2003
DOI: 10.1063/1.1600829
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Photogenerated charge carrier transport in p-polymer n-polymer bilayer structures

Abstract: We investigate polymer bilayer structures that can be utilized effectively for efficient photovoltaic properties. The transport characteristics of photogenerated free charge carriers across the interface of a bilayer consisting of p-type polymer poly(3-octyl thiophene) (P3OT) or poly(2-methoxy, 5-(2-ethylhexoxy)-1, 4-phenylene vinylene) (MEHPPV) and n-type polymer poly(benzamidazobenzo phenanthroline) (BBL) are studied using photocurrent spectral response, intensity modulated photocurrent spectra, current-volt… Show more

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Cited by 35 publications
(36 citation statements)
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“…Such behavior can be accounted for by the well-known antibatic characteristics by the internal filter effect. [38][39][40][41][42][43] The relationship between photocurrent and absorption spectra can be classified as one of two types for organic semiconductors: symbatic and antibatic. If the maximum photocurrent is obtained for the most strongly absorbed light, the photocurrent response is said to be symbatic with the absorption spectrum.…”
Section: Resultsmentioning
confidence: 99%
“…Such behavior can be accounted for by the well-known antibatic characteristics by the internal filter effect. [38][39][40][41][42][43] The relationship between photocurrent and absorption spectra can be classified as one of two types for organic semiconductors: symbatic and antibatic. If the maximum photocurrent is obtained for the most strongly absorbed light, the photocurrent response is said to be symbatic with the absorption spectrum.…”
Section: Resultsmentioning
confidence: 99%
“…However, this bilayer structure did not result in higher efficiency and is probably limited by the presence of defects at the bilayer junctions. [32] Efforts are ongoing to control the concentration gradient of the LC polymer vertically (with maximum concentration at the anode and a greater amount of CNPPV at the cathode end) to minimize the LC/CNPPV interface. Vertically segregated blends for this kind of system can form an optimized structure for photovoltaic devices, where the relative position of the phases plays an major role in improving the transport of charge carriers.…”
Section: Gupta Et Al/graded-bandgap Polymers For Photovoltaic Cellsmentioning
confidence: 99%
“…However, previous studies that have employed this technique have generally used it only to characterize the response time of polymer devices, with little further analysis of the observed dynamics. 12,13 An exception is the study by Rappaport et al 14 where step function measurements were used to study the timescales for transport of charges through the device. However, this study was concerned with charge transport through an unblended polymer film rather than the dynamics of bulk-heterojunction solar cells under continuous illumination.…”
Section: Introductionmentioning
confidence: 99%