Bochao Li scite author profile

Healable antifouling films are fabricated by the exponential layer-by-layer assembly of PEGylated branched poly(ethylenimine) and hyaluronic acid followed by post-crosslinking. The antifouling function originates from the grafted PEG and the extremely soft nature of the films. The rapid and multiple healing of damaged antifouling functions caused by cuts and scratches can be readily achieved by immersing the films in normal saline solution.

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Organic–Inorganic Copper(II)-Based Material: A Low-Toxic, Highly Stable Light Absorber for Photovoltaic Application

Zhong

et al. 2017

J. Phys. Chem. Lett.

111

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Lead halide perovskite solar cells have recently emerged as a very promising photovoltaic technology due to their excellent power conversion efficiencies; however, the toxicity of lead and the poor stability of perovskite materials remain two main challenges that need to be addressed. Here, for the first time, we report a lead-free, highly stable CHNHCuBrI compound. The CHNHCuBrI films exhibit extraordinary hydrophobic behavior with a contact angle of ∼90°, and their X-ray diffraction patterns remain unchanged even after 4 h of water immersion. UV/vis absorption spectrum shows that CHNHCuBrI compound has an excellent optical absorption over the entire visible spectrum. We applied this copper-based light absorber in printable mesoscopic solar cell for the initial trial and achieved a power conversion efficiency of ∼0.5%. Our study represents an alternative pathway to develop low-toxic and highly stable organic-inorganic hybrid materials for photovoltaic application.

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Polydopamine Nanocoating for Effective Photothermal Killing of Bacteria and Fungus upon Near‐Infrared Irradiation

Lei

Ren

Chen

et al. 2016

Adv Materials Inter

107

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(C₆H₅CH₂NH₃)₂CuBr₄: A Lead-Free, Highly Stable Two-Dimensional Perovskite for Solar Cell Applications

Chang

et al. 2018

ACS Appl. Energy Mater.

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The toxicity and the instability of lead-based perovskites might eventually hamper the commercialization of perovskite solar cells. Here, we present the optoelectronic properties and stability of a two-dimensional layered (C6H5CH2NH3)2CuBr4 perovskite. This material has a low E g of 1.81 eV and high absorption coefficient of ∼1 × 105 cm–1 at the most intensive absorption at 539 nm, implying that it is suitable for light-harvesting in thin film solar cells, especially in tandem solar cells. Furthermore, X-ray diffraction (XRD), ultraviolet–visible (UV–vis) absorption spectra, and thermogravimetric analysis (TGA) confirm the high stability toward humidity, heat, and ultraviolet light. Initial studies produce a mesoscopic solar cell with a power conversion efficiency of 0.2%. Our work may offer some useful inspiration for the further investigation of environment-friendly and stable organic–inorganic perovskite photovoltaic materials.

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Bochao Li

Electropolymerization of dopamine for surface modification of complex-shaped cardiovascular stents

Layer‐by‐Layer‐Assembled Healable Antifouling Films

Organic–Inorganic Copper(II)-Based Material: A Low-Toxic, Highly Stable Light Absorber for Photovoltaic Application

Polydopamine Nanocoating for Effective Photothermal Killing of Bacteria and Fungus upon Near‐Infrared Irradiation

(C₆H₅CH₂NH₃)₂CuBr₄: A Lead-Free, Highly Stable Two-Dimensional Perovskite for Solar Cell Applications

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Bochao Li

Electropolymerization of dopamine for surface modification of complex-shaped cardiovascular stents

Layer‐by‐Layer‐Assembled Healable Antifouling Films

Organic–Inorganic Copper(II)-Based Material: A Low-Toxic, Highly Stable Light Absorber for Photovoltaic Application

Polydopamine Nanocoating for Effective Photothermal Killing of Bacteria and Fungus upon Near‐Infrared Irradiation

(C6H5CH2NH3)2CuBr4: A Lead-Free, Highly Stable Two-Dimensional Perovskite for Solar Cell Applications

Contact Info

Product

Resources

About

(C₆H₅CH₂NH₃)₂CuBr₄: A Lead-Free, Highly Stable Two-Dimensional Perovskite for Solar Cell Applications