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Alexander R Holzer

from Morrow, OH
Age ~30
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Also known as:
Alex Holzer, Andrew Katkin
Related to:
Diane M Knight, 62Paula Maier, 59Christal Quincy, 57Tamara Breedy, 48Dana Fosco, 60
Connected to:
Chris L Holzer, 53Clare G Holzer, 59Crystal E Holzer, 61Dan J Holzer, 69Dawn E Holzer, 47Della M Holzer, 74Franz Holzer, 69Fred Holzer, 81Gertrude J Holzer, 87Gloria J Holzer, 67

Alexander Holzer Phones & Addresses

  • Morrow, OH
  • Loveland, OH
  • Cincinnati, OH
  • Mason, OH
  • Tallahassee, FL

Resumes

Resumes

Alexander Holzer Photo 1

Alexander Holzer

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Alexander Holzer Photo 2

Head Bartender At The Jefferson Hotel

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Location:
United States
Industry:
Hospitality
Alexander Holzer Photo 3

Alexander Holzer

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Publications

Us Patents

Compositions Containing 1,1-Disubstituted Alkene Compounds For Preparing Polymers Having Enhanced Glass Transition Temperatures

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US Patent:
20190202947, Jul 4, 2019
Filed:
Dec 29, 2017
Appl. No.:
15/857808
Inventors:
- Loveland OH, US
Aniruddha Palsule - Cincinnati OH, US
Alexander R. Holzer - Cincinnati OH, US
Kshitij K. Parab - Loveland OH, US
Ami Doshi - Loveland OH, US
International Classification:
C08F 22/10
C07C 69/593
C08F 2/06
C09J 135/02
C08F 222/14
Abstract:
The disclosure relates to compositions containing 1,1-disubstituted alkene compounds capable of preparing polymers having glass transition temperatures above room temperature. The present teaching also relates to polymers prepared 1,1-disubstituted alkene compounds which exhibit glass transition temperatures of 60 C. The disclosure also relate to methods for enhancing the glass transition temperatures of polymers prepared from 1,1-disubstituted alkene compounds.

Polymers Containing A 1,1-Disubstituted Alkene Compound

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US Patent:
20190153272, May 23, 2019
Filed:
Jan 21, 2019
Appl. No.:
16/253006
Inventors:
- Loveland OH, US
Alexander R. Holzer - Cincinnati OH, US
Aniruddha Sudhir Palsule - Cincinnati OH, US
Jeffrey M. Sullivan - Goshen OH, US
International Classification:
C09J 135/02
B01J 19/18
C08F 2/30
C08F 22/10
C08J 3/07
B01J 19/10
C08F 2/26
C08F 122/14
C09D 7/63
C09D 135/02
C09J 11/06
C09J 11/08
C09D 7/65
C08F 267/06
Abstract:
Disclosed is a block copolymer having a first polymer block including a first primary monomer that is a 1,1-disubstituted alkene compound, wherein the first primary monomer is present at a concentration of about 50 weight percent or more, based on the total weight of the first polymer block, the first polymer block covalently bonded to a second polymer block including a second primary monomer different from the first primary monomer, wherein the second primary monomer is present at a concentration of about 50 weight percent or more, based on the total weight of the second polymer block. Also disclosed is a polymer comprising at least one monomer of a 1,1-disubstituted alkene compound having a weight average molecular weight of about 3000 daltons or more, wherein the polymer is substantially free of a melting temperature and is substantially free of a glass transition temperature of about 15 C. or more.

Compositions Containing 1,1-Di-Substituted Alkene Compounds For Preparing Polymers Having Enhanced Glass Transition Temperatures

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US Patent:
20180037681, Feb 8, 2018
Filed:
Oct 13, 2017
Appl. No.:
15/783181
Inventors:
- Loveland OH, US
Aniruddha Palsule - Cincinnati OH, US
Alexander R. Holzer - Cincinnati OH, US
Kshitij K. Parab - Loveland OH, US
Ami Doshi - Loveland OH, US
International Classification:
C08F 22/10
C08F 222/14
C08F 2/06
C09J 135/02
C07C 69/593
Abstract:
The disclosure relates to compositions containing 1,1-disubstituted alkene compounds capable of preparing polymers having glass transition temperatures above room temperature. The present teaching also relates to polymers prepared 1,1-disubstituted alkene compounds which exhibit glass transition temperatures of 60 C. The disclosure also relate to methods for enhancing the glass transition temperatures of polymers prepared from 1,1-disubstituted alkene compounds.

