| Titre : |
Review on synthesis of isocyanate free polyurethane using sustainable routes and its applications |
| Type de document : |
texte imprimé |
| Auteurs : |
Bhagyashree Waghmare, Auteur ; Prakash A. Mahanwar, Auteur |
| Année de publication : |
2019 |
| Article en page(s) : |
p. 83-98 |
| Note générale : |
Bibliogr. |
| Langues : |
Anglais (eng) |
| Catégories : |
Carbonate cyclique
Composés organiques -- Synthèse
Polyhydroxyuréthanes
Polymères -- Synthèse
Revêtements sans isocyanates
Transuréthanisation
|
| Index. décimale : |
668.9 Polymères |
| Résumé : |
Polyurethane(PU) is most commonly used polymer in various of applications due to its excellent properties. Conventional polyurethane are mostly synthesized by the reaction of isocyanates, polyols and chain extenders. Isocyanates used in this process increases a various health issue. To overcome come all these drawback of PU alternative method of polyurethane synthesis is developed. ln this review sustainable routes for the synthesis of non-isocyante polyurethane (NIPU) reported currently few method of NIPU synthesis reported such as polyaddition, polycondensation, rearrangement and ring opening polymerization are presented in this article. Attention has been given by researchers towards the synthesis of non-isocyanate polyurethane (NIPU), polyhydroxylurethane (PHU) by using most popular and industrially important by the reatiron of cyclic carbonate with diamine. This review also summarizes the synthesis of cyclic carbonate from various routes. |
| Note de contenu : |
- SYNTHESIS OF NON-ISOCYANATE POLYURETHANE FROM NON-TOXIC ROUTE
- NIPU FROM TRANSURETHANIZATION PROCESS : AB type monomer synthesis process - Polyurethane from bis-hydroxyalkylcarbamate - Polyurethane from bis-alkylcarbamate
- CYCLIC CARBONATE PATHWAY(POLYADDITION : reactivity of cyclic carbonate and amines reaction - Synthesis of cyclic carbonate - Synthesis of 5-membrane cyclic carbonate - Synthesis of 6CC-membrane, 7CC-membrane and 8CC-membrane cyclic carbonate
- SYNTHESIS OF BIS-CYCLIC CARBONATE : From natural resources to cyclic carbonate
- REARRENGEMENT REACTIOIN
- RING OPENING POLYMERIZATION
- Scheme 1 : Conventional Polyurethane Synthesis
- Scheme 2a : Synthesis of polyurethane from carbonates and amine
- Scheme 2b : Synthesis of Polyurethane from Carbonates and amino alcohols
- Scheme 3 : Mechanism of Transurethanization
- Scheme 4 : Polyurethane from AB Type monomer
- Scheme 5 : Synhesis of Methyl (2-mercaptoethyl)carbamate
- Scheme 6 : Synthesis of bis(hydroxyurethane) from ethylene carbonate and diamine
- Scheme 7 : Synthesis of Polyurethane by using lipase -B catalyse
- Scheme 8 : Synthesis of NI-TPU from the polycondensation of BHCH with BHBT
- Scheme 9 : Reaction of cyclic carbonate with amine
- Scheme 10 : Reaction mechanism of cyclic carbonate with amine
- Scheme 11 : Synthesis of cyclic carbonate
- Scheme 12 : Synthesis of cyclic carbonate from olefins
- Scheme 13 : Mechanium of activation epoxide by using quaternary ammonium salt
- Scheme 14 : Organomettalic catalyst for Five-membrane cyclic carbonate
- Scheme 15 : Synthesis of glycerol carbonate form glycerol and DMC
- Scheme 16 : Synthesis of glycerol carbonate from carbon monoxide and oxygen and glycerol
- Scheme 17 : Synthesis of cyclic carbonate-functionalizes polysilaxanes
- Scheme 18 : Synthesis of cyclic carbonate from polyamine and cyclic carbonate termin a ted polyester
- Scheme 19 : Six-membered cyclic carbonate derived from natural sugar D-mannose
- Scheme 20 : Synthesis of polyhydroxyurethane from bis(cyclic carbonate )and diamine
- Scheme 21 : synthesis of a new bis(cyclic carbonate) monomer via green catalysis
- Scheme 22 : Synthesis of Bis-carbonate from Syringaresinol
- Scheme 23 :Chemical Modification of Diepoxide TelechelicPCOE (PCOE-GA2) into Bis(cyclodithiocarbonate)
- Scheme 24 : Synthesis of Bis(cyclic carbonate) from methyl undecenote
- Scheme 25 : Synthesis of Bis(cyclo-carbonate) from D-sorbitol
- Scheme 26 : Synthesis of Bis(cyclic carbonate) from sebacoyl chloride and glycerol carbonate
- Scheme 27 : Synthesis of Cyclic Crbonate from diglycidyether of bisphenol Awith Carbon dioxide
- Scheme 28 : Synthesis of isosorbide bis(cyclic carbonater
- Scheme 29 : Synthsis of bis(cyclic carbonate) from CNSL
- Scheme 30 : Synthesis of cyclocarbonate from Dimer Acid
- Scheme 31 : Synthesis of Bis(Cyclic carbonate) from FDCA
- Scheme 32 : Synthesis of Bis(Cyclic carbonate) from Limonene
- Scheme 33 : Synthesis of bis(cyclic carbonate) from terepthalic acid
- Scheme 34 : Synthesis of bis(cyclic carbonate) poly(dimethylsiloxane) from Poly(dimethyl siloxane) and PDMS
- Scheme 35 : Synthesis of Bis(carbonate) from erythritor
- Scheme 36 : Synthesis of bis (cyclic carbonate from D-Mannitol)
- Scheme 37 : Synthesis of Bis carbonate from vanillin moiety
- Scheme 38 :Bis cyclic carbonate from diglycerol
- Scheme 39 : Synthesis of bifunctional 56CC (Cyclic carbonate)from diglyceror
- Scheme 40 : Synthesis of bis cyclic carbonate from diphenolic acid based cyclic carbonate
- Scheme 41 : Vinyl ethylene carbonate
- Scheme 42 : Synthesis of styrene based polymer with five-membrane cyclic carbonate group
- Scheme 43 : Synthesis of methacrylate type cyclohexenecarbonate monomer
- Scheme 44 : Synthesis of norbornene Cyclic carbonate monomer
- Scheme 45 : Synthesis of carbamate by Hoffman rearrangement
- Scheme 46 : Synthesis of poly(trimethylene urethane) from trimethylene urethane
- Scheme 47 : Synthesis Of Polyurethane from 2-methylaziridine and CO2 |
| En ligne : |
https://drive.google.com/file/d/1WCKhFAP6O2_pbO370IJC-sz_Kuyd6A7Z/view?usp=share [...] |
| Format de la ressource électronique : |
Pdf |
| Permalink : |
https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=32637 |
in PAINTINDIA > Vol. LXIX, N° 5 (05/2019) . - p. 83-98
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Review on synthesis of isocyanate free polyurethane using sustainable routes and its applications in PAINTINDIA, Vol. LXIX, N° 5 (05/2019)
