Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker

Research output: Contribution to conferencePosterResearch

Abstract

High internal phase emulsion templating of dicyclopentadiene (DCPD) and subsequent curing via Ring-Opening Metathesis Polymerization (ROMP) is a straight forward way to prepare throughout open macroporous polymer foams characterized by outstanding mechanical properties [1] and a high degree of unsaturation facilitating further functionalization. [2] The polymer foams show high uptake of nonpolar solvents (up to about 1500 w%). However, upon deswelling the original porous structure is corrupted or even lost, narrowing the possible selection of solvents for post-polymerization functionalization. [3]
Herein we wish to report foams of nominal porosity of 80% made from a formulation containing DCPD and a second difunctional monomer bearing two polymerizable norbornene moieties (1), which overcome the said limitation. It will be shown that swelling and subsequent deswelling of monolithic foam specimens in solvents like toluene results in the same macroscopic as well as microscopic structure of the monoliths as the untreated samples, facilitating post-polymerization functionalization. A series of foams with 80% nominal porosity was prepared by varying the content of 1 (10–40 mol% in respect to DCPD). The resulting foams were characterized and most importantly, the mechanical properties were studied by tensile testing. The foams are stiff (E-moduli from 106–117 MPa) and exhibit offset yield points at 0.2 % strain in the range of 1.10-1.78 MPa. Maximal elongations between 27 % and 8% were found.
[1] S. Kovačič, N. B. Matsko, K. Jeřabek, P. Krajnc, C. Slugovc, J. Mater. Chem. A 2013, 1, 487.
[2] A.-C. Knall, S. Kovačič, M. Hollauf, D. P Reishofer, R. Saf, C. Slugovc, Chem. Commun. 2013, 49, 7325.
[3] S. Kovačič, F. Preishuber-Pflügl, C. Slugovc, Macromol. Mater. Eng. 2014, 299, 843.
Original languageGerman
PagesP25
Publication statusPublished - 30 Jun 2019
Event23rd International Symposium on Olefin Metathesis and Related Chemistry - CASA CONVALESCÈNCIA Sant Antoni Mª Claret, 171, Barcelona, Spain
Duration: 30 Jun 20193 Jul 2019
https://www.isom2019bcn.com/

Conference

Conference23rd International Symposium on Olefin Metathesis and Related Chemistry
Abbreviated titleISOM 23
CountrySpain
CityBarcelona
Period30/06/193/07/19
Internet address

Fields of Expertise

  • Advanced Materials Science

Cite this

Vakalopoulou, E., Edinger, D., & Slugovc, C. (2019). Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker. P25. Poster session presented at 23rd International Symposium on Olefin Metathesis and Related Chemistry, Barcelona, Spain.

Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker. / Vakalopoulou, Efthymia; Edinger, David; Slugovc, Christian.

2019. P25 Poster session presented at 23rd International Symposium on Olefin Metathesis and Related Chemistry, Barcelona, Spain.

Research output: Contribution to conferencePosterResearch

Vakalopoulou, E, Edinger, D & Slugovc, C 2019, 'Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker' 23rd International Symposium on Olefin Metathesis and Related Chemistry, Barcelona, Spain, 30/06/19 - 3/07/19, pp. P25.
Vakalopoulou E, Edinger D, Slugovc C. Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker. 2019. Poster session presented at 23rd International Symposium on Olefin Metathesis and Related Chemistry, Barcelona, Spain.
Vakalopoulou, Efthymia ; Edinger, David ; Slugovc, Christian. / Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker. Poster session presented at 23rd International Symposium on Olefin Metathesis and Related Chemistry, Barcelona, Spain.
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title = "Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker",
abstract = "High internal phase emulsion templating of dicyclopentadiene (DCPD) and subsequent curing via Ring-Opening Metathesis Polymerization (ROMP) is a straight forward way to prepare throughout open macroporous polymer foams characterized by outstanding mechanical properties [1] and a high degree of unsaturation facilitating further functionalization. [2] The polymer foams show high uptake of nonpolar solvents (up to about 1500 w{\%}). However, upon deswelling the original porous structure is corrupted or even lost, narrowing the possible selection of solvents for post-polymerization functionalization. [3]Herein we wish to report foams of nominal porosity of 80{\%} made from a formulation containing DCPD and a second difunctional monomer bearing two polymerizable norbornene moieties (1), which overcome the said limitation. It will be shown that swelling and subsequent deswelling of monolithic foam specimens in solvents like toluene results in the same macroscopic as well as microscopic structure of the monoliths as the untreated samples, facilitating post-polymerization functionalization. A series of foams with 80{\%} nominal porosity was prepared by varying the content of 1 (10–40 mol{\%} in respect to DCPD). The resulting foams were characterized and most importantly, the mechanical properties were studied by tensile testing. The foams are stiff (E-moduli from 106–117 MPa) and exhibit offset yield points at 0.2 {\%} strain in the range of 1.10-1.78 MPa. Maximal elongations between 27 {\%} and 8{\%} were found.[1] S. Kovačič, N. B. Matsko, K. Jeřabek, P. Krajnc, C. Slugovc, J. Mater. Chem. A 2013, 1, 487. [2] A.-C. Knall, S. Kovačič, M. Hollauf, D. P Reishofer, R. Saf, C. Slugovc, Chem. Commun. 2013, 49, 7325. [3] S. Kovačič, F. Preishuber-Pfl{\"u}gl, C. Slugovc, Macromol. Mater. Eng. 2014, 299, 843.",
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T1 - Stiffening of poly(dicyclopentadiene) based polyHIPEs by using a norbonene-ester based crosslinker

