Fanglin Chen

US Patent:

8465797, Jun 18, 2013

Filed:

Jan 18, 2011

Appl. No.:

13/008081

Inventors:

Fanglin Chen - Irmo SC, US
Chenghao Yang - Columbia SC, US
Chao Jin - Columbia SC, US

Assignee:

University of South Carolina - Columbia SC

International Classification:

B05D 5/12
B05D 3/02
B05D 7/22

US Classification:

427115, 427230, 4273722

Abstract:

In accordance with the present disclosure, a method for fabricating a solid oxide fuel cell is described. The method includes forming an asymmetric porous ceramic tube by using a phase inversion process. The method further includes forming an asymmetric porous ceramic layer on a surface of the asymmetric porous ceramic tube by using a phase inversion process. The tube is co-sintered to form a structure having a first porous layer, a second porous layer, and a dense layer positioned therebetween.

US Patent:

20100143721, Jun 10, 2010

Filed:

Dec 9, 2009

Appl. No.:

12/634092

Inventors:

Fanglin Chen - Irmo SC, US
Qiang Liu - Columbia SC, US

Assignee:

UNIVERSITY OF SOUTH CAROLINA - Columbia SC

International Classification:

B32B 23/02
B32B 15/02
B29B 9/16

US Classification:

428407, 428403, 264 7, 977775, 977895

Abstract:

Methods are generally disclosed for synthesis of porous particles from a solution formed from a leaving agent, a surfactant, and a soluble metal salt in a solvent. The surfactant congregates to form a nanoparticle core such that the metal salt forms about the nanoparticle core to form a plurality of nanoparticles. The solution is heated such that the leaving agent forms gas bubbles in the solution, and the plurality of nanoparticles congregate about the gas bubbles to form a porous particle. The porous particles are also generally disclosed and can include a particle shell formed about a core to define an average diameter from about 0.5 μm to about 50 μm. The particle shell can be formed from a plurality of nanoparticles having an average diameter of from about 1 nm to about 50 nm and defined by a metal salt formed about a surfactant core.

US Patent:

20110081596, Apr 7, 2011

Filed:

Oct 6, 2010

Appl. No.:

12/898794

Inventors:

Fanglin Chen - Irmo SC, US
Fei Zhao - Columbia SC, US
Qiang Liu - Columbia SC, US

International Classification:

H01M 8/10
H01M 4/88

US Classification:

429483, 427115, 156 60

Abstract:

In certain embodiments of the present disclosure, a solid oxide fuel cell is described. The solid oxide fuel cell includes a hierarchically porous cathode support having an impregnated cobaltite cathode deposited thereon, an electrolyte, and an anode support. The anode support includes hydrocarbon oxidation catalyst deposited thereon, wherein the cathode support, electrolyte, and anode support are joined together and wherein the solid oxide fuel cell operates a temperature of 600 C. or less.

US Patent:

20110189582, Aug 4, 2011

Filed:

Feb 3, 2011

Appl. No.:

13/020356

Inventors:

Fanglin Chen - Irmo SC, US
Qiang Liu - Columbia SC, US

Assignee:

University of South Carolina - Columbia SC

International Classification:

H01M 8/12
H01M 4/90
B05D 5/12

US Classification:

429482, 429486, 427115

Abstract:

In accordance with the present disclosure, a method for fabricating a symmetrical solid oxide fuel cell is described. The method includes synthesizing a composition comprising perovskite and applying the composition on an electrolyte support to form both an anode and a cathode.

US Patent:

20120094218, Apr 19, 2012

Filed:

Oct 12, 2011

Appl. No.:

13/271559

Inventors:

Guoliang Xiao - Columbia SC, US
Fanglin Chen - Irmo SC, US

International Classification:

H01M 4/86
H01M 4/88

US Classification:

429532, 427115

Abstract:

In accordance with certain embodiments of the present disclosure, a method for fabricating a solid oxide fuel cell is described. The method includes synthesizing a composition having a perovskite present therein. The method further includes applying the composition on an electrolyte support to form an anode and applying Ni to the composition on the anode.

US Patent:

20130045437, Feb 21, 2013

Filed:

Aug 20, 2012

Appl. No.:

13/589721

Inventors:

Fanglin Chen - Irmo SC, US
Chenghao Yang - Columbia SC, US
Zhibin Yang - Columbia SC, US

International Classification:

H01M 4/86
H01M 4/88
H01M 4/90

US Classification:

429527, 429532, 427115

Abstract:

In one aspect, the present subject matter is directed to a composite anode for a hydrocarbon solid oxide fuel cell, the anode comprising a layered perovskite ceramic and a bi-metallic alloy.

US Patent:

20220235472, Jul 28, 2022

Filed:

Nov 23, 2021

Appl. No.:

17/533432

Inventors:

- Columbia SC, US
Fanglin Chen - Irmo SC, US

Assignee:

University of South Carolina - Columbia SC

International Classification:

C25B 3/03
C25B 11/047
C25B 3/26
C25B 1/23
C25B 1/02

Abstract:

Described herein is an electrochemical process to improve the yields obtained while converting ethane to ethylene with high yield, which utilizes COto make CO concurrently, while solving the low conversion, low selectivity, and catalyst coking challenges for conversion ethane to ethylene currently present in the petrochemical industry.

US Patent:

20170292197, Oct 12, 2017

Filed:

Mar 16, 2017

Appl. No.:

15/460373

Inventors:

- Columbia SC, US
Fanglin Chen - Irmo SC, US
Yao Wang - Columbia SC, US

International Classification:

C25B 9/08
C25B 9/18
C25B 11/04
C25B 1/02
C25B 13/04

Abstract:

A syngas generation system that combines a solid oxide electrolysis cell (SOEC) and a carbon gasification unit is described. On the cathode side of the SOEC, COand HO are electrochemically converted to syngas. At the anode side of the system, a second stream of syngas is produced through a carbon gasification process in which solid carbon is reacted with HO/CO. Oxygen ion transported across the SOEC electrolyte reacts at the anode with a portion of the syngas produced in the gasification process. This reaction product (HO/CO) can be fed back to the gasification unit.