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Patrick Jacob Palafox, 48117 Longmeadow St, Longmeadow, MA 01106

Known as:
Patrick J Palafox Pat J Palafox Patrick Talafox
Related to:
Kenneth R Councilman 58

Patrick Palafox Phones & Addresses

Longmeadow, MA   

Greenfield, MA   

Hattiesburg, MS   

Seabrook, TX   

Pasadena, TX   

Houston, TX   

Sweetwater, TX   

Austin, TX   

Lafayette, IN   

San Antonio, TX   

Oklahoma City, OK   

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Patrick Jacob Palafox

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Work

Company: Kelly scientific (exxonmobil) Aug 2012 Address: Baytown, TX Position: Research technician

Education

Degree: M.S. School / High School: Purdue University 2007 to 2010 Specialities: Organic Chemistry (Biomaterials)

Skills

Column Chromatography • Nmr • Fluorescence Microscopy • Purification • Surface Functionalization • Multi Step Organic Synthesis • Langmuir Trough • Lyophilization • Dsc • Tga • Tlc • Ir • Uv Vis • Biosensor Construction • Chemdraw • Scifinder • Bifunctionalization • Self Assembled Monolayers • Air Free Reactions • Surface Grafting • Light Sensitive Reactions • Microwave Reactions • Multi Disciplinary Discussions and Collaborations • Polymer Chemistry • Surface Chemistry • Polymer Characterization • Organic Chemistry • Polymers • Organic Synthesis • Experimental Design • Gpc • Distillation • Method Development • Experimentation • Chemistry • Characterization • Science • Research • Laboratory • R&D • Nmr Spectroscopy • Uv/Vis

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Patrick Palafox resumes & CV records

Resumes

Patrick Palafox Photo 12

Application Chemist

Location:
93 Summer Place Cir, Hattiesburg, MS 39402
Industry:
Research
Work:
Kelly Scientific (ExxonMobil) - Baytown, TX since Aug 2012
Research Technician Total Petrochemicals - Houston, Texas Area Aug 2010 - Aug 2012
Laboratory Chemist Purdue University - West Lafayette, IN May 2010 - Jul 2010
Research Technician Purdue University - West Lafayette, IN Aug 2007 - May 2010
Teaching Assistant The University of Texas at San Antonio - San Antonio, Texas Area Jan 2005 - Aug 2006
Research Assistant The University of Texas at San Antonio - San Antonio, TX Aug 2004 - Dec 2004
Teaching Assistant
Education:
Purdue University 2007 - 2010
M.S., Organic Chemistry (Biomaterials) The University of Texas at San Antonio 2004 - 2007
M.S., Organic Chemistry (Polymer) The University of Texas at San Antonio 2000 - 2004
B.S., Biology
Skills:
Column Chromatography, Nmr, Fluorescence Microscopy, Purification, Surface Functionalization, Multi Step Organic Synthesis, Langmuir Trough, Lyophilization, Dsc, Tga, Tlc, Ir, Uv Vis, Biosensor Construction, Chemdraw, Scifinder, Bifunctionalization, Self Assembled Monolayers, Air Free Reactions, Surface Grafting, Light Sensitive Reactions, Microwave Reactions, Multi Disciplinary Discussions and Collaborations, Polymer Chemistry, Surface Chemistry, Polymer Characterization, Organic Chemistry, Polymers, Organic Synthesis, Experimental Design, Gpc, Distillation, Method Development, Experimentation, Chemistry, Characterization, Science, Research, Laboratory, R&D, Nmr Spectroscopy, Uv/Vis

Publications & IP owners

Us Patents

Polymers Produced Via Use Of Vinyl Transfer Agents

US Patent:
2018020, Jul 19, 2018
Filed:
Aug 10, 2016
Appl. No.:
15/744513
Inventors:
- Baytown TX, US
Jo Ann M. Canich - Houston TX, US
Matthew W. Holtcamp - Huffman TX, US
Patrick J. Palafox - Hattiesburg MS, US
Ramyaa Mathialagan - Baytown TX, US
International Classification:
C08F 4/6592
C08F 4/64
C08F 4/659
C08F 8/30
C08F 8/42
Abstract:
Catalyst systems with single site transition metal complexes (such as pyridyldiamido transition metal complexes), an activator, and a metal hydrocarbenyl chain transfer agent (preferably an aluminum vinyl-transfer agent) are disclosed for use in alkene polymerization.

Aluminum Alkyls With Pendant Olefins On Clays

US Patent:
2018020, Jul 19, 2018
Filed:
Aug 10, 2016
Appl. No.:
15/744475
Inventors:
- Baytown TX, US
Gregory S. Day - College Station TX, US
John R. Hagadorn - Houston TX, US
Patrick J. Palafox - Hattiesburg MS, US
Ramyaa Mathialagan - Baytown TX, US
Jo Ann M. Canich - Houston TX, US
International Classification:
C08F 10/02
Abstract:
This invention relates to organoaluminum compounds, organoaluminum activator systems, preferably supported, to polymerization catalyst systems containing these activator systems, and to polymerization processes utilizing the same. In particular, this invention relates to catalyst systems comprising ion-exchange layered silicate, a catalyst compound, an activator and an aluminum compound represented by formula: Al(R′)(R″), wherein each R′, independently, is a C-Chydrocarbyl group; each R″, independently, is a C-Chydrocarbenyl group; and v is from 0.1 to 3.

