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Publication DateJuzhi Gongye = Polyester Industry, ISSN 1008-8261, 01/2019, Issue 1
This paper introduces the production technological process and equipment modification of the online controllable multi-functional polyester fiber produced in...
Polyesters
Polyesters
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Trends in Biotechnology, ISSN 0167-7799, 2015, Volume 34, Issue 4, pp. 316 - 328
The polymer industry is under pressure to mitigate the environmental cost of petrol-based plastics. Biotechnologies contribute to the gradual replacement of...
Internal Medicine | bio-based | biodegradable | circular economy | functionalized polyesters | polyesters | ring-opening polymerization | biocatalyzed polycondensation | Functionalized polyesters | Biocatalyzed polycondensation | Biodegradable | Circular economy | Polyesters | Ring-opening polymerization | Bio-based | AROMATIC POLYESTERS | BIOTECHNOLOGICAL PRODUCTION | SURFACE HYDROLYSIS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | THERMOBIFIDA-FUSCA CUTINASE | RENEWABLE RESOURCES | BUILDING-BLOCK | CUTINASE-CATALYZED HYDROLYSIS | PET | POLYETHYLENE TEREPHTHALATE | ITACONIC ACID | Biodegradation, Environmental | Biopolymers - chemistry | Biotechnology - methods | Polyesters - chemistry | Polyesters - metabolism | Biocompatible Materials - chemistry | Biopolymers - metabolism | Enzymes | Polyols | Polymerization | Polymer industry | Chemical industry | Biotechnology | Metabolism | Fermentation | Carbon | Hydrogenation | Emissions | Capital costs | Chemistry | Acids | Technological change | Oxidation | Production capacity | Polymers | Plastics
Internal Medicine | bio-based | biodegradable | circular economy | functionalized polyesters | polyesters | ring-opening polymerization | biocatalyzed polycondensation | Functionalized polyesters | Biocatalyzed polycondensation | Biodegradable | Circular economy | Polyesters | Ring-opening polymerization | Bio-based | AROMATIC POLYESTERS | BIOTECHNOLOGICAL PRODUCTION | SURFACE HYDROLYSIS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | THERMOBIFIDA-FUSCA CUTINASE | RENEWABLE RESOURCES | BUILDING-BLOCK | CUTINASE-CATALYZED HYDROLYSIS | PET | POLYETHYLENE TEREPHTHALATE | ITACONIC ACID | Biodegradation, Environmental | Biopolymers - chemistry | Biotechnology - methods | Polyesters - chemistry | Polyesters - metabolism | Biocompatible Materials - chemistry | Biopolymers - metabolism | Enzymes | Polyols | Polymerization | Polymer industry | Chemical industry | Biotechnology | Metabolism | Fermentation | Carbon | Hydrogenation | Emissions | Capital costs | Chemistry | Acids | Technological change | Oxidation | Production capacity | Polymers | Plastics
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Loading RightsAdvanced Synthesis & Catalysis, ISSN 1615-4150, 05/2015, Volume 357, Issue 8, pp. 1763 - 1774
Itaconic acid is a chemically versatile unsaturated diacid that can be produced by fermentation and potentially it can replace petrol‐based monomers such as...
curable polyesters | itaconic acid | thin film reaction | enzymatic polyester synthesis | lipase B from Candida antarctica | POLYESTERS | CATALYZED SYNTHESIS | POLYMER | CHEMISTRY, ORGANIC | LIPASE-B | CHEMISTRY, APPLIED | IMMOBILIZATION | Thin films | Oligomers | Enzymes | Dielectric films | Isomerization | Butanediol | Dimethyl | Feasibility studies | Materials selection | Polyester resins | Fermentation | Cobalt | Biopolymers | Monomers | Itaconic acid | Computation | Gasoline | Docking | Biocompatibility | Elongation
curable polyesters | itaconic acid | thin film reaction | enzymatic polyester synthesis | lipase B from Candida antarctica | POLYESTERS | CATALYZED SYNTHESIS | POLYMER | CHEMISTRY, ORGANIC | LIPASE-B | CHEMISTRY, APPLIED | IMMOBILIZATION | Thin films | Oligomers | Enzymes | Dielectric films | Isomerization | Butanediol | Dimethyl | Feasibility studies | Materials selection | Polyester resins | Fermentation | Cobalt | Biopolymers | Monomers | Itaconic acid | Computation | Gasoline | Docking | Biocompatibility | Elongation
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Loading RightsJournal of Applied Polymer Science, ISSN 0021-8995, 11/2018, Volume 135, Issue 41, pp. 46738 - n/a
ABSTRACT High‐performing water‐dispersible polyester synthesized under facile and ecofriendly reaction conditions has gained substantial interest because it...