AU - Vakalopoulou, Efthymia

AU - Edinger, David

AU - Slugovc, Christian

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N2 - High internal phase emulsion templating of dicyclopentadiene (DCPD) and subsequent curing via Ring-Opening Metathesis Polymerization (ROMP) is a straight forward way to prepare throughout open macroporous polymer foams characterized by outstanding mechanical properties [1] and a high degree of unsaturation facilitating further functionalization. [2] The polymer foams show high uptake of nonpolar solvents (up to about 1500 w%). However, upon deswelling the original porous structure is corrupted or even lost, narrowing the possible selection of solvents for post-polymerization functionalization. [3]Herein we wish to report foams of nominal porosity of 80% made from a formulation containing DCPD and a second difunctional monomer bearing two polymerizable norbornene moieties (1), which overcome the said limitation. It will be shown that swelling and subsequent deswelling of monolithic foam specimens in solvents like toluene results in the same macroscopic as well as microscopic structure of the monoliths as the untreated samples, facilitating post-polymerization functionalization. A series of foams with 80% nominal porosity was prepared by varying the content of 1 (10–40 mol% in respect to DCPD). The resulting foams were characterized and most importantly, the mechanical properties were studied by tensile testing. The foams are stiff (E-moduli from 106–117 MPa) and exhibit offset yield points at 0.2 % strain in the range of 1.10-1.78 MPa. Maximal elongations between 27 % and 8% were found.[1] S. Kovačič, N. B. Matsko, K. Jeřabek, P. Krajnc, C. Slugovc, J. Mater. Chem. A 2013, 1, 487. [2] A.-C. Knall, S. Kovačič, M. Hollauf, D. P Reishofer, R. Saf, C. Slugovc, Chem. Commun. 2013, 49, 7325. [3] S. Kovačič, F. Preishuber-Pflügl, C. Slugovc, Macromol. Mater. Eng. 2014, 299, 843.

AB - High internal phase emulsion templating of dicyclopentadiene (DCPD) and subsequent curing via Ring-Opening Metathesis Polymerization (ROMP) is a straight forward way to prepare throughout open macroporous polymer foams characterized by outstanding mechanical properties [1] and a high degree of unsaturation facilitating further functionalization. [2] The polymer foams show high uptake of nonpolar solvents (up to about 1500 w%). However, upon deswelling the original porous structure is corrupted or even lost, narrowing the possible selection of solvents for post-polymerization functionalization. [3]Herein we wish to report foams of nominal porosity of 80% made from a formulation containing DCPD and a second difunctional monomer bearing two polymerizable norbornene moieties (1), which overcome the said limitation. It will be shown that swelling and subsequent deswelling of monolithic foam specimens in solvents like toluene results in the same macroscopic as well as microscopic structure of the monoliths as the untreated samples, facilitating post-polymerization functionalization. A series of foams with 80% nominal porosity was prepared by varying the content of 1 (10–40 mol% in respect to DCPD). The resulting foams were characterized and most importantly, the mechanical properties were studied by tensile testing. The foams are stiff (E-moduli from 106–117 MPa) and exhibit offset yield points at 0.2 % strain in the range of 1.10-1.78 MPa. Maximal elongations between 27 % and 8% were found.[1] S. Kovačič, N. B. Matsko, K. Jeřabek, P. Krajnc, C. Slugovc, J. Mater. Chem. A 2013, 1, 487. [2] A.-C. Knall, S. Kovačič, M. Hollauf, D. P Reishofer, R. Saf, C. Slugovc, Chem. Commun. 2013, 49, 7325. [3] S. Kovačič, F. Preishuber-Pflügl, C. Slugovc, Macromol. Mater. Eng. 2014, 299, 843.

M3 - Poster

SP - P25

ER -