A high performance phenyl-free LED photoinitiator for cationic or hybrid photopolymerization and its application in LED cationic 3D printing | Health & Environmental Research Online (HERO)

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Citation
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HERO ID

6932647

Reference Type

Journal Article

Title

A high performance phenyl-free LED photoinitiator for cationic or hybrid photopolymerization and its application in LED cationic 3D printing

Author(s)

Tang, L; Nie, Jun; Zhu, X; ,

Year

2020

Publisher

ROYAL SOC CHEMISTRY

Location

CAMBRIDGE

Page Numbers

2855-2863

DOI

10.1039/d0py00142b

Web of Science Id

WOS:000530323400009

Abstract

In this work, a high performance LED photoinitiator, 1,3-bis(1-methyl-1H-pyrrol-2-yl)prop-2-en-1-one (BMO), without a benzene ring was synthesized through a one-step aldehyde-ketone condensation reaction. BMO has a broad absorption range and a high molar extinction coefficient from 365 to 425 nm. Interestedly, BMO can be used not only as a type II free radical photoinitiator for which the hydrogen donor can be supplied by itself or other tertiary amines, but also as a long wavelength sensitizer to sensitize diphenyliodonium photoinitiators (Iod) under a 365 nm to 425 nm LED lamp. BMO/Iod can initiate cationic and free radical photopolymerization. It also can initiate the hybrid photopolymerization efficiently. As a sensitizer to Iod, its activity in initiating cationic photopolymerization is not less than that of 2-isopropylthioxanthone (ITX). In particular, it remains highly active at a low light intensity under a LED lamp. This is very significant to the cationic photopolymerization as well as the photocuring 3D printing technique.