Synthesis and characterization of fluorescent polyphenol species derived from methyl substituted aminopyridine based Schiff bases: The effect of substituent position on optical, electrical, electrochemical, and fluorescence properties

Synthetic Metals

Volumn 160, Issue 9-10, 2010, Pages 911-920

  Kaya, Ismet ^a   Yildirim, Mehmet ^a   Avci, Ali ^a  

^a ÇANAKKALE ONSEKIZ MART UNIVERSITY   (Turkey)

Author keywords

Band gap; Conductivity; Cyclic voltammetry; Fluorescence; Pyridine; Schiff base polymers

Indexed keywords

AMINOPYRIDINES; BAND GAP; BAND GAPS; CONCENTRATED SOLUTION; CONDUCTIVITY; DIFFERENT SOLVENTS; ELECTRICAL CONDUCTIVITY; ELECTRICAL PROPERTY; FLUORESCENCE MEASUREMENTS; FLUORESCENCE PROPERTIES; FOUR-POINT PROBE TECHNIQUES; GAS SENSORS; HIGH THERMAL STABILITY; HOMO-LUMO ENERGIES; KEITHLEY; LOW BAND GAP; METHYL GROUP; OPTIMUM CONCENTRATION; OPTO-ELECTRONICS; OXIDATIVE POLYMERIZATION; PHOTOLUMINESCENCE PROPERTIES; PHOTOVOLTAIC APPLICATIONS; PL INTENSITY; POLYPHENOLS; PYRIDINE RINGS; SCHIFF BASE POLYMERS; SCHIFF BASIS; SOLUBILITY TEST; SYNTHESIS AND CHARACTERIZATION; SYNTHESIZED MATERIALS;

AEROSPACE APPLICATIONS; ELECTRIC CONDUCTIVITY; ELECTROCHEMICAL PROPERTIES; ENERGY GAP; FLUORESCENCE; FUNCTIONAL GROUPS; HYDROCARBONS; INDUSTRIAL CHEMICALS; IODINE; OPTICAL PROPERTIES; ORGANIC POLYMERS; PHENOLS; POLYMERS; PYRIDINE; SULFUR COMPOUNDS; SYNTHESIS (CHEMICAL);

CYCLIC VOLTAMMETRY;

EID: 77950954179     PISSN: 03796779     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.synthmet.2010.01.044     Document Type: Article

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