17.1% Efficient Single-Junction Organic Solar Cells Enabled by n-Type Doping of the Bulk-Heterojunction
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As shown in Figure S7 Supporting Information, the optimized film with both additives shows remarkably lower Eu of 15.7 meV com- pared to 21.8 meV for the control film without additives,
It is well known that 18C6 shows a strong electronegativity and a special cavity, which can selectively complex with various metal cations and organic cations due to the existence of
a–c Optical microscope images of as-grown n-InAs0.75P0.25/n+-InP core-shell nanowires with various density and morphology with increasing temperature from 580 to 640◦C, the optical
Introduction Flexible OSCs are one of the most focused projects of solar energy study as they use lightweight materials, low cost, and simple processes.42 Besides, it is possible to
The dependences of these parameters on the gettering temperature as described above explain that the sample gettered at 800◦C show the best value, and then 750 800 850 900 0 0.5 1 1.5
Absorption spectra and Tauc plots the inset of ZnO:MoS2 composite films In order to determine the effect of MoS2 nanoparticles on electron transport, a polymer solar cell with an
In- doline dyes have previously been used in dye-sensitized solar cells with a liquid electrolyte.[9,10] There also they showed a good performance of up to g = 6.1 % conversion
This cell consists of arrays of semicon- ducting wires each with radial pn junctions, potentially enabling a separate optimization of the design requirements for light absorption and