biodegradability | hyperbranched polyester | Bio-based | mechanical properties | BIODEGRADABLE POLYESTERS | POLYMER SCIENCE | ACID | CASTOR-OIL | MECHANICAL-PROPERTIES | S-TRIAZINE RING | ALIPHATIC POLYESTER | PHOTOCATALYTIC DEGRADATION | ELECTROCHEMICAL CORROSION | BISPHENOL-A | UNSATURATED POLYESTER | Polyols | Epoxy resins | Thermoplastics | Biodegradability | Propionic acid | Scratch resistance | Mechanical properties | Polyester resins | Dispersion | Aliphatic compounds | Citric acid | Weight | Gloss | Organic chemistry | Impact strength | Polyethylene glycol | Polyesters | Impact resistance | Volatile organic compounds--VOCs | Chemical synthesis | Elongation
biodegradability | hyperbranched polyester | Bio-based | mechanical properties | BIODEGRADABLE POLYESTERS | POLYMER SCIENCE | ACID | CASTOR-OIL | MECHANICAL-PROPERTIES | S-TRIAZINE RING | ALIPHATIC POLYESTER | PHOTOCATALYTIC DEGRADATION | ELECTROCHEMICAL CORROSION | BISPHENOL-A | UNSATURATED POLYESTER | Polyols | Epoxy resins | Thermoplastics | Biodegradability | Propionic acid | Scratch resistance | Mechanical properties | Polyester resins | Dispersion | Aliphatic compounds | Citric acid | Weight | Gloss | Organic chemistry | Impact strength | Polyethylene glycol | Polyesters | Impact resistance | Volatile organic compounds--VOCs | Chemical synthesis | Elongation
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Loading RightsJournal of Polymer Science Part A: Polymer Chemistry, ISSN 0887-624X, 11/2015, Volume 53, Issue 22, pp. 2617 - 2632
ABSTRACT In this study, biobased furan dicarboxylate polyesters have been prepared using 2,5‐furandicarboxylic acid (FDCA) and diols with high number of...
synthesis | polymerization | renewable resources | 2,5‐furan dicarboxylate polyesters | nondistillable diols | biopolymers | polyesters | furanoate | 2 5-furan dicarboxylate polyesters | MONOMERS | POLYMER SCIENCE | BEHAVIOR | POLY(BUTYLENE 2,5-FURANDICARBOXYLATE) | FURAN | 2,5-furan dicarboxylate polyesters | POLY(ETHYLENE-TEREPHTHALATE) | FDCA | 2,5-FURAN-DICARBOXYLATE | Polymerization | Glycols | Biopolymers | Analysis | Methods | Dimethyl | Boiling points | Mechanical properties | Furans | Polyester resins | Molecular weight | Diols | Methylene
synthesis | polymerization | renewable resources | 2,5‐furan dicarboxylate polyesters | nondistillable diols | biopolymers | polyesters | furanoate | 2 5-furan dicarboxylate polyesters | MONOMERS | POLYMER SCIENCE | BEHAVIOR | POLY(BUTYLENE 2,5-FURANDICARBOXYLATE) | FURAN | 2,5-furan dicarboxylate polyesters | POLY(ETHYLENE-TEREPHTHALATE) | FDCA | 2,5-FURAN-DICARBOXYLATE | Polymerization | Glycols | Biopolymers | Analysis | Methods | Dimethyl | Boiling points | Mechanical properties | Furans | Polyester resins | Molecular weight | Diols | Methylene
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Loading RightsEuropean Polymer Journal, ISSN 0014-3057, 06/2015, Volume 67, pp. 459 - 475
By using a combination of bio-based monomers (sorbitol, 1,10-decanediol and a range of dicarboxylic acids), a series of novel sorbitol-based polyesters was...
