PEDOT:PSS polymeric conducting anode for admittance spectroscopy

“…[10][11][12][13] Generally, the device structure is anode/organic layer/cathode. To measure a reliable hole mobility, an ohmic contact is required between the anode and organic layer.…”

Using admittance spectroscopy to quantify transport properties of P3HT thin films

“…[10][11][12][13] Generally, the device structure is anode/organic layer/cathode. To measure a reliable hole mobility, an ohmic contact is required between the anode and organic layer.…”

Using admittance spectroscopy to quantify transport properties of P3HT thin films

“…It indicates that the incorporation of PFD made a contribution to the enhancement of electron mobility, leading to a higher J sc and FF. We extracted electron mobility at a typical applied voltage of 1 V using the spacecharge limited circuit model [41][42][43]. For Device A with pristine TiO 2 layer and the optimal Device C, electron mobilities were calculated to be 2.36 Â 10 À5 cm 2 V À1 s À1 and 2.8 Â 10 À5 cm 2 V À1 s À1 , respectively.…”

Employing inorganic/organic hybrid interface layer to improve electron transfer for inverted polymer solar cells

“…All of these polymers show that the energy of HOMO is about À 4.71 to À 4.93 eV according to the calculations. Comparing with N,N 0 -bis(naphthyl)-N,N 0 -diphenyl-1,1 0 -biphenyl-4,4 0 -diamine (NPB), which is a well-known hole-transporting material with E HOMO about À 5.2 eV [18][19][20][21], it can be found that the values of HOMO in the polymers are higher than the ones of NPB, so hole carrier can be injected easily into these molecules. The HOMO energy level of P2 is the highest amongst three polymers, indicating that the tert-butyl groups at the 3,6-positions in P2 have significantly improved the hole-creating properties of the polymer.…”

Theoretical study on alkyne-linked carbazole polymers for blue-light multifunctional materials