Liang Li scite author profile

Minimization of defects in absorber materials is essential for hybrid perovskite solar cells, especially when constructing thick polycrystalline layers in a planar configuration. Here, a simple methylamine solution-based additive is reported to improve film quality with nearly an order of magnitude reduction in intrinsic defect concentration. In the resultant film, an increase in carrier lifetime as a result of a decrease in shallow electronic disorder is observed. This superior crystalline film quality is further evidenced via a doubled spin relaxation time as compared with other reports. Bearing sufficient carrier diffusion length, a thick absorber layer (≈650 nm) is implemented in planar devices to achieve a champion power conversion efficiency of 20.02% with a stabilized output efficiency of 19.01% under one sun illumination. This work demonstrates a simple approach to improve hybrid perovskite film quality by substantial reduction of intrinsic defects for wide applications in optoelectronics.

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Immune modulatory function of abundant immune-related microRNAs in microvesicles from bovine colostrum

Sun

et al. 2013

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Colostrum provides essential nutrients and immunologically active factors that are beneficial to newborns. Our previous work demonstrated that milk contains large amounts of miRNA that is largely stored in milk-derived microvesicles (MVs). In the present study, we found that the MVs from colostrum contain signifi cantly higher levels of several immune-related miRNAs. We hypothesized that the colostrum MVs may transfer the immune-related miRNAs into cells, which contribute to its immune modulatory feature. We isolated colostrum MVs by ultracentrifugation and demonstrated several immune modulation features associated with miRNAs. We also provide evidence that the physical structure of milk-derived MVs is essential for transfer miRNAs and following immune modulation effect. Moreover, we found that colostrum powder-derived MVs also contains higher levels of immune-related miRNAs that display similar immune modulation effects. Taken together, these results show that MV-containing immunerelated miRNAs may be a novel mechanism by which colostrum modulates body immune response.

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Liquid medium annealing for fabricating durable perovskite solar cells with improved reproducibility

Niu

et al. 2021

Science

292

155

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Solution processing of semiconductors is highly promising for the high-throughput production of cost-effective electronics and optoelectronics. Although hybrid perovskites have potential in various device applications, challenges remain in the development of high-quality materials with simultaneously improved processing reproducibility and scalability. Here, we report a liquid medium annealing (LMA) technology that creates a robust chemical environment and constant heating field to modulate crystal growth over the entire film. Our method produces films with high crystallinity, fewer defects, desired stoichiometry, and overall film homogeneity. The resulting perovskite solar cells (PSCs) yield a stabilized power output of 24.04% (certified 23.7%, 0.08 cm2) and maintain 95% of their initial power conversion efficiency (PCE) after 2000 hours of operation. In addition, the 1-cm2 PSCs exhibit a stabilized power output of 23.15% (certified PCE 22.3%) and keep 90% of their initial PCE after 1120 hours of operation, which illustrates their feasibility for scalable fabrication. LMA is less climate dependent and produces devices in-house with negligible performance variance year round. This method thus opens a new and effective avenue to improving the quality of perovskite films and photovoltaic devices in a scalable and reproducible manner.

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The intrinsic properties of FA_(1−x)MA_xPbI₃ perovskite single crystals

et al. 2017

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Convincing Synthesis of Atomically Thin, Single-Crystalline InVO₄ Sheets toward Promoting Highly Selective and Efficient Solar Conversion of CO₂ into CO

et al. 2019

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Atomically thin, single-crystalline InVO 4 sheets with the uniform thickness of ∼1.5 nm were convincingly synthesized, which was identified with strong, low-angle X-ray diffraction peaks. The InVO 4 atomic layer corresponding to 3 unit cells along [110] orientation exhibits highly selective and efficient photocatalytic conversion of CO 2 into CO in the presence of water vapor. Surface potential change measurement and liquid photoluminescence decay spectra confirm that the atomically ultrathin structure can shorten the transfer distance of charge carriers from the interior onto the surface and decrease the recombination in body. It thus allows more electrons to survive and accumulate on the surface, which is beneficial for activation and reduction of CO 2 . In addition, exclusively exposed {110} facet of the InVO 4 atomic layer was found to bind the generating CO weakly, facilitating quick desorption from the catalyst surface to form free CO molecules, which provides an ideal platform to catalytically selective CO product.

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Liang Li

Chemical Reduction of Intrinsic Defects in Thicker Heterojunction Planar Perovskite Solar Cells

Immune modulatory function of abundant immune-related microRNAs in microvesicles from bovine colostrum

Liquid medium annealing for fabricating durable perovskite solar cells with improved reproducibility

The intrinsic properties of FA_(1−x)MA_xPbI₃ perovskite single crystals

Convincing Synthesis of Atomically Thin, Single-Crystalline InVO₄ Sheets toward Promoting Highly Selective and Efficient Solar Conversion of CO₂ into CO

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Liang Li

Chemical Reduction of Intrinsic Defects in Thicker Heterojunction Planar Perovskite Solar Cells

Immune modulatory function of abundant immune-related microRNAs in microvesicles from bovine colostrum

Liquid medium annealing for fabricating durable perovskite solar cells with improved reproducibility

The intrinsic properties of FA(1−x)MAxPbI3 perovskite single crystals

Convincing Synthesis of Atomically Thin, Single-Crystalline InVO4 Sheets toward Promoting Highly Selective and Efficient Solar Conversion of CO2 into CO

Contact Info

Product

Resources

About

The intrinsic properties of FA_(1−x)MA_xPbI₃ perovskite single crystals

Convincing Synthesis of Atomically Thin, Single-Crystalline InVO₄ Sheets toward Promoting Highly Selective and Efficient Solar Conversion of CO₂ into CO