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Yogesh J Ner

from Spring Hill, TN
Age ~45
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Related to:
Bhavana Y Ner
Connected to:
Sin Ner, 59Alexis D Nera, 37Elsie S Nera, 122Jeffrey D Nera, 57Nera C Nera, 46Rosa Nera, 74Bruce A Nerad, 66Carey A Nerad, 68Christopher C Nerad, 39John R Nerad, 53

Yogesh Ner Phones & Addresses

  • 3002 Sommette Dr, Spring Hill, TN 37174
  • Franklin, TN
  • McAllen, TX
  • San Diego, CA
  • Willimantic, CT
  • Storrs Mansfield, CT
  • 1001 E Redbud Ave APT 116, McAllen, TX 78504

Work

Company: Fiberio technology corporation 2012 Position: Sr. applications engineer

Education

School / High School: University of California at San Diego- San Diego, CA 2010 Specialities: Post Doc

Resumes

Resumes

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Yogesh Ner

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Yogesh Ner Photo 2

Yogesh Ner McAllen, TX

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Work:
FibeRio Technology Corporation

2012 to 2012
Sr. Applications Engineer
FibeRio Technology Corporation

2011 to 2011
Materials Engineer
University of California at San Diego
San Diego, CA
2010 to 2010
Postdoctoral Fellow
Polymer Program, University of Connecticut
Storrs, CT
2005 to 2009
Graduate Research Assistant
Testing and Research Center for Rubber Products in India

2003 to 2005
Senior Scientific Officer, Physical Testing
Indian Institute of Technology

2001 to 2003
Smithshilp Plastics Pvt. Lmd., Aurangabad, India

Jun 2000 to Aug 2000
Summer Intern
Education:
University of California at San Diego
San Diego, CA
2010
Post Doc
University of Connecticut
Storrs, CT
2009
Ph.D. in Polymer Science
Indian Institute of Technology
2003
M.Tech.
University Department of Chemical Technology, North Maharashtra University
Jalgaon, Maharashtra
2001
B.Tech. in Chemical Technology

Publications

Us Patents

Nucleic Acid-Based Photovoltaic Cell

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US Patent:
20100288343, Nov 18, 2010
Filed:
May 18, 2010
Appl. No.:
12/800583
Inventors:
Gregory A. Sotzing - Storrs CT, US
Yogesh J. Ner - Willimantic CT, US
Assignee:
University of Connecticut - Farmington CT
International Classification:
H01L 31/02
B32B 37/02
US Classification:
136252, 156 60
Abstract:
Photovoltaic cells containing nucleic acid materials and methods of production and use are provided. The nucleic acid materials have photovoltaic donor and acceptor molecules incorporated therein and define a spatial organization and orientation for these molecules that inhibits recombination of excitons and promotes efficiency in the photovoltaic cell. Preferred nucleic acid materials contain nucleic acid molecules complexed with ionic surfactants and are in the form of films, fibers, nanofibers, or non-woven meshes.

Single Step Polymerization Of Covalently Bound Multilayer Matrices

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US Patent:
20130234372, Sep 12, 2013
Filed:
Mar 11, 2013
Appl. No.:
13/794546
Inventors:
Adah Almutairi - La Jolla CA, US
Yogesh Ner - McAllen TX, US
Jerome Karpiak - San Diego CA, US
Jose Morachis - San Diego CA, US
Assignee:
THE REGENTS OF THE UNIVERSITY OF CALIFORNIA - Oakland CA
International Classification:
B29C 39/12
US Classification:
264496
Abstract:
A method is provided for forming complex tissue using density gradient multilayer polymerization (DGMP) to form strong hydrogels with smooth transitions between layers. The multicompartment hydrogel is formed by co-dissolving a polymer precurser with a constituent in multiple solvent fractions to a create prepolymer solutions with different densities, layering the prepolymer solutions on top of each other from high to low solvent density, and irradiating the prepolymer solutions to form a polymer. The hydrogels may be used as biomimetic matrices.

Devices And Methods For The Production Of Microfibers And Nanofibers Having One Or More Additives

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US Patent:
20140035177, Feb 6, 2014
Filed:
Aug 6, 2013
Appl. No.:
13/960365
Inventors:
Roger Lipton - Austin TX, US
Stephen Kay - Austin TX, US
Yogesh Ner - McAllen TX, US
Assignee:
FibeRio Technology Corporation - McAllen TX
International Classification:
D01D 5/18
US Classification:
264 8
Abstract:
Described herein are apparatuses and methods of creating fibers, such as microfibers and nanofibers, which include additives that modify one or more properties of the produced fibers. The methods discussed herein employ centrifugal forces to transform material into fibers. Apparatuses that may be used to create fibers are also described.