Polymer And Other Compounds Functionalized With Terminal 1,1-Disubstituted Alkene Monomer(S) And Methods Thereof

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US Patent:
20170349700, Dec 7, 2017
Filed:
May 11, 2017
Appl. No.:
15/592829
Inventors:
- Loveland OH, US
Jeffrey M. Sullivan - Goshen OH, US
Kshitij K. Parab - Loveland OH, US
Ami Doshi - Loveland OH, US
Alexander R. Holzer - Loveland OH, US
Matthew Reilman - Cincinnati OH, US
International Classification:
C08G 63/16
B32B 27/36
C08G 63/87
C12P 7/62
Abstract:
Functionalized compounds including residues of one or more 1,1-disubstituted alkene compounds. Preferably the functionalized compound includes the residue of two or more 1,1-disubstituted alkene compounds, which are spaced apart. The functionalized compound may be produced by a transesterification reaction. The functionalized compounds may be employed in a polymerizable composition and may be used to prepare new polymers, (for example by reacting the alkene group).

Coatings Containing Polyester Macromers Containing 1,1-Dicarbonyl-Substituted 1 Alkenes

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US Patent:
20170349781, Dec 7, 2017
Filed:
Jun 29, 2017
Appl. No.:
15/638290
Inventors:
- Loveland OH, US
Jeffrey M. Sullivan - Goshen OH, US
Katherine E. Vanderpool - Milford OH, US
Alexander R. Holzer - Cincinnati OH, US
Anushree Deshpande - Cincinnati OH, US
John Klier - Leverett MA, US
International Classification:
C09D 167/06
C08L 67/06
C08G 63/78
C12P 7/62
C08G 63/00
Abstract:
Compositions comprising a) one or more polyester macromers containing one or more chains of the residue of one or more diols and one or more diesters wherein the residue of the one or more diols and the one or more diesters alternate along the chain and a portion of the diesters are 1,1-diester-1-alkenes and at least one terminal end comprises the residue of one of the 1,1-diester-1 alkenes and wherein one or more terminal ends may comprise the residue of one or more diols; and b) one or more polymers having pendant Michael Addition donor groups. Disclosed are coating prepared from these compositions.

Polymers Including One Or More 1,1-Disubstituted Alkene Compounds And Polymer Compositions Thereof

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US Patent:
20170275446, Sep 28, 2017
Filed:
Sep 9, 2015
Appl. No.:
15/509403
Inventors:
- Loveland OH, US
Aniruddha Sudhir PALSULE - Cincinnati OH, US
Alexander R. HOLZER - Loveland OH, US
Peter R. STEVENSON - Salt Lake City UT, US
Kshitij K. PARAB - Loveland OH, US
International Classification:
C08L 33/04
C08F 222/10
C07C 69/38
Abstract:
The disclosure relates to polymers including one or more 1,1-disubstituted alkene monomers. By employing a plurality of monomers and/or tailored chain structure, polymers having improved combinations of properties are achieved. The polymer may be a copolymer, preferably including two or more 1,1-disubstituted alkene monomers. The polymer may be a homopolymer having a tailored chain structure.

Pressure Sensitive Adhesive Including A 1,1-Disubstituted Alkene Compound

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US Patent:
20170253675, Sep 7, 2017
Filed:
May 8, 2017
Appl. No.:
15/589364
Inventors:
- Loveland OH, US
Alexander R. Holzer - Cincinnati OH, US
Peter Rulon Stevenson - Salt Lake City UT, US
Kshitij Kishen Parab - Loveland OH, US
Jeffrey M. Sullivan - Goshen OH, US
International Classification:
C08F 2/06
C09J 153/00
C09J 135/02
C08F 222/14
Abstract:
The present teachings show that it is possible to polymerize 1,1-disubstituted alkene compounds in a solution (for example using one or more solvents). Polymerization of 1,1-disubstituted alkene compounds in an solution provides opportunities to better control the polymerization compared with bulk polymerization. The solution polymerization techniques can be employed for preparing homopolymers, copolymers (e.g., random copolymers), and block copolymers.

Solution Polymers Formed From Methylene Malonate Monomers, Polymerization, And Solution Polymer Products

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US Patent:
20170240657, Aug 24, 2017
Filed:
May 8, 2017
Appl. No.:
15/589274
Inventors:
- Loveland OH, US
Alexander R. Holzer - Cincinnati OH, US
Peter Rulon Stevenson - Salt Lake City UT, US
Kshitij Kishen Parab - Loveland OH, US
Jeffrey M. Sullivan - Goshen OH, US
International Classification:
C08F 2/06
C09D 153/00
B05D 3/00
C09D 135/02
Abstract:
The present teachings show that it is possible to polymerize 1,1-disubstituted alkene compounds in a solution (for example using one or more solvents). Polymerization of 1,1-disubstituted alkene compounds in a solution provides opportunities to better control the polymerization compared with bulk polymerization. The solution polymerization techniques can be employed for preparing homopolymers, copolymers (e.g., random copolymers), and block copolymers.
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Alexander R Holzer from Morrow, OH, age ~30 Get Report