Search

Ali Aliev

from Dallas, TX
Get Report
Also known as:
Alif Alev
Connected to:
Victoria I Aliev, 74Liudmila V Alieva, 47Shah M Alif, 32Carolyn J Alifano, 83Linda M Alifano, 57Michael A Alifano, 99Marc Alifanz, 47Joanne Aliferakis, 75Michael W Aliferis, 64Galina Aliferova, 36

Ali Aliev Phones & Addresses

  • Dallas, TX
  • 1917 Kiestwood Cir, Plano, TX 75025 (469) 951-6543

Resumes

Resumes

Ali Aliev Photo 1

Ali Aliev

View page
Ali Aliev Photo 2

Ali Aliev

View page
Ali Aliev Photo 3

Research Scientist At University Of Texas At Dallas

View page
Location:
Dallas/Fort Worth Area
Industry:
Research
Experience:
University of Texas at Dallas (Educational Institution; 1001-5000 employees; Research industry): Research Scientist,  (-) Institute of Technology LG-Elite, LG Electronics, Seoul, Korea (Research industry): Invited Researcher,  (September 1998-December 2001)&n...
Ali Aliev Photo 4

Ali Aliev

View page
Ali Aliev Photo 5

Ali Aliev

View page

Publications

Us Patents

Nanofiber Actuators And Strain Amplifiers

View page
US Patent:
20120000293, Jan 5, 2012
Filed:
Aug 17, 2009
Appl. No.:
13/125993
Inventors:
Ray H. Baughman - Dallas TX, US
Ali E. Aliev - Dallas TX, US
Jiyoung Oh - Richardson TX, US
Mikhail Kozlov - Dallas TX, US
Shaoli Fang - Richardson TX, US
Anvar A. Zakhidov - McKinney TX, US
Assignee:
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
G01F 1/56
H01Q 1/08
H01J 1/02
G02B 5/18
G02B 5/30
H04R 1/00
H01L 41/04
H01J 35/00
B82Y 15/00
US Classification:
7386108, 310311, 343880, 313146, 378119, 359566, 35948301, 381164, 977837
Abstract:
Nanofiber actuators and strain amplifiers having a material that generates a force or generates a displacement when directly or indirectly electrically driven. This material is an aerogel or a related low density or high density network comprising conducting fibers that are electrically interconnected and can substantially actuate without the required presence of either a liquid or solid electrolyte. Reversible or permanently frozen actuation is used to modify the properties of the actuator material for applications.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20080170982, Jul 17, 2008
Filed:
Nov 9, 2005
Appl. No.:
11/718954
Inventors:
Mei Zhang - Plano TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Highton, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
International Classification:
C01B 31/02
US Classification:
4234473, 423445 R
Abstract:
The present invention is directed to methods of making nanofiber yarns. In some embodiments, the nanotube yarns comprise carbon nanotubes. Particularly, such carbon nanotube yarns of the present invention provide unique properties and property combinations such as extreme toughness, resistance to failure at knots, high electrical and thermal conductivities, high absorption of energy that occurs reversibly, up to 13% strain-to-failure compared with the few percent strain-to-failure of other fibers with similar toughness, very high resistance to creep, retention of strength even when heated in air at 450 C. for one hour, and very high radiation and UV resistance, even when irradiated in air.

Methods For Torsional Refrigeration By Twisted, Coiled, And Supercoiled Fibers And Systems Thereof

