Solvent‐Annealed Crystalline Squaraine: PC<sub>70</sub>BM (1:6) Solar Cells

Wei, Guodan; Wang, Siyi; Sun, Kai; Thompson, Mark E.; Forrest, Stephen R.

doi:10.1002/aenm.201100045

Cited by 259 publications

(213 citation statements)

References 23 publications

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“…On the other hand, mobility of electron of approximately 3.6 × 10 -4 cm 2 / Vs does not change. In summary, the overall performance of device was dramatically improved whereby a slight decrease in V oc of 0.77 V was observed, as previously reported [11,[22][23][24]. The cause of decrease in V oc is linked with the decrease in Quasi-Fermi levels for the transport of hole and electron [25,26].…”

Section: Resultssupporting

confidence: 60%

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Masood¹,

Haider²,

Nawaz³

2016

Transactions on Electrical and Electronic Materials

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The fullerene solar cells are becoming a feasible choice due to the advanced developments in donor materials and improved fabrication techniques of devices. Recently, sufficient optimization and improvements in the processing techniques like incorporation of solvent vapor annealing (SVA) with additives in solvents has become a major cause of prominent improvements in the performance of organic solar cell-based devices . On the other hand, the challenge of reduced open circuit voltage (V oc ) remains. This study presents an approach for significant performance improvement of overall device based on organic small molecular solar cells (SMSCs) by following a two step technique that comprises thermal annealing (TA) and SVA (abbreviated as SVA+TA). In case of exclusive use of SVA, reduction in V oc can be eliminated in an effective way. The characteristics of charge carriers can be determined by the measurement of transient photo-voltage (TPV) and transient photo-current (TPC) that determines the scope for improvement in the performance of device by two step annealing. The recovery of reduced V oc is linked with the necessary change in the dynamics of charge that lead to increased overall performance of device. Moreover, SVA and TA complement each other; therefore, two step annealing technique is an appropriate way to simultaneously improve the parameters such as V oc , fill factor (FF), short circuit current density (J sc ) and PCE of small molecular solar cells.

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Section: Resultssupporting

confidence: 60%

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Masood¹,

Haider²,

Nawaz³

2016

Transactions on Electrical and Electronic Materials

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“…We anticipate that optimizing the morphologies of the blend fi lms can result in improved exciton dissociation, charge transport, and charge collection, which are all closely related to the PCE and FF as discussed further. [ 89,90 ] To verify the positive effect of CH 2 Cl 2 vapor annealing on the charge transport and disclose its dependence on the structure of these small molecules, we compared the hole and electron mobilities in the actual device before and after this treatment using the SCLC method. The structures of the hole-only and electron-only devices were ITO/PEDOT/ small-molecules:PC 71 BM/MoO 3 /Al and ITO/ZnO/PFN/smallmolecules:PC 71 BM/Ca/Al, respectively.…”

Section: Resultsmentioning

confidence: 99%

Difluorobenzothiadiazole‐Based Small‐Molecule Organic Solar Cells with 8.7% Efficiency by Tuning of π‐Conjugated Spacers and Solvent Vapor Annealing

Wang

Xiao

Yan

et al. 2016

Adv Funct Materials

101

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The synthesis of a series of tetrafl uorine-substituted, wide-bandgap, small molecules consisting of various π-conjugated spacers (furan, thiophene, selenophene) between indacenodithiophene as the electron-donating core and the electron-defi cient difl uorobenzothiadiazole unit is reported and the effect of the π-conjugated spacers on the photovoltaic properties is investigated. The alteration of the π-conjugated spacer enables fi ne-tuning of the photophysical properties and energy levels of the small molecules, and allows the adjustment of the charge-transport properties, the morphology of the photoactive fi lms, as well as their photovoltaic properties. Moreover, most of these devices exhibit superior device performances after CH 2 Cl 2 solvent annealing than without annealing, with a high fi ll factor (0.70-0.75 for all cases). Notably, the devices based on the new molecule BIT4FTh (with thiophene as the spacer) show an outstanding PCE of 8.7% (with an impressive FF of 0.75), considering its wide-bandgap (1.81 eV), which is among the highest effi ciencies reported so far for small-molecules-based solar cells. The morphologies of the photoactive layers with/without CH 2 Cl 2 solvent annealing are characterized by atomic force microscopy, transmission electron microscopy and two-dimensional grazing incidence X-ray diffraction analysis. The results reported here clearly indicate that highly effi cient small-molecules-based solar cells can be achieved through rational design of their molecular structure and optimization of the phaseseparated morphology via an adapted solvent-vapor annealing process.

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“…Reports of BHJ devices using small organic molecules as donor components have recently emerged that have utilized squaraine [17], oligothiophene [18], merocyanine dyes [19][20], diketopyrrolopyrrole derivatives [21], dibenzochrysene [22], and push-pull organic dyes [23][24][25]. Progress in the field has resulted in devices exhibiting PCEs in the excess of 9% [26][27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Small molecules containing rigidified thiophenes and a cyanopyridone acceptor unit for solution-processable bulk-heterojunction solar cells

et al. 2015

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Solvent‐Annealed Crystalline Squaraine: PC₇₀BM (1:6) Solar Cells

Cited by 259 publications

References 23 publications

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Difluorobenzothiadiazole‐Based Small‐Molecule Organic Solar Cells with 8.7% Efficiency by Tuning of π‐Conjugated Spacers and Solvent Vapor Annealing

Small molecules containing rigidified thiophenes and a cyanopyridone acceptor unit for solution-processable bulk-heterojunction solar cells

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Solvent‐Annealed Crystalline Squaraine: PC70BM (1:6) Solar Cells

Cited by 259 publications

References 23 publications

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Efficiency Improvement of Organic Solar Cells Using Two-step Annealing Technique

Difluorobenzothiadiazole‐Based Small‐Molecule Organic Solar Cells with 8.7% Efficiency by Tuning of π‐Conjugated Spacers and Solvent Vapor Annealing

Small molecules containing rigidified thiophenes and a cyanopyridone acceptor unit for solution-processable bulk-heterojunction solar cells

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Resources

About

Solvent‐Annealed Crystalline Squaraine: PC₇₀BM (1:6) Solar Cells