L. Górecki scite author profile

Polyazomethine (OFBF-TPA) based on triphenylamine (TPA) and octafluorobiphenyl (OFBF) moieties was tested as donor-acceptor (D-A) for bulk heterojunction polymeric solar cells. The temperatures of 5% weight loss (T 5% ) of the polyazomethine range from 323 to 328 C, depending on the gas used (air and nitrogen). The conductivity of OFBF-TPA was approximately 10 À10 S/cm for not annealed sample and at about 10 À6 S/cm for the ones annealed at room temperature, as determined by impedance spectroscopy. Surface of the polymer and mixture polymer-[6,6]-phenyl C 61 butyric acid methyl ester (PCBM) was smooth with the R ms value in the range 0.58-1.95 nm as was detected by the atomic force microscopy (AFM) technique. UV-vis spectrum of the mixture OFBF-TPA-PCBM exhibited higher absorption intensity than the UV-vis spectrum of OFBF-TPA lacking PCBM. The thin solid film of OFBF-TPA and OFBF-TPA-PCBM showed one main absorption band with a maximum peak at 414 and 411 nm, respectively. For the mixture OFBF-TPA-PCBM, the second absorption band at 333 nm was found. No influence of annealing on the absorption properties was observed. The polymer solar cell devices were fabricated by spin coating the blend solution of the OFBF-TPA and PCBM and investigated in dark and under an illumination of 100 mW/cm 2 , with an AM1.5 G. Electrical behavior of the device indium tin oxide (ITO)/poly(3,4-ethylenedioxythiophene) (PEDOT)-poly(styrenesulfonate) (PSS)/OFBF-TPA-PCBM/Al was tested by impedance spectroscopy in dark and under illumination. For all measured devices, Nyquist plots were presented. The annealing significantly improved the electrical conductivity of the investigated devices. Electrical and photovoltaic properties of OFBF-TPA were compared with the properties of polyazomethine based on TPA and fluorene moieties (F-TPA).

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Electrochemical properties of PEM fuel cells based on Nafion–polybenzimidazole–imidazole hybrid membranes

Malinowski

Iwan

Parafiniuk

et al. 2015

International Journal of Hydrogen Energy

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TGA/DTG/DSC investigation of thermal ageing effects on polyamide–imide enamel

Górnicka

Górecki

2010

J Therm Anal Calorim

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Thermoanalytical investigations TGA/DTG/ DSC of polyamide-imide enamel after thermal ageing have been presented. The lifetimes at 260, 270, 280, 290, 300°C were determined. The thermograms of the enamels after attaining of their lifetimes much depend on the ageing temperature. The temperatures of 5% loss of mass that much increase after thermal ageing appear the most sensitive indicator of ageing rate. The residue of mass at 800°C increases after ageing, even to 27%, due to diffusion of copper ions from the conductor into enamel during annealing. The copper contents in aged coatings could be also an indicator of ageing rate.

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L. Górecki

Opto(electrical) properties of new aromatic polyazomethines with fluorene moieties in the main chain for polymeric photovoltaic devices

New air-stable aromatic polyazomethines with triphenylamine or phenylenevinylene moieties towards photovoltaic application

Opto(electrical) properties of triphenylamine-based polyazomethine and its blend with [6,6]-phenyl C₆₁ butyric acid methyl ester

Electrochemical properties of PEM fuel cells based on Nafion–polybenzimidazole–imidazole hybrid membranes

TGA/DTG/DSC investigation of thermal ageing effects on polyamide–imide enamel

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L. Górecki

Opto(electrical) properties of new aromatic polyazomethines with fluorene moieties in the main chain for polymeric photovoltaic devices

New air-stable aromatic polyazomethines with triphenylamine or phenylenevinylene moieties towards photovoltaic application

Opto(electrical) properties of triphenylamine-based polyazomethine and its blend with [6,6]-phenyl C61 butyric acid methyl ester

Electrochemical properties of PEM fuel cells based on Nafion–polybenzimidazole–imidazole hybrid membranes

TGA/DTG/DSC investigation of thermal ageing effects on polyamide–imide enamel

Contact Info

Product

Resources

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Opto(electrical) properties of triphenylamine-based polyazomethine and its blend with [6,6]-phenyl C₆₁ butyric acid methyl ester