Cationic ring-opening polymerization of natural thioctic acid to chemically recyclable and self-healable poly(thioctic acid) supramolecular material

Cationic ring-opening polymerization of natural thioctic acid to chemically recyclable and self-healable poly(thioctic acid) supramolecular material

[Display omitted] •The first method to synthesize targetable molecular weight poly(thioctic acid) (PTA).•Various cationic ring-opening polymerization systems of natural thioctic acid.•Controllable structure and properties of PTA homopolymer depends on molecular weight.•Chemically recyclable and self...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 482; p. 148816
Main Authors: Zhang, Hang-Tian, Hou, Li-Ke, Chu, Guang-Wen, Wang, Jie-Xin, Zhang, Liang-Liang, Chen, Jian-Feng
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2024
Subjects:
Cationic ring-opening polymerization
Chemically recyclable poly(thioctic acid)
Dynamic disulfide bond
Hydrogen bond
Self-healable supramolecular adhesive
MeOTf
DMSO
Tf2O
EtOH
TA-N
Cationic ring-opening polymerization
TfOH
Et2O
TMe
TFA
CROP
THF
TEe
Self-healable supramolecular adhesive
TMSOTf
EA
DIB
TsOH
DEA
ST
n-PrSH
Dynamic disulfide bond
P(TA-co-TEe)
TA
DCM
Chemically recyclable poly(thioctic acid)
Me(Ph)2S+BF4
NMP
PST
TEA
ROP
PTA
Hydrogen bond
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Summary:[Display omitted] •The first method to synthesize targetable molecular weight poly(thioctic acid) (PTA).•Various cationic ring-opening polymerization systems of natural thioctic acid.•Controllable structure and properties of PTA homopolymer depends on molecular weight.•Chemically recyclable and self-healable PTA supramolecular adhesive material. Poly(disulfide) with dynamically reversible disulfide bonds in backbone is a kind of sustainable polymer materials. Poly(thioctic acid) (PTA) synthesized via ring-opening polymerization (ROP) of natural thioctic acid (TA) is one of typical poly(disulfide)s with self-healing and adhesion properties due to abundant carboxyls in side chains. However, the quantificational ROP of TA has not been achieved based on the methods reported so far. The synthesis of PTA with targetable molecular weight by the cationic ROP (CROP) of TA was reported here. The molecular weight of PTA can be conveniently designed by the molar ratio of TA monomer to trifluoromethanesulfonic acid (TfOH) initiator, and the properties of PTA can be regulated in this way. Moreover, the CROP of TA allows open-air conditions without inert protection. The closed-loop recycling of PTA can be achieved in the action of base and acid with high TA monomer recovery ratio up to 86.0% and 89.0%, respectively. PTA could be completely self-healing at 25°C or 80°C within 6 min after cutting on its surface. Our results demonstrate the possibility of applying this convenient CROP strategy for the synthesis of PTA with targetable molecular weights, controllable properties and application prospect.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2024.148816