Lei Zhao scite author profile

Lei Zhao

5Publications

8Citation Statements Received

141Citation Statements Given

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277

140

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Yunnan Agricultural University

Publications

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Beyond the Limit of Goldschmidt Tolerance Factor: Crystal Surface Engineering to Boost the α‐Phase Stability of Formamidinium‐Only Hybrid Inorganic–Organic Perovskites

Chu

Sun

et al. 2021

Solar RRL

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Hybrid inorganic−organic perovskites (HIOPs) have the widest absorption range and the highest power conversion efficiency. Among HIOPs, formamidinium lead iodide (FAPbI3) has a wider absorption range and better thermal and light stability. Unfortunately, the photovoltaic active α‐phase of FAPbI3 transforms into its δ‐phase within several hours in ambient environment. Although partly sublimation of FA+ with smaller cations can stabilize α‐FAPbI3, the multication systems suffer cation segregation and phase separation in long‐term use. Herein, a crystal surface engineering strategy to stabilize α‐FAPbI3 is developed. It is found that even introducing 1 mol% carboxylate anion can drastically improve the phase stability and operational stability of α‐FAPbI3 in the ambient environment (r.h. 50%, 25 °C). After 1 month of exposure to air, the phase change of α‐FAPbI3 is negligible. A detailed study indicates that the introduction of carboxylate anions prevents the water corroding the crystal surface and relaxes the strain in the crystals by increasing orientation diversity. The improved operational stability of the HIOPs arises from the intrinsic stability of pure formamidinium recipe and the stronger hydrogen bond between formamidinium and carboxylate. It not only provides a perovskite material for high‐performance solar cells, but also deepens the understanding of the phase stability of HIOPs.

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Theabrownin Isolated from Pu-Erh Tea Enhances the Innate Immune and Anti-Inflammatory Effects of RAW264.7 Macrophages via the TLR2/4-Mediated Signaling Pathway

Zhao

Miao

Shan

et al. 2023

Foods

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Theabrownin (TB) is a tea pigment extracted from Pu-erh Tea. The effects of TB on innate immunity and inflammation are not well understood. Herein, the effects of TB on innate immunity are investigated using RAW264.7 macrophages. We found that TB promoted the proliferation of RAW264.7 macrophages, altered their morphology, enhanced their pinocytic and phagocytic ability, and significantly increased their secretion of nitric oxide (NO) and cytokines, all of which enhanced the immune response. Additionally, TB inhibited the release of inflammatory signals in RAW264.7 macrophages primed with lipopolysaccharide (LPS), implying that TB modulates the excessive inflammation induced by bacterial infection. A Western blot showed that TB could activate the toll-like receptor (TLR)2/4-mediated myeloid differentiation factor 88 (MyD88)-dependent mitogen activated protein kinase (MAPK) and nuclear factor-κB (NF-κB) signaling pathway and the TLR2-mediated phosphoinositide 3-kinase (PI3K)–AKT signaling pathway, enhancing the immune functions of RAW264.7 macrophages. TB also inhibited the phosphorylation of core proteins in the MAPK/NF-κB/PI3K–AKT signaling pathway induced by LPS. In addition, we analyzed the transcriptomes of RAW264.7 macrophages, and a Kyoto encyclopedia of genes and genomes (KEGG) enrichment analysis revealed that TB modulated thetoll-like receptor signal pathway. A gene ontology (GO) enrichment analysis indicated that TB treatment strongly modulated the immune response and inflammation. As a result, TB-enhanced innate immunity and modulated inflammation via the TLR2/4 signaling pathway.

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Recent Advances on the Strategies to Stabilize the α-Phase of Formamidinium Based Perovskite Materials

Zhao

Wang

et al. 2022

Crystals

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Perovskite solar cells (PSC) are considered promising next generation photovoltaic devices due to their low cost and high-power conversion efficiency (PCE). The perovskite material in the photovoltaic devices plays the fundamental role for the unique performances of PSC. Formamidinium based perovskite materials have become a hot-topic for research due to their excellent characteristics, such as a lower band gap (1.48 V), broader light absorption, and better thermal stability compared to methylammonium based perovskite materials. There are four phases of perovskite materials, named the cubic α-phase, tetragonal β-phase, orthorhombic γ-phase, and δ-phase (yellow). Many research focus on the transition of α-phase and δ-phase. α-Phase FA-based perovskite is very useful for photovoltaic application. However, the phase stability of α-phase FA-based perovskite materials is quite poor. It transforms into its useless δ-phase at room temperature. This instability will lead the degradation of PCE and the other optoelectronic properties. For the practical application of PSC, it is urgent to understand more about the mechanism of this transformation and boost the stability of α-Phase FA-based perovskite materials. This review describes the strategies developed in the past several years, such as mixed cations, anion exchange, dimensions controlling, and surface engineering. These discussions present a perspective on the stability of α-phase of FA-based perovskite materials and the coming challenges in this field.

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Desolvation of Cation by Cellulose Nanofibrils for High-Performance Zinc Hybrid Supercapacitors

Sun

Xie

et al. 2023

Preprint

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Hydrogen Bonds in Precursor Solution: The Origin of the Anomalous J–V Curves in Perovskite Solar Cells

Zhang

Chu

et al. 2022

Crystals

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Perovskite Solar Cells are a promising solar energy harvesting technology due to their low cost and high-power conversion efficiency. A high-quality perovskite layer is fundamental for a highly efficient perovskite Solar Cell. Utilizing a gas quenching process (GQP) can eliminate the need for toxic, flammable, and expensive anti-solvents in the preparation of perovskite layers. It is a promising candidate technology for large scale preparation of perovskite layers, as it can be easily integrated in a production line by coupling up-scalable techniques. The GQP removes the need for polar solvents in the precursor solution layer by using nitrogen flow, rather than extracting them with non-polar solvents. The crystallization dynamics in this process can be significantly different. In this study, we found that the quality of perovskite crystal from GQP is much more sensitive to Lewis base molecules (LBMs) in the precursor solution than it is in anti-solvents technology. Thus, the processing parameters of the LBMs in anti-solvents technology cannot be directly transferred to the GQP. An XRD and 1H NMR study explains the origin of the S-shaped J–V curves and how these LBMs hinder the reaction between PbI2 and monovelent cations.

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Lei Zhao

Beyond the Limit of Goldschmidt Tolerance Factor: Crystal Surface Engineering to Boost the α‐Phase Stability of Formamidinium‐Only Hybrid Inorganic–Organic Perovskites

Theabrownin Isolated from Pu-Erh Tea Enhances the Innate Immune and Anti-Inflammatory Effects of RAW264.7 Macrophages via the TLR2/4-Mediated Signaling Pathway

Recent Advances on the Strategies to Stabilize the α-Phase of Formamidinium Based Perovskite Materials

Desolvation of Cation by Cellulose Nanofibrils for High-Performance Zinc Hybrid Supercapacitors

Hydrogen Bonds in Precursor Solution: The Origin of the Anomalous J–V Curves in Perovskite Solar Cells

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