Y. Franghiadakis scite author profile

We examine the dark and the illuminated current–voltage (J–V) characteristics of poly(3-octylthiophene) (P3OT)/single-wall carbon nanotube (SWNT) composite photovoltaic cells as a function of SWNT concentration. Using an exponential band tail model, the influence of SWNT concentration on the J–V characteristics of the cells is analysed in terms of corresponding parameters such as effective hole mobility, short-circuit current, and open-circuit voltage. For the device with optimum 1% SWNT concentration, the increased photoresponse (∼500 times) as compared to the pristine P3OT cell can be attributed partly to the increase (∼50 times) in effective hole mobility, due to the reduction of localized states of the pristine P3OT matrix, and partly to the enhanced exciton extraction at the polymer/nanotube junctions.

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Carbon nanotube/PEDOT:PSS electrodes for organic photovoltaics

Kymakis

Klapsis

Koudoumas

et al. 2006

Eur. Phys. J. Appl. Phys.

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Modeling the photovoltaic potential of a site

et al. 2010

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Energy distribution of ions produced by excimer-laser ablation of solid and molten targets

Franghiadakis¹,

Fotakis

Tzanétakis

1999

Applied Physics A: Materials Science & Processing

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Technical Note: Improved total atmospheric water vapour amount determination from near-infrared filter measurements with sun photometers

Mavromatakis

Gueymard²,

Franghiadakis

2007

Atmos. Chem. Phys.

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Abstract. In this work we explore the effect of the contribution of the solar spectrum to the recorded signal in wavelengths outside the typical 940-nm filter's bandwidth. We employ gaussian-shaped filters as well as actual filter transmission curves, mainly AERONET data, to study the implications imposed by the non-zero out-of-band contribution to the coefficients used to derive precipitable water from the measured water vapour band transmittance. Published parameterized transmittance functions are applied to the data to determine the filter coefficients. We also introduce an improved, three-parameter, fitting function that can describe the theoretical data accurately, with significantly less residual effects than with the existing functions. The moderateresolution SMARTS radiative transfer code is used to predict the incident spectrum outside the filter bandpass for different atmospheres, solar geometries and aerosol optical depths. The high-resolution LBLRTM radiative transfer code is used to calculate the water vapour transmittance in the 940-nm band. The absolute level of the out-of-band transmittance has been chosen to range from 10 −6 to 10 −4 , and typical response curves of commercially available silicon photodiodes are included into the calculations.It is shown that if the out-of-band transmittance effect is neglected, as is generally the case, then the derived columnar water vapour is mainly underestimated by a few percents. The actual error depends on the specific out-of-band transmittance, optical air mass of observation and water vapour amount. Further investigations will use experimental data from field campaigns to validate these findings.

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Y. Franghiadakis

Effective mobility and photocurrent in carbon nanotube–polymer composite photovoltaic cells

Carbon nanotube/PEDOT:PSS electrodes for organic photovoltaics

Modeling the photovoltaic potential of a site

Energy distribution of ions produced by excimer-laser ablation of solid and molten targets

Technical Note: Improved total atmospheric water vapour amount determination from near-infrared filter measurements with sun photometers

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