DME and/or methanol and hydrogen (H) to desirable liquid fuels. These catalysts produce the fuels efficiently and with a high selectivity and yield, and reduce the formation of aromatic hydrocarbons by incorporating Hinto the products. This disclosure also describes process methods to further upgrade these fuels to higher molecular weight liquid fuel mixtures, which have physical properties comparable with current commercially used liquid fuels.

2017019, Jul 13, 2017

Mar 14, 2017

15/458397

- Golden CO, US
Jun WANG - Highlands Ranch CO, US
Daniel A. RUDDY - Arvada CO, US
Frederick Raymond Gabriel BADDOUR - Denver CO, US
Joshua SCHAIDLE - Arvada CO, US

B01J 27/19
B01J 35/02
B01J 27/185

The present disclosure relates to a method that includes heating a mixture that includes a metal phenylphosphine-containing precursor that includes at least one of Mo(PPh)(CO), Pd(PPh), Ru(PPh)Cl, Ru(PPh)(CO)Cl, Co(PPh)(CO)(NO), and/or Rh(PPh)(CO)Cl, a surfactant, and a solvent. The heating is to a target temperature to form a heated mixture containing a metal phosphide nanoparticle that includes at least one of MoP, RuP, CoP, RhP, and/or PdP, and the metal phosphide nanoparticle is not hollow.

2015035, Dec 10, 2015

Jun 5, 2015

14/731673

- Golden CO, US
Daniel A. RUDDY - Lafayette CO, US
Joshua A. SCHAIDLE - Arvada CO, US
Mayank BEHL - Lakewood CO, US

C10G 3/00
B01J 29/70
C01B 3/02
C10J 3/02
C10L 1/04
B01J 29/76
C07C 29/151

This disclosure relates to catalysts and processes designed to convert DME and/or methanol and hydrogen (H) to desirable liquid fuels. These catalysts produce the fuels efficiently and with a high selectivity and yield, and reduce the formation of aromatic hydrocarbons by incorporating Hinto the products. This disclosure also describes process methods to further upgrade these fuels to higher molecular weight liquid fuel mixtures, which have physical properties comparable with current commercially used liquid fuels.

2015029, Oct 15, 2015

Apr 13, 2015

14/685428

- Golden CO, US
Chunmei BAN - Golden CO, US
Daniel RUDDY - Lafayette CO, US
Philip A. PARILLA - Lakewood CO, US

H01M 12/08
H01M 4/136
H01M 4/58
H01M 4/62

An aspect of the present invention is an electrical device, where the device includes a current collector and a porous active layer electrically connected to the current collector to form an electrode. The porous active layer includes MgBparticles, where x≧1, mixed with a conductive additive and a binder additive to form empty interstitial spaces between the MgBparticles, the conductive additive, and the binder additive. The MgBparticles include a plurality of boron sheets of boron atoms covalently bound together, with a plurality of magnesium atoms reversibly intercalated between the boron sheets and ionically bound to the boron atoms.