View page
US Patent:
20210116152, Apr 22, 2021
Filed:
Sep 29, 2020
Appl. No.:
17/036018
Inventors:
- Austin TX, US
Run Wang - Tianjin, CN
Zhong Wang - Dallas TX, US
Shaoli Fang - Richardson TX, US
Marcio Dias Lima - Richardson TX, US
Ali E. Aliev - Plano TX, US
Na Li - Milwaukee WI, US
Carter S. Haines - Murphy TX, US
Ray H. Baughman - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
F25B 23/00
Abstract:
Cooling by a twist-untwist process, by a stretch-release process for twisted, coiled, or supercoiled yarns or fibers, and methods and systems thereof. High mechanocaloric cooling results from release of inserted twist or from stretch release for twisted, coiled, or supercoiled fibers, including natural rubber fibers, NiTi wires, and polyethylene fishing line. Twist utilization can increase cooling and cooling efficiencies. A cooler using twist insertion and release can be shorter and smaller in volume than a cooler that requires a large elastomeric elongation. The cooler system can be utilized in mechanochromic textiles and remotely readable tensile and torsional sensors.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20190002283, Jan 3, 2019
Filed:
Jan 9, 2018
Appl. No.:
15/865459
Inventors:
- Austin TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Victoria, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
C01B 32/158
H01L 51/44
C01B 32/164
C01B 32/154
C01B 32/36
C01B 32/15
C01B 32/17
C01B 32/168
C01B 32/16
D02G 3/28
D01F 9/127
D02G 3/44
B32B 18/00
B29C 47/00
D01F 9/12
B32B 5/12
B32B 5/02
C01B 32/18
Abstract:
A nanofiber forest on a substrate can be patterned to produce a patterned assembly of nanofibers that can be drawn to form nanofiber sheets, ribbons, or yarns.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20170327377, Nov 16, 2017
Filed:
Oct 21, 2016
Appl. No.:
15/299553
Inventors:
- Austin TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Victoria, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
C01B 32/15
H01M 10/0565
H01M 4/92
H01L 51/52
H01L 51/44
H01L 51/00
H01G 11/36
H01B 5/08
H01B 1/24
G02F 1/1333
G01L 1/22
D06M 15/333
D06M 15/256
D06B 15/00
D04H 3/002
D02G 3/44
D02G 3/28
D02G 3/16
D01F 9/127
D01F 9/127
D01F 9/127
D01F 9/12
D01F 9/08
C23C 16/50
C23C 16/44
C04B 35/80
C04B 35/628
C04B 35/628
C04B 35/628
C04B 35/622
C04B 35/622
C04B 35/622
B82Y 10/00
B32B 37/12
B32B 18/00
B32B 5/12
B32B 5/02
B29C 47/00
B01L 3/00
C01B 32/36
C01B 32/154
H05K 9/00
H01M 4/86
H01L 51/52
H01L 51/52
G02F 1/15
G02F 1/1333
B82Y 40/00
B82Y 30/00
Abstract:
A nanofiber forest on a substrate can be patterned to produce a patterned assembly of nanofibers that can be drawn to form nanofiber sheets, ribbons, or yarns.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20170137290, May 18, 2017
Filed:
Jul 21, 2016
Appl. No.:
15/216614
Inventors:
- Austin TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Victoria, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
B32B 37/00
D01F 9/127
C04B 35/80
C23C 16/44
H01M 4/92
D02G 3/16
D02G 3/28
D02G 3/44
D04H 3/002
H01G 11/36
D01F 9/08
H01M 10/0565
Abstract:
Fabricating a nanofiber sheet, ribbon, or yarn by a continuous process that includes synthesizing a nanofiber forest in a furnace growth region on a substrate, wherein the nanofiber forest comprises a parallel array of nanofibers, and further includes drawing said nanofibers from the nanofiber forest to form a primary assembly that is the sheet, ribbon or yarn. The substrate continuously moves from the furnace growth region into a region where the nanofibers in the forest are drawn.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20170096750, Apr 6, 2017
Filed:
Jul 7, 2016
Appl. No.:
15/204737
Inventors:
- Austin TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Victoria, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
D01F 9/127
D02G 3/28
D02G 3/44
D04H 3/002
D06M 15/333
H01L 51/00
H01B 5/08
H01B 1/24
H01G 11/36
H01L 51/52
H01L 51/44
D02G 3/16
D06M 15/256
Abstract:
A process of producing a yarn, ribbon or sheet that includes nanofibers in which the process includes forming a yarn, ribbon or sheet comprising nanofibers, and applying an enhancing agent comprising a polymer to the yarn, ribbon or sheet.

Fabrication And Application Of Nanofiber Ribbons And Sheets And Twisted And Non-Twisted Nanofiber Yarns

View page
US Patent:
20170001866, Jan 5, 2017
Filed:
Jul 7, 2016
Appl. No.:
15/204643
Inventors:
- Austin TX, US
Shaoli Fang - Richardson TX, US
Ray H. Baughman - Dallas TX, US
Anvar A. Zakhidov - McKinney TX, US
Kenneth Ross Atkinson - Victoria, AU
Ali E. Aliev - Dallas TX, US
Sergey Li - Dallas TX, US
Chris Williams - Dallas TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
International Classification:
C01B 31/02
D01F 9/127
Abstract:
A process of producing a yarn, ribbon or sheet comprising nanofibers that includes infiltrating a liquid into the yarn, ribbon or sheet and evaporating the liquid from the yarn, ribbon, or sheet to strengthen the yarn, ribbon or sheet. The yarn, ribbon, or sheet can be formed by solid-state draw from a carbon nanotube forest.

Wikipedia References

Ali Aliev Photo 6

Ali Aliev (Physicist)

Control profile
Ali Aliev from Dallas, TX Get Report