Opportunities for organocatalysis in polymer synthesis via step-growth methods

[Display omitted] Organocatalysis has emerged as an invaluable tool for polymer synthesis and has already demonstrated versatility for replacing organometallic catalysts in many polymerization reactions. The overall ease of removal and lower toxicity of organocatalysts relative to their common metal...

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Bibliographic Details
Published inProgress in polymer science Vol. 90; pp. 164 - 210
Main Authors Bossion, Amaury, Heifferon, Katherine V., Meabe, Leire, Zivic, Nicolas, Taton, Daniel, Hedrick, James L., Long, Timothy E., Sardon, Haritz
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2019
Elsevier
Subjects
Chemical Sciences
Dual catalysts
Organic acids
Organic bases
Organocatalysis
Polymers
Step-growth polymerization
ROIP
bis-MPA
PU
MeCN
Dual catalysts
ADMET
MTBD
TFA
Đ
DFT
H2SO4
NIPU
MeOTF
DOX
Et-MDEA
REMP
p-TsOH
DPC
BEMP
LCST
KOMe
BF3OEt2
RT
DBTDL
DPP
H3PO4
MRI
DABCO
Ti(OBu)4
DBSA
THF
Tf2NH
MDEA
PPV
DMAP
PPY
MSA
PHU
KHMDS
SP
[BBSIm]Tf2N
BHET
HMDI
NMP
Organic bases
bis-MPA-TEMPO
PTSA
TU
PTMO
AcOH
DMSO
Hex-MDEA
NHC-CO2
MDA
Organocatalysis
Organic acids
DBN
NfOH
DBU
TBD
PTSAA
EG
AMP
DCM
Ph3P
ROP
BAIL
PHUU
Mn
PCS
t-BuP1
t-BuP2
KO-t-Bu
NHC
Mw
[OBSIm]Tf2N
TfOH
IPDI
PTS
CSA
HCl
Step-growth polymerization
DMC
DMF
t-BuP4
P2-Et
DMT
TMC
Nf2NH
TMG
TEA
DES
PEG
BDMAEE
PVA
PEO
TMS
PET
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Summary:[Display omitted] Organocatalysis has emerged as an invaluable tool for polymer synthesis and has already demonstrated versatility for replacing organometallic catalysts in many polymerization reactions. The overall ease of removal and lower toxicity of organocatalysts relative to their common metal counterparts has also nurtured development especially in chain growth polymerizations to achieve precision macromolecular architectures for application in the biomedical space. The application of organocatalysts in step-growth polymerizations of polymers, including polyesters, polycarbonates, and polyurethanes, has garnered fewer studies in spite of the large array of benefits that could be achieved. Step-growth polymers account for nearly 20 wt. % of the Word Plastic Production and play a vital role in many technologies as engineering plastics and high performance polymeric materials with outstanding thermomechanical performance. Step-growth polymerizations are achieved using monomers with a diversity of chemical functionality. Consequently, a vast array of polymeric structures are attainable and will impact diverse applications in energy, aerospace, medicine, transportation, and construction. This review article will highlight the recent advances in organocatalysis in step growth polymerizations. We will primarily focus our review on the synthesis of commercially important polyesters and polyurethanes using organocatalysis, however, the review will also emphasize recent literature describing less explored polymers, such as polyethers, polycarbonates, and polybenzoins, which have recently employed organocatalysts. Moreover, the article will draw attention to recent efforts in the use of carbon dioxide as a monomer for the preparation of step-growth polymers in the presence of organocatalysis.
ISSN:0079-6700
1873-1619
DOI:10.1016/j.progpolymsci.2018.11.003