Synthesis and computational oxidation mechanism study of novel organosoluble aramids with high modulus by low-temperature solution polycondensation

Journal of Polymer Science, Part A: Polymer Chemistry

Volumn 48, Issue 24, 2010, Pages 5659-5669

  Chang, Cheng Hung ^a   Wang, Kun Li ^b   Jiang, Jyh Chiang ^a   Liaw, Der Jang ^a   Lee, Kueir Rarn ^c   Lai, Juin Yih ^c   Chiu, Kuo Yuan ^d   Su, Yuhlong Oliver ^d,e  

^a NATIONAL TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Taiwan)

^b NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY   (Taiwan)

^c CHUNG YUAN CHRISTIAN UNIVERSITY   (Taiwan)

^d NATIONAL CHI NAN UNIVERSITY   (Taiwan)

^e NATIONAL CHUNG HSING UNIVERSITY   (Taiwan)

Author keywords

aramid; computational oxidation mechanism; high modulus; solubility

Indexed keywords

ACETONITRILE SOLUTIONS; APPLIED POTENTIALS; ARAMID; COATED GLASS SUBSTRATES; COLOR CHANGES; COMPUTATIONAL OXIDATION MECHANISM; COMPUTATIONAL STUDIES; DIACID CHLORIDES; ELECTROCHROMICS; HIGH MODULUS; INDIUM TIN OXIDE; LOW TEMPERATURES; MOLECULAR ORBITAL THEORY; NEAR INFRARED REGION; NEUTRAL STATE; ORGANOSOLUBLE; OXIDATION MECHANISMS; OXIDIZED STATE; POLYAMIDE FILMS; REVERSIBLE REDOX COUPLES; SOLUTION POLYCONDENSATION; TRIARYLAMINES; VISIBLE RANGE;

ACETONITRILE; AMIDES; AMORPHOUS FILMS; CHLORINE COMPOUNDS; COLOR FILMS; CYCLIC VOLTAMMETRY; INDIUM COMPOUNDS; INFRARED DEVICES; ITO GLASS; MOLECULAR ORBITALS; OXIDATION; OXIDE FILMS; POLYCONDENSATION; POLYMERS; SOLUBILITY; SUBSTRATES; TIN; TIN OXIDES;

POLYMER FILMS;

EID: 78649608329     PISSN: 0887624X     EISSN: 10990518     Source Type: Journal    
DOI: 10.1002/pola.24339     Document Type: Article

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