Nucleic Acid Materials For Nonradiative Energy Transfer And Methods Of Production And Use

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US Patent:
20090311799, Dec 17, 2009
Filed:
Jun 15, 2009
Appl. No.:
12/484509
Inventors:
Gregory A. Sotzing - Storrs CT, US
Jeffrey A. Stuart - Columbia CT, US
Yogesh J. Ner - Willimantic CT, US
International Classification:
G01N 21/00
C07H 21/00
B29C 47/00
B29C 39/00
G21G 5/00
US Classification:
436172, 536 221, 264465, 264299, 2504921
Abstract:
Nucleic acid materials for FRET-based luminescence and methods of making and using the nucleic acid materials are provided. The nucleic acid materials provide an innovative and synergistic combination of three disparate elements: a nucleic acid material, the processing technique for forming a nucleic acid material into films, fibers, nanofibers, or non-woven meshes, and nonradiative energy transfer. This combination can be formed into electrospun fibers, nanofibers, and non-woven meshes of a nucleic acid material-cationic lipid complex with encapsulated chromophores capable of nonradiative energy transfer such as efficient Förster Resonance Energy Transfer (FRET).

Filtration Media With Extended Surface Area

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US Patent:
20210162333, Jun 3, 2021
Filed:
Feb 10, 2021
Appl. No.:
17/172214
Inventors:
SoonDeuk Jeung - Independence MO, US
Yogesh Ner - Spring Hill TN, US
Lu Liu - Crestwood KY, US
Zhiwang Wu - Spring Hill TN, US
Lei Li - Franklin TN, US
Assignee:
Parker-Hannifin Corporation - Cleveland OH
International Classification:
B01D 46/52
B01D 39/16
B01D 46/10
B01D 46/00
Abstract:
A filter media and methods are provided. The media is stretchable and exhibits a high degree of elongation which thereby extends its surface area during pleating. By extending surface area of media during pleating, the initial differential pressure is lowered as the area of media is stretched while keeping the same efficiency range with a compressed thickness of media on the affected area.

Multi-Layered Or Multiple Polymer Fine Fiber Webs

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US Patent:
20170304755, Oct 26, 2017
Filed:
Apr 21, 2017
Appl. No.:
15/493266
Inventors:
Vishal Bansal - Lee's Summit MO, US
Thomas D. Carr - Franklin TN, US
Yogesh Ner - Spring Hill TN, US
Kaiyi Liu - Spring Hill TN, US
Stephen R. Kay - Austin TX, US
Assignee:
CLARCOR Inc. - Franklin TN
International Classification:
B01D 39/16
D01D 4/02
D04H 1/724
Abstract:
A material comprising unique nanofiber layers, and more particularly, this invention relates to a method for creating a material that is made from multiple unique nanofiber layers that can be utilized as filter media among other applications. The nanofiber layers have a plurality of fine fibers with an average diameter of less than 1 micron. In embodiments, the fine fibers are formed from a polymer. The material can be created according to a method in which the fine fiber strands are formed from a polymer melt or a polymer solution. The fine fibers can then be layered on top of one another to form materials such as filter media.

High Molecular And Low Molecular Weight Fine Fibers And Tpu Fine Fibers

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US Patent:
20170306148, Oct 26, 2017
Filed:
Apr 18, 2017
Appl. No.:
15/490680
Inventors:
Vishal Bansal - Lee's Summit MO, US
Thomas D. Carr - Franklin TN, US
Yogesh Ner - Spring Hill TN, US
Kaiyi Liu - Spring Hill TN, US
Stephen R. Kay - Austin TX, US
Assignee:
CLARCOR Inc. - Franklin TN
International Classification:
C08L 75/04
Abstract:
In embodiments, the present invention provides a plurality of fine fiber strands made from a first polymer and a second polymer where the second polymer has a higher molecular weight than the first polymer. In preferred embodiments, the fine fiber strands have an average diameter of less than 2 micron, and the fine fiber strands have a length of at least 1 millimeter.

Fine Fiber Web With Chemically Functional Species

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US Patent:
20170298092, Oct 19, 2017
Filed:
Apr 18, 2017
Appl. No.:
15/490586
Inventors:
Vishal Bansal - Lee's Summit MO, US
Thomas D. Carr - Franklin TN, US
Yogesh Ner - Spring Hill TN, US
Kaiyi Liu - Spring Hill TN, US
Stephen R. Kay - Austin TX, US
Assignee:
CLARCOR Inc. - Franklin TN
International Classification:
C07K 1/22
B01D 15/38
B01J 20/286
D01D 5/18
D01D 5/00
B01D 15/20
B32B 5/02
B01D 39/16
Abstract:
A functionalized fine fiber is provided. In an embodiment, the functionalized fine fiber is usable in chromatography. The functionalized fine fiber includes a matrix of fine fiber. The fine fibers preferably have an average diameter of less than 2 micron, and each fine fiber preferably has a length of at least 1 millimeter. The fine fibers carry and immobilize functional molecules.
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Yogesh J Ner from Spring Hill, TN, age ~45 Get Report