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Volumn 287, Issue 7, 2009, Pages 811-818
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Artificial neural network prediction of glass transition temperature of polymers
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Author keywords
Artificial neural network; Density function theory; Glass transition temperature; QSPR
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Indexed keywords
ARTIFICIAL NEURAL NETWORK;
BACK-PROPAGATION ARTIFICIAL NEURAL NETWORK;
DENSITY FUNCTION THEORY;
GLASS TRANSITION TEMPERATURE;
HIGHEST OCCUPIED MOLECULAR ORBITAL;
POLARIZABILITY;
QSPR;
QUANTUM CHEMICAL DESCRIPTORS;
ROOT MEAN SQUARE ERRORS;
STEPWISE MULTIPLE LINEAR REGRESSION;
TOTAL ENTROPY;
TRAINING SETS;
BACKPROPAGATION;
GLASS;
MOLECULAR ORBITALS;
NEURAL NETWORKS;
POLYMERS;
SET THEORY;
SUPERCONDUCTING TRANSITION TEMPERATURE;
GLASS TRANSITION;
CHEMICAL COMPOUND;
POLY(1,3 DIMETHYLBUTYLACRYLATE);
POLY(2 CHLOROPHENYLACRYLATE);
POLY(2 CYANOETHYLACRYLATE);
POLY(2 CYANOHEXYLACRYLATE);
POLY(2 CYANOISOBUTYLACRYLATE);
POLY(2 CYANOISOPROPYLACRYLATE);
POLY(2 ETHOXYLCARBONYLPHENYLACRYLATE);
POLY(2 HEPTYLACRYLATE);
POLY(2 TERBUTYLPHENYLACRYLATE);
POLY(3 ETHOXYLCARBONYLPHENYLACRYLATE);
POLY(3 ETHOXYPROPYLACRYLATE);
POLY(3 METHOXYBUTYLACRYLATE);
POLY(3 METHOXYCARBONYLPHENYLACRYLATE);
POLY(4 BIPHENYLACRYLATE);
POLY(4 CHLOROPHENYLACRYLATE);
POLY(4 CYANOBENYLACRYLATE);
POLY(4 CYANOPHENYLACRYLATE);
POLY(4 METHOXYCARBONYLPHENYLACRYLATE);
POLY(4 TERBUTYLPHENYLACRYLATE);
POLY(BENZYLACRYLATE);
POLY(BUTYLACRYLATE);
POLY(DODECYLACRYLATE);
POLY(ETHYL ACRYLATE);
POLY(FLUROMETHYLACRYLATE);
POLY(HEXADECYLACRYLATE);
POLY(HEXYLACRYLATE);
POLY(ISOBUTYLACRYLATE);
POLYMER;
UNCLASSIFIED DRUG;
ARTICLE;
ARTIFICIAL NEURAL NETWORK;
ENTROPY;
GLASS TRANSITION TEMPERATURE;
MOLECULAR MECHANICS;
PRIORITY JOURNAL;
QUANTUM MECHANICS;
STATISTICAL MODEL;
THERMODYNAMICS;
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EID: 67349254158
PISSN: 0303402X
EISSN: None
Source Type: Journal
DOI: 10.1007/s00396-009-2035-y Document Type: Article |
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Times cited : (60)
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References (31)
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