Jiajun Gu scite author profile

Cesium titanium(IV) halide perovskites (HPs) are promising all-inorganic, Pb-free materials for perovskite solar cells (PSCs). Here we show that high-quality, uniform thin films of Cs 2 TiBr 6 HP can be prepared through a facile low-temperature vaporbased method. These thin films exhibit a favorable bandgap of 1.8 eV, long and balanced carrier-diffusion lengths >100 nm, suitable energy levels, and superior intrinsic and environmental stability. The first planar-heterojunction PSCs based on Cs 2 TiBr 6 thin films show a stable efficiency of up to 3.3%.

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3D-Structured Carbonized Sunflower Heads for Improved Energy Efficiency in Solar Steam Generation

Sun

Zhang

Imran

et al. 2019

ACS Appl. Mater. Interfaces

210

161

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Solar steam generation is regarded as a perspective technology, due to its potentials in solar light absorption and photothermal conversion for seawater desalination and water purification. Although lots of steam generation systems have been reported to possess high conversion efficiencies recently, researches of simple, cost-effective, and sustainable materials still need to be done. Here, inspired by natural young sunflower heads’ property increasing the temperature of dish-shaped flowers by tracking the sun, we used 3D-structured carbonized sunflower heads as an effective solar steam generator. The evaporation rate and efficiency of these materials under 1 sun (1 kW m–2) are 1.51 kg m–2 h–1 and 100.4%, respectively, beyond the theoretical limit of 2D materials. This high solar efficiency surpasses all other biomass-based materials ever reported. It is demonstrated that such a high capability is mainly attributed to the 3D-structured top surface, which could reabsorb the lost energy of diffuse reflection and thermal radiation, as well as provide enlarged water/air interface for steam escape. 3D-structured carbonized sunflower heads provide a new method for the future design and fabrication of high-performance photothermal devices.

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Hierarchical Porous Carbonized Lotus Seedpods for Highly Efficient Solar Steam Generation

et al. 2018

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“Egg-Box”-Assisted Fabrication of Porous Carbon with Small Mesopores for High-Rate Electric Double Layer Capacitors

et al. 2015

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Here we report a method to fabricate porous carbon with small mesopores around 2-4 nm by simple activation of charcoals derived from carbonization of seaweed consisting of microcrystalline domains formed by the "egg-box" model. The existence of mesopores in charcoals leads to a high specific surface area up to 3270 m(2) g(-1), with 95% surface area provided by small mesopores. This special pore structure shows high adaptability when used as electrode materials for an electric double layer capacitor, especially at high charge-discharge rate. The gravimetric capacitance values of the porous carbon are 425 and 210 F g(-1) and volumetric capacitance values are 242 and 120 F cm(-3) in 1 M H2SO4 and 1 M TEA BF4/AN, respectively. The capacitances even remain at 280 F g(-1) (160 F cm(-3)) at 100 A g(-1) and 156 F g(-1) (90 F cm(-3)) at 50 A g(-1) in the aqueous and organic electrolytes, demonstrating excellent high-rate capacitive performance.

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Simultaneously achieving thermal insulation and rapid water transport in sugarcane stems for efficient solar steam generation

Liu

et al. 2019

J. Mater. Chem. A

164

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Jiajun Gu

Cesium Titanium(IV) Bromide Thin Films Based Stable Lead-free Perovskite Solar Cells

3D-Structured Carbonized Sunflower Heads for Improved Energy Efficiency in Solar Steam Generation

Hierarchical Porous Carbonized Lotus Seedpods for Highly Efficient Solar Steam Generation

“Egg-Box”-Assisted Fabrication of Porous Carbon with Small Mesopores for High-Rate Electric Double Layer Capacitors

Simultaneously achieving thermal insulation and rapid water transport in sugarcane stems for efficient solar steam generation

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