Aluminum Alkyls With Pendant Olefins For Polyolefin Reactions

US Patent:
2018019, Jul 12, 2018
Filed:
Aug 10, 2016
Appl. No.:
15/744478
Inventors:
- Baytown TX, US
Gregory S. Day - College Station TX, US
John R. Hagadorn - Houston TX, US
Patrick J. Palafox - Hattiesburg MS, US
Ramyaa Mathialagan - Baytown TX, US
Jo Ann M. Canich - Houston TX, US
International Classification:
C08F 4/659
C08F 4/6592
C08F 8/42
C08F 10/02
C08F 10/06
Abstract:
This invention relates to organoaluminum compounds, organoaluminum activator systems, preferably supported, to polymerization catalyst systems containing these activator systems and to polymerization processes utilizing the same. In particular, this invention relates to catalyst systems comprising a support, an organoaluminum compound and a metallocene.

Quinolinyldiamido Transition Metal Complexes, Production And Use Thereof

US Patent:
2018000, Jan 4, 2018
Filed:
Jun 21, 2017
Appl. No.:
15/629586
Inventors:
- Baytown TX, US
Patrick J. Palafox - Hattiesburg MS, US
Peijun Jiang - League City TX, US
Yaohua Gao - Houston TX, US
Xin Chen - Humble TX, US
Georgy P. Goryunov - Kokoshkino, RU
Mikhail I. Sharikov - Moscow, RU
Dmitry V. Uborsky - Moscow, RU
Alexander Z. Voskoboynikov - Moscow, RU
International Classification:
C07F 7/00
C08F 10/06
C08F 10/02
Abstract:
Quinolinyldiamido transition metal complexes are disclosed for use in alkene polymerization to produce multimodal polyolefins.

Transition Metal Complexes Of Tridentate Dianionic Cnn Ligands, Production And Use Thereof

US Patent:
2017000, Jan 5, 2017
Filed:
May 12, 2016
Appl. No.:
15/153247
Inventors:
- Baytown TX, US
Patrick J. Palafox - Seabrook TX, US
International Classification:
C07F 7/00
C08F 110/02
C08F 110/14
Abstract:
New pyridylamide transition metal complex compositions for olefin polymerizations are described herein featuring a 7-membered chelate ring and a cyclometalated hydrocarbyl group. When activated using typical activators these compositions form active alkene polymerization catalysts. Theses novel catalyst compositions are shown herein to be active for olefin polymerization, especially for preparation of polymers containing ethylene.

Pyridyldiamido Transition Metal Complexes, Production And Use Thereof

US Patent:
2015024, Sep 3, 2015
Filed:
Feb 23, 2015
Appl. No.:
14/628401
Inventors:
- Baytown TX, US
Patrick J. Palafox - Pasadena TX, US
International Classification:
C08F 10/06
C07F 7/00
C08F 10/02
Abstract:
Pyridyldiamido transition metal complexes are disclosed for use in alkene polymerization to produce high melting point polyolefins.

Process To Produce Polymers From Pyridyldiamido Transition Metal Complexes And Use Thereof

US Patent:
2015014, May 21, 2015
Filed:
Oct 16, 2014
Appl. No.:
14/515810
Inventors:
- Baytown TX, US
Liehpao O. Farng - Lawrenceville NJ, US
Patrick J. Palafox - Pasadena TX, US
Jian Yang - Houston TX, US
Ian C. Stewart - Houston TX, US
International Classification:
C08F 210/16
C10M 143/04
US Classification:
526 64, 526133, 526348
Abstract:
Processes to produce ethylene copolymers using pyridyldiamido transition metal complexes, a chain transfer agent, and an activator are disclosed.

Reversible Chain-Transfer In Polyolefin Polymerization With Pyridyldiamide Catalysts

US Patent:
2014025, Sep 11, 2014
Filed:
Mar 3, 2014
Appl. No.:
14/195634
Inventors:
- Baytown TX, US
Jian Yang - Houston TX, US
Patrick J. Palafox - Seabrook TX, US
International Classification:
C08F 4/76
C08F 4/52
C08F 4/50
US Classification:
526161
Abstract:
A process of producing ethylene a-olefin copolymers, especially ethylene block copolymers, comprising contacting ethylene and a Cto Cα-olefin with a transition metal pyridyldiamide (MPN3) catalyst component and an activator, as well as from 10 equivalents to 1000 equivalents relative to the catalyst component of chain transfer agent; isolating an ethylene-α-olefin copolymer having a Tof less than 140 C., a MWD of less than 2.5, and a weight average molecular weight (Mw) within the range of from 5 kDa to 500 kDa. The chain transfer agent can be selected from Group 2, 12 or Group 13 alkyl or aryl compounds.

Possible Relatives

David K Palafox  Diana Palafox  Eduardo L Palafox  Elena S Palafox  Elizabeth R Palafox  Emiliano Palafox  Erick J Palafox  Patrick F Johnson  Patrick S Stamps  Patrick K Stancil 

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