Keywords: تحرک رانش سوراخ; Star-shaped triphenylamine derivatives; Molecular glasses; Hole drift mobility; Organic light emitting diodes;
مقالات ISI تحرک رانش سوراخ (ترجمه نشده)
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Keywords: تحرک رانش سوراخ; Twin derivative; Carbazole; Amorphous material; Ionization potential; Hole drift mobility; Light emitting diode
Keywords: تحرک رانش سوراخ; Triphenylamine star-shaped molecule; Glass transition; Hole drift mobility; Solid-state dye sensitized solar cells
9,9â²-bis(2,2-diphenylvinyl)[3,3â²]bicarbazole as low cost efficient hole transporting material for application in red PhOLEDs
Keywords: تحرک رانش سوراخ; Bicarbazole derivative; Amorphous material; Glass transition temperature; Ionization potential; Hole drift mobility; Light emitting diode;
Monomers and oligomers with the pendent adducts of carbazole with 5H-dibenz(b,f)azepine and its 10,11-dihydro derivative
Keywords: تحرک رانش سوراخ; Carbazole; Dibenzazepine; Hole drift mobility; Ionization potential;
Phenyl-, carbazolyl- and fluorenyl-substituted derivatives of indolo[3,2-b]carbazole as hole-transporting glass forming materials
Keywords: تحرک رانش سوراخ; Indolo[3,2-b]carbazole; Molecular glass; Ionization potential; Hole drift mobility;
Indole and phenylenediamine based enamines as amorphous hole-transporting materials
Keywords: تحرک رانش سوراخ; Electro-active material; Enamine; Hole drift mobility; Ionization potential; Light emitting diode
Phenoxazine and N-phenyl-1-naphtylamine-based enamines as hole-transporting glass-forming materials
Keywords: تحرک رانش سوراخ; Electro-active material; Enamine; Hole drift mobility; Ionization potential;
N-(2,2-Diphenylvinyl)-N,N′-diphenylbenzidine-based derivatives as hole-transporting glass-forming materials
Keywords: تحرک رانش سوراخ; Enamine; Electroactive material; Hole drift mobility; Ionization potential
Monomers and polymers of indole-based enamines as amorphous electro-active materials
Keywords: تحرک رانش سوراخ; Indole; Enamine; Monomer; Electro-active material; Hole drift mobility; Ionization potential;
Synthesis of new hole-transporting molecular glass with pendant carbazolyl moieties
Keywords: تحرک رانش سوراخ; Carbazole; Molecular glass; Hole drift mobility; Ionization potential; Electrophotography
Well-defined [3,3′]bicarbazolyl-based electroactive compounds for optoelectronics
Keywords: تحرک رانش سوراخ; Bicarbazolyl; Aromatic amine; Molecular glass; Ionization potential; Hole drift mobility
Carbazole-based aromatic amines having oxetanyl groups as materials for hole transporting layers
Keywords: تحرک رانش سوراخ; Aromatic amine; Carbazole; Hole drift mobility; Ionisation potential
Molecular glasses possessing a phenyl-1,2,3,4-tetrahydroquinoline moiety as hole transporting materials for electrophotography
Keywords: تحرک رانش سوراخ; Hydrazone; 1-Phenyl-1,2,3,4-tetrahydroquinoline; Molecular glasses; Charge transport; Hole drift mobility
Indolyl-substituted carbazole derivatives as amorphous electro-active materials for optoelectronics
Keywords: تحرک رانش سوراخ; Aromatic amine; Hydrazone; Molecular glass; Hole drift mobility; Ionisation potential
Phenotiazinyl-based hydrazones as new hole-transporting materials for electrophotographic photoreceptors
Keywords: تحرک رانش سوراخ; Phenothiazine; Hydrazone; Hole drift mobility; Ionisation potential
Hole-transporting [3,3′]bicarbazolyl-based polymers and well-defined model compounds
Keywords: تحرک رانش سوراخ; Bicarbazolyl; Polymer; Model compound; Ionisation potential; Hole drift mobility
New branched hydrazones as hole transporting materials
Keywords: تحرک رانش سوراخ; Conducting materials; Hole drift mobility; Hydrazones; Molecular glasses;
Phenothiazinyl-containing aromatic amines as novel amorphous molecular materials for optoelectronics
Keywords: تحرک رانش سوراخ; Amorphous material; Ï-Electron system; Hole drift mobility; Ionisation potential;