Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition

Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition

Organocatalysts have attracted enormous interest in the water-crosslinking reaction in silane-grafted polyolefins (SGPOs) system owing to their simplicity, low toxicity and environmentally benign nature compared to organotin catalysts, which are most used in SGPOs system. We focus on organophosphoru...

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Main Authors: Tanaka Shohei, Kenta Adachi
Format: Article
Language:English
Published: Iran Polymer and Petrochemical Institute 2021-01-01
Series:Polyolefins Journal
Subjects:
phosphoryl compounds
water-crosslinking reaction
silane-grafting polyolefin
organocatalyst
hydrogen bonding
Online Access:http://poj.ippi.ac.ir/article_1760_ab6c74f5e016b3f9ad4e330a972766de.pdf
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spelling doaj-31606407af734e389da85e775f2bb2ce2021-01-24T07:47:57ZengIran Polymer and Petrochemical InstitutePolyolefins Journal2322-22122345-68682021-01-0181496210.22063/poj.2020.2813.11711760Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane compositionTanaka Shohei0Kenta Adachi1Department of Chemistry, Graduate School of Sciences and Technology for Innovation, Yamaguchi University, Yamaguchi, 753-8512, Japan|Kuriyama R&D Inc., Sayama, Yamaguchi, 747-0849, JapanDepartment of Chemistry, Graduate School of Sciences and Technology for Innovation, Yamaguchi University, Yamaguchi, 753-8512, Japan|Opto-Energy Research Center, Yamaguchi University, Yamaguchi, 753-8511, JapanOrganocatalysts have attracted enormous interest in the water-crosslinking reaction in silane-grafted polyolefins (SGPOs) system owing to their simplicity, low toxicity and environmentally benign nature compared to organotin catalysts, which are most used in SGPOs system. We focus on organophosphorus compounds including four structure types as organocatalysts; phosphoric acids, phosphoric esters, phosphine oxides and phosphine. The catalytic activities of them for the water-crosslinking reaction in 3-methacryloxypropyltrimethoxysilane grafted ethylene-propylene copolymer (EPR-<em>g</em>-MTMS) system were evaluated using the ATR-FTIR technique and gel-fraction method. The phosphine oxides, phosphoric acids, and phosphoric esters possessing an O=PR<sub>3</sub> or O=P(OR)<sub>3</sub> unit were found to be an excellent catalyst for the water-crosslinking reaction in EPR-<em>g</em>-MTMS system, while phosphine (PR<sub>3</sub>) showed no catalytic activity on water-crosslinking reaction in this system, indicating the phosphoryl (P=O) moiety played the important role on catalytic performance of these compounds. In comparison, phosphine oxides showed considerably higher catalytic activities than phosphoric acids / esters. Density functional theory (DFT) calculations demonstrated that the difference of catalytic activity could be attributed to an electron density at P=O moiety making the activation for water through hydrogen-bonding. Finally, the possible catalytic mechanism for the phosphoryl compounds in the EPR-<em>g</em>-MTMS system was proposed on the basis of these results and the S<sub>N</sub>2-Si pathway in silicate sol-gel chemistry.http://poj.ippi.ac.ir/article_1760_ab6c74f5e016b3f9ad4e330a972766de.pdfphosphoryl compoundswater-crosslinking reactionsilane-grafting polyolefinorganocatalysthydrogen bonding
collection DOAJ
language English
format Article
sources DOAJ
author Tanaka Shohei
Kenta Adachi
spellingShingle Tanaka Shohei
Kenta Adachi
Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
Polyolefins Journal
phosphoryl compounds
water-crosslinking reaction
silane-grafting polyolefin
organocatalyst
hydrogen bonding
author_facet Tanaka Shohei
Kenta Adachi
author_sort Tanaka Shohei
title Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
title_short Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
title_full Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
title_fullStr Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
title_full_unstemmed Origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
title_sort origin of catalytic activity differences between phosphine and phosphine oxide-based structures in the water-crosslinkable polyalkoxysilane composition
publisher Iran Polymer and Petrochemical Institute
series Polyolefins Journal
issn 2322-2212
2345-6868
publishDate 2021-01-01
description Organocatalysts have attracted enormous interest in the water-crosslinking reaction in silane-grafted polyolefins (SGPOs) system owing to their simplicity, low toxicity and environmentally benign nature compared to organotin catalysts, which are most used in SGPOs system. We focus on organophosphorus compounds including four structure types as organocatalysts; phosphoric acids, phosphoric esters, phosphine oxides and phosphine. The catalytic activities of them for the water-crosslinking reaction in 3-methacryloxypropyltrimethoxysilane grafted ethylene-propylene copolymer (EPR-<em>g</em>-MTMS) system were evaluated using the ATR-FTIR technique and gel-fraction method. The phosphine oxides, phosphoric acids, and phosphoric esters possessing an O=PR<sub>3</sub> or O=P(OR)<sub>3</sub> unit were found to be an excellent catalyst for the water-crosslinking reaction in EPR-<em>g</em>-MTMS system, while phosphine (PR<sub>3</sub>) showed no catalytic activity on water-crosslinking reaction in this system, indicating the phosphoryl (P=O) moiety played the important role on catalytic performance of these compounds. In comparison, phosphine oxides showed considerably higher catalytic activities than phosphoric acids / esters. Density functional theory (DFT) calculations demonstrated that the difference of catalytic activity could be attributed to an electron density at P=O moiety making the activation for water through hydrogen-bonding. Finally, the possible catalytic mechanism for the phosphoryl compounds in the EPR-<em>g</em>-MTMS system was proposed on the basis of these results and the S<sub>N</sub>2-Si pathway in silicate sol-gel chemistry.
topic phosphoryl compounds
water-crosslinking reaction
silane-grafting polyolefin
organocatalyst
hydrogen bonding
url http://poj.ippi.ac.ir/article_1760_ab6c74f5e016b3f9ad4e330a972766de.pdf
work_keys_str_mv AT tanakashohei originofcatalyticactivitydifferencesbetweenphosphineandphosphineoxidebasedstructuresinthewatercrosslinkablepolyalkoxysilanecomposition
AT kentaadachi originofcatalyticactivitydifferencesbetweenphosphineandphosphineoxidebasedstructuresinthewatercrosslinkablepolyalkoxysilanecomposition
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