Sorbitol | Enzymatic polycondensation | Poly(ester urethane) | Coatings | Renewable polyester | POLYMERS | POLYMER SCIENCE | GLYCEROL | CATALYZED SYNTHESIS | COPOLYESTERS | ANTARCTICA LIPASE B | NETWORKS | ALIPHATIC POLYESTERS | ORGANIC MEDIA | Enzymes | Jewelry | Coating | Polyester resins | Nuclear magnetic resonance | Hydroxyl groups | Molecular weight | Diisocyanates
Sorbitol | Enzymatic polycondensation | Poly(ester urethane) | Coatings | Renewable polyester | POLYMERS | POLYMER SCIENCE | GLYCEROL | CATALYZED SYNTHESIS | COPOLYESTERS | ANTARCTICA LIPASE B | NETWORKS | ALIPHATIC POLYESTERS | ORGANIC MEDIA | Enzymes | Jewelry | Coating | Polyester resins | Nuclear magnetic resonance | Hydroxyl groups | Molecular weight | Diisocyanates
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Loading RightsMaterials Science Forum, ISSN 0255-5476, 10/2018, Volume 935, pp. 75 - 78
The article descriptions the main methods of microcapsulation one of the most promising ways of acquiring enclosed in a shell of microscopic particles of...
Polyester resins
Polyester resins
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Loading RightsAngewandte Chemie International Edition, ISSN 1433-7851, 10/2014, Volume 53, Issue 44, pp. 11900 - 11906
A new polymerization termed proton (H)‐transfer polymerization (HTP) has been developed to convert dimethacrylates to unsaturated polyesters. HTP is catalyzed...
organocatalysis | polymerization | polymers | N‐heterocyclic carbenes | polyesters | Polyesters | Polymerization | Polymers | Organocatalysis | N-heterocyclic carbenes | ORGANOCATALYTIC LIVING POLYMERIZATION | DOMINO REACTIONS | TO-TAIL DIMERIZATION | BLOCK-COPOLYMERS | METHYL-METHACRYLATE | ZWITTERIONIC POLYMERIZATION | CATALYZED REACTIONS | FRUSTRATED LEWIS PAIRS | ACRYLIC-MONOMERS | CHEMISTRY, MULTIDISCIPLINARY | RING-OPENING POLYMERIZATION | Protons | Polyesters - chemistry | Methane - analogs & derivatives | Methane - chemistry | Molecular Structure | Catalysis | Methacrylates - chemistry | Heterocyclic compounds | Polyols | Propagation (polymerization) | Converting | Unsaturated | Condensing | Crosslinking | Polyester resins | Carbenes | Monomers
organocatalysis | polymerization | polymers | N‐heterocyclic carbenes | polyesters | Polyesters | Polymerization | Polymers | Organocatalysis | N-heterocyclic carbenes | ORGANOCATALYTIC LIVING POLYMERIZATION | DOMINO REACTIONS | TO-TAIL DIMERIZATION | BLOCK-COPOLYMERS | METHYL-METHACRYLATE | ZWITTERIONIC POLYMERIZATION | CATALYZED REACTIONS | FRUSTRATED LEWIS PAIRS | ACRYLIC-MONOMERS | CHEMISTRY, MULTIDISCIPLINARY | RING-OPENING POLYMERIZATION | Protons | Polyesters - chemistry | Methane - analogs & derivatives | Methane - chemistry | Molecular Structure | Catalysis | Methacrylates - chemistry | Heterocyclic compounds | Polyols | Propagation (polymerization) | Converting | Unsaturated | Condensing | Crosslinking | Polyester resins | Carbenes | Monomers
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Loading RightsMacromolecular Rapid Communications, ISSN 1022-1336, 06/2017, Volume 38, Issue 12, pp. 1700050 - n/a
Sequence‐regulated polymerization is realized upon sequential cross‐metathesis polymerization (CMP) and exhaustive hydrogenation to afford precision aliphatic...
