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DSSC

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solar history
Historic evolution of the solar cell technology, starting from the electrolyte-based mesoscopic DSSC,8 the ssDSSC where the electrolyte is replaced with an organic p-type hole conductor,32,57the ETA cell where the dye is replaced with an ETA semiconductor layer,27,58 to the MSSC,15 where the ETA is replaced with a perovskite absorber and the n-type TiO2 is replaced with a porous insulating scaffold. Three likely future directions for the perovskite technology are indicated: (i) porous perovskite distributed p−n heterojunction solar cells, where the Al2O3 is removed but the perovskite is directly structured to give a porous film subsequently filled in with a charge conductor, (ii) thin-film p−i−n perovskite solar cells where no porosity is required and the device takes on the structure of an intrinsic, or at least ambipolar, thin perovskite film sandwiched between p- and n- type charge-extracting contacts, or (iii) semiconductor MSSCs, where any solution-processed semiconductor, such as SbS,27 can be...
1.39 MB 2022-11-18
structure comparison of DSSC in different generation.
1.31 MB 2022-12-17
The Anode And Cathode Of 30 X 60cm Dssc Before Firing
45.17 KB 2023-01-28
The Asscembled 30 X 60 Cm Dssc
39.19 KB 2023-01-28
The Asscembled 30 X 60 Cm Dssc2
43.48 KB 2023-01-28
The equation of conversion efficiency of DSSC
80.33 KB 2022-12-17
The Etched Anode And Counter Electrode Of DSSC6030
20.08 KB 2023-04-14
The Prepared Pt And Tio2 Electrodes
32.63 KB 2023-04-14
TiO2 laser sintering with 1064nm laser 01
520.97 KB 2022-12-17
TiO2 laser sintering with 1064nm laser 02
495.87 KB 2022-12-17
TiO2 sintering temperature curve
189.81 KB 2022-12-17
Uv Curing The Fto Glasses Applied With Photoresist
38.21 KB 2023-04-14
Voltage Test Of Dssc6030
54.02 KB 2023-04-14

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