In particular we present evidence

for charge trapping tha

In particular we present evidence

for charge trapping that facilitates recombination in these systems. For the PCDTBT: PC(70)BM system, an initial transient photocurrent peak 5-10 mu s after turn-on is observed for operating voltages between 0.5 V and open-circuit. Furthermore, a long photocurrent tail is observed in the decay dynamics of PCDTBT: PC(70)BM devices with charge still being extracted hundreds of microseconds after turn-off. These features in the PCDTBT: PC(70)BM device are attributed to trapping and detrapping of charge on the microsecond time scale, with charge trapping facilitating Torin 1 nmr recombination either through trap-assisted recombination or space-charge effects. For the PCPDTBT: PC(70)BM system, evidence for charge trapping is also observed albeit on a faster time

scale. No initial transient photocurrent peak is observed, however the faster PCPDTBT: PC(70)BM decay dynamics show only a weak voltage dependence consistent with rapid trapping and recombination of charge. For both systems Linsitinib order the amount of extracted charge as a function of applied voltage follows a similar form to the measured current-voltage curves providing evidence that photocurrent is hampered by the extraction, and not just the separation, of charge in these systems. The origin of charge trapping and the nature of recombination is discussed, along with the influence

of additives on charge transport in the PCPDTBT: PC(70)BM system. (C) 2011 American GF120918 mw Institute of Physics. [doi:10.1063/1.3573394]“
“Mammalian spermatozoa have relatively high water permeability and swell readily, as in the hypo-osmotic swelling test used in the andrology clinic. Physiologically, spermatozoa experience changes in the osmolality of the surrounding fluids in both the male and the female tracts on their journey from the testis to the ovum. Sperm volume regulation in response to such osmotic challenges is important to maintain a stable cell size for the normal shape and function of the sperm tail. Alongside ion channels for the fluxes of osmolytes, water channels would be crucial for sperm volume regulation. In contrast to the deep knowledge and numerous studies on somatic cell aquaporins (AQPs), the understanding of sperm AQPs is limited. Among the 13 AQPs, convincing evidence for their presence in spermatozoa has been confined to AQP7, AQP8 and AQP11. Overall, current findings indicate a major role of AQP8 in water influx and efflux for sperm volume regulation, which is required for natural fertilization. The preliminary data suggestive of a role for AQP7 in sperm glycerol metabolism needs further substantiation.

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