Chieh‐Szu Huang scite author profile

Non-fullerene acceptors based organic solar cells represent the frontier of the field, owing to both the materials and morphology manipulation innovations. Non-radiative recombination loss suppression and performance boosting are in the center of organic solar cell research. Here, we developed a non-monotonic intermediate state manipulation strategy for state-of-the-art organic solar cells by employing 1,3,5-trichlorobenzene as crystallization regulator, which optimizes the film crystallization process, regulates the self-organization of bulk-heterojunction in a non-monotonic manner, i.e., first enhancing and then relaxing the molecular aggregation. As a result, the excessive aggregation of non-fullerene acceptors is avoided and we have achieved efficient organic solar cells with reduced non-radiative recombination loss. In PM6:BTP-eC9 organic solar cell, our strategy successfully offers a record binary organic solar cell efficiency of 19.31% (18.93% certified) with very low non-radiative recombination loss of 0.190 eV. And lower non-radiative recombination loss of 0.168 eV is further achieved in PM1:BTP-eC9 organic solar cell (19.10% efficiency), giving great promise to future organic solar cell research.

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Adsorption of the Gas Molecules NH₃, NO, NO₂, and CO on Borophene

Huang

et al. 2018

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Two-dimensional materials can be utilized to detect gas molecules in low concentration due to their high surface-to-volume ratios. In this respect, we investigate in the present work recently fabricated borophene, two-dimensional B, which has buckled and line-defective phases. Both are systematically studied for four gas molecules: NH3, NO, NO2, and CO. In each case, the adsorption energy is found to be high and borophene develops distinct wrinkles. Our results provide a thorough understanding of the interaction between borophene and the gas molecules. An excellent performance of borophene as gas sensor is demonstrated by simulating the material’s transport characteristics by means of the nonequilibrium Green’s function method.

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Luminescent solar concentrators based on melt-spun polymer optical fibers

et al. 2020

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Nano-domains assisted energy transfer in amphiphilic polymer conetworks for wearable luminescent solar concentrators

et al. 2020

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Chieh‐Szu Huang

19.31% binary organic solar cell and low non-radiative recombination enabled by non-monotonic intermediate state transition

Adsorption of the Gas Molecules NH₃, NO, NO₂, and CO on Borophene

Luminescent solar concentrators based on melt-spun polymer optical fibers

Nano-domains assisted energy transfer in amphiphilic polymer conetworks for wearable luminescent solar concentrators

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Chieh‐Szu Huang

19.31% binary organic solar cell and low non-radiative recombination enabled by non-monotonic intermediate state transition

Adsorption of the Gas Molecules NH3, NO, NO2, and CO on Borophene

Luminescent solar concentrators based on melt-spun polymer optical fibers

Nano-domains assisted energy transfer in amphiphilic polymer conetworks for wearable luminescent solar concentrators

Contact Info

Product

Resources

About

Adsorption of the Gas Molecules NH₃, NO, NO₂, and CO on Borophene