alternation | microstructures | metathesis | polyesters | structure–property relations | VINYL COPOLYMERS | POLYMER SCIENCE | HYDROLYSIS | MONOMER | OLEFIN METATHESIS | CATALYST | structure-property relations | SELECTIVITY | ALT-GLYCOLIC ACID | D,L-3-METHYLGLYCOLIDE | ARCHITECTURES | INSIGHTS | Polyesters - chemistry | Caproates | Polymerization | Calorimetry, Differential Scanning | Polyesters - chemical synthesis | Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization | Lactones | Chemical reactions | Mass spectrometry | Polyols | Nuclear magnetic resonance--NMR | Catalysts | Metathesis | Chains (polymeric) | Heat measurement | Rigidity | Hydrogenation | Monomers | Bearing | Spectrometry | Lasers | Water analysis | Glycolic acid | Polyesters | Spectroscopy | Differential scanning calorimetry | Decomposition reactions | Periodicity | Ions | Mass spectroscopy | Desorption | Crystallinity | Polyester resins | Glass transition temperature | Aliphatic compounds | Asymmetry | Ionization | Calorimetry | Lactic acid | Microstructure
alternation | microstructures | metathesis | polyesters | structure–property relations | VINYL COPOLYMERS | POLYMER SCIENCE | HYDROLYSIS | MONOMER | OLEFIN METATHESIS | CATALYST | structure-property relations | SELECTIVITY | ALT-GLYCOLIC ACID | D,L-3-METHYLGLYCOLIDE | ARCHITECTURES | INSIGHTS | Polyesters - chemistry | Caproates | Polymerization | Calorimetry, Differential Scanning | Polyesters - chemical synthesis | Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization | Lactones | Chemical reactions | Mass spectrometry | Polyols | Nuclear magnetic resonance--NMR | Catalysts | Metathesis | Chains (polymeric) | Heat measurement | Rigidity | Hydrogenation | Monomers | Bearing | Spectrometry | Lasers | Water analysis | Glycolic acid | Polyesters | Spectroscopy | Differential scanning calorimetry | Decomposition reactions | Periodicity | Ions | Mass spectroscopy | Desorption | Crystallinity | Polyester resins | Glass transition temperature | Aliphatic compounds | Asymmetry | Ionization | Calorimetry | Lactic acid | Microstructure
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Loading RightsProgress in Organic Coatings, ISSN 0300-9440, 10/2015, Volume 87, pp. 197 - 203
A series of bio-based unsaturated polyesters was synthesized by melt polycondensation of itaconic acid with 1,4-butanediol and glycerol. Their chemical...
Bio-based unsaturated polyester | Itaconic acid | Soybean oil | Waterborne UV-curable coatings | THERMAL-DEGRADATION | MECHANISM | FIRE RETARDANT POLYMERS | POLYURETHANE DISPERSIONS | INTUMESCENCE | CHEMISTRY, APPLIED | MATERIALS SCIENCE, COATINGS & FILMS | Coatings | Corrosion resistance | Ethyl alcohol | Curing | Polyester resins | Flexibility | Adhesion | Pencils
Bio-based unsaturated polyester | Itaconic acid | Soybean oil | Waterborne UV-curable coatings | THERMAL-DEGRADATION | MECHANISM | FIRE RETARDANT POLYMERS | POLYURETHANE DISPERSIONS | INTUMESCENCE | CHEMISTRY, APPLIED | MATERIALS SCIENCE, COATINGS & FILMS | Coatings | Corrosion resistance | Ethyl alcohol | Curing | Polyester resins | Flexibility | Adhesion | Pencils
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Loading RightsMacromolecular Rapid Communications, ISSN 1022-1336, 02/2017, Volume 38, Issue 4, pp. 1600638 - n/a
Starting from readily available oleic and erucic acid, macrocyclic nonadecalactone (C19) and tricosalactone (C23) can be synthesized in polymerization grade...
