Junxian Liu scite author profile

The mixed caesium and formamidinium lead triiodide perovskite system (Cs1-xFAxPbI3) in the form of quantum dots (QDs) offers a new pathway towards stable perovskite-based photovoltaics and optoelectronics. However, it remains challenging to synthesize such multinary QDs with desirable properties for high-performance QD solar cells (QDSCs). Here we report an effective ligand-assisted cation exchange strategy that enables controllable synthesis of Cs1-xFAxPbI3 QDs across the whole composition range (x: 0-1), which is inaccessible in large-grain polycrystalline thin films. The surface ligands play a key role in driving the cross-exchange of cations for the rapid formation of Cs1-xFAxPbI3 QDs with suppressed defect density. The hero Cs0.5FA0.5PbI3 QDSC achieves a certified record power conversion efficiency (PCE) of 16.6% with negligible hysteresis. We further demonstrate that QD devices exhibit substantially enhanced photostability compared to their thin film counterparts because of the suppressed phase segregation, retaining 94% of the original PCE under continuous 1-sun illumination for 600 hours.

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Effect of feed spacer induced membrane deformation on the performance of pressure retarded osmosis (PRO): Implications for PRO process operation

She

Hou

Liu

et al. 2013

Journal of Membrane Science

188

142

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Surface chelation of cesium halide perovskite by dithiocarbamate for efficient and stable solar cells

et al. 2020

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Surface engineering has been shown critical for the success of perovskite solar cells by passivating the surface enriched defects and mobile species. The discovery of surface modulators with superior interaction strength to perovskite is of paramount importance since they can retain reliable passivation under various environments. Here, we report a chelation strategy for surface engineering of CsPbI 2 Br perovskite, in which dithiocarbamate molecules can be coordinate to surface Pb sites via strong bidentate chelating bonding. Such chelated CsPbI 2 Br perovskite can realize excellent passivation of surface under-coordinated defects, reaching a champion power conversion efficiency of 17.03% and an open-circuit voltage of 1.37 V of CsPbI 2 Br solar cells. More importantly, our chelation strategy enabled excellent device stability by maintaining 98% of their initial efficiency for over 1400 h in ambient condition. Our findings provide scientific insights on the surface engineering of perovskite that can facilitate the further development and application of perovskite optoelectronics.

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The gene TaWOX5 overcomes genotype dependency in wheat genetic transformation

et al. 2022

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Genotype dependency is the most important factor in wheat genetic transformation, which further limits wheat improvement by transgenic integration and genome editing approaches. The application of regeneration related genes during in vitro culture could potentially contribute to enhancement of plant transformation e ciency. In the present study, a wheat gene TaCB1 in the WUSCHEL family was identi ed to dramatically increase the transformation e ciencies of many wheat varieties without genotype dependency after its over-expression. The expression of TaCB1 in wheat calli did not prohibit shoot differentiation and root development. The application of TaCB1 can lighten the requirement to wheat immature embryo for plant regeneration. Transgenic wheat plants can be clearly recognized by the visible phenotype of wide ag leaves. The promise function of TaCB1 on improving transformation e ciency was also tested in T. monococcum, triticale, rye, barley, and maize.

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In Vivo Blood Glucose Quantification Using Raman Spectroscopy

et al. 2012

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We here propose a novel Raman spectroscopy method that permits the noninvasive measurement of blood glucose concentration. To reduce the effects of the strong background signals produced by surrounding tissue and to obtain the fingerprint Raman lines formed by blood analytes, a laser was focused on the blood in vessels in the skin. The Raman spectra were collected transcutaneously. Characteristic peaks of glucose (1125 cm-1) and hemoglobin (1549 cm-1) were observed. Hemoglobin concentration served as an internal standard, and the ratio of the peaks that appeared at 1125 cm-1 and 1549 cm-1 peaks was used to calculate the concentration of blood glucose. We studied three mouse subjects whose blood glucose levels became elevated over a period of 2 hours using a glucose test assay. During the test, 25 Raman spectra were collected transcutaneously and glucose reference values were provided by a blood glucose meter. Results clearly showed the relationship between Raman intensity and concentration. The release curves were approximately linear with a correlation coefficient of 0.91. This noninvasive methodology may be useful for the study of blood glucose in vivo.

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Junxian Liu

Ligand-assisted cation-exchange engineering for high-efficiency colloidal Cs1−xFAxPbI3 quantum dot solar cells with reduced phase segregation

Effect of feed spacer induced membrane deformation on the performance of pressure retarded osmosis (PRO): Implications for PRO process operation

Surface chelation of cesium halide perovskite by dithiocarbamate for efficient and stable solar cells

The gene TaWOX5 overcomes genotype dependency in wheat genetic transformation

In Vivo Blood Glucose Quantification Using Raman Spectroscopy

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