Candida antarctica lipase B | all‐aliphatic polyester material properties | enzymatic ring‐opening polymerization | macrocyclic monolides | aliphatic polymacrolactones | enzymatic ring-opening polymerization | all-aliphatic polyester material properties | POLYMERS | POLYMER SCIENCE | OILS | HIGH-MOLECULAR-WEIGHT | MACROCYCLES | ANTARCTICA LIPASE B | COMPLEXES | EPSILON-CAPROLACTONE | INITIATORS | ACID ESTERS | Fungal Proteins - chemistry | Polyesters - chemistry | Polyesters - metabolism | Polymerization | Molecular Structure | Lipase - metabolism | Lactones - metabolism | Lipase - chemistry | Fungal Proteins - metabolism | Lactones - chemistry | Enzymes | Unsaturated fatty acids | Analysis | Lactones | Polyethylenes | Synthesis (chemistry) | Catalysts | Mechanical properties | Polyester resins | Aliphatic compounds
Candida antarctica lipase B | all‐aliphatic polyester material properties | enzymatic ring‐opening polymerization | macrocyclic monolides | aliphatic polymacrolactones | enzymatic ring-opening polymerization | all-aliphatic polyester material properties | POLYMERS | POLYMER SCIENCE | OILS | HIGH-MOLECULAR-WEIGHT | MACROCYCLES | ANTARCTICA LIPASE B | COMPLEXES | EPSILON-CAPROLACTONE | INITIATORS | ACID ESTERS | Fungal Proteins - chemistry | Polyesters - chemistry | Polyesters - metabolism | Polymerization | Molecular Structure | Lipase - metabolism | Lactones - metabolism | Lipase - chemistry | Fungal Proteins - metabolism | Lactones - chemistry | Enzymes | Unsaturated fatty acids | Analysis | Lactones | Polyethylenes | Synthesis (chemistry) | Catalysts | Mechanical properties | Polyester resins | Aliphatic compounds
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Loading Rights1996, Special report (Cold Regions Research and Engineering Laboratory (U.S.)), Volume 96-3., iii, 31
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Angewandte Chemie International Edition, ISSN 1433-7851, 12/2017, Volume 56, Issue 52, pp. 16515 - 16520
Free‐radical copolymerization of cyclic ketene acetals (CKAs) and vinyl ethers (VEs) was investigated as an efficient yet simple approach for the preparation...
copolymerization | cyclic ketene acetals | biomaterials | functional polyesters | DFT calculations | DEGRADABLE POLYMERS | BIODEGRADABLE POLYESTERS | CLICK CHEMISTRY | COMBINATION | CHEMISTRY, MULTIDISCIPLINARY | ALIPHATIC POLYESTERS | CAPROLACTONE | 2-METHYLENE-1,3-DIOXEPANE | RING-OPENING POLYMERIZATION | BIOMEDICAL APPLICATIONS | Ethylene glycol | Tissue engineering | Biological products | Graft copolymers | Films | Fluorescence | Crosslinking | Vinyl ethers | Copolymerization | Fluorescent indicators | Polyester resins | Acetal copolymers | Aliphatic compounds | Nanoparticles | Copolymers | Polyethylene glycol | Predictions | Polyesters | Bacteria | Gram-negative bacteria | Ethers | Acetals | Chemical Sciences
copolymerization | cyclic ketene acetals | biomaterials | functional polyesters | DFT calculations | DEGRADABLE POLYMERS | BIODEGRADABLE POLYESTERS | CLICK CHEMISTRY | COMBINATION | CHEMISTRY, MULTIDISCIPLINARY | ALIPHATIC POLYESTERS | CAPROLACTONE | 2-METHYLENE-1,3-DIOXEPANE | RING-OPENING POLYMERIZATION | BIOMEDICAL APPLICATIONS | Ethylene glycol | Tissue engineering | Biological products | Graft copolymers | Films | Fluorescence | Crosslinking | Vinyl ethers | Copolymerization | Fluorescent indicators | Polyester resins | Acetal copolymers | Aliphatic compounds | Nanoparticles | Copolymers | Polyethylene glycol | Predictions | Polyesters | Bacteria | Gram-negative bacteria | Ethers | Acetals | Chemical Sciences
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