Wenwen Yin scite author profile

Plasmonic metal nanostructures have attracted considerable attention for solar energy harvesting due to their capability in photothermal conversion. However, the narrow resonant band of the conventional plasmonic nanoparticles greatly limits their application as only a small fraction of the solar energy can be utilized. Herein, a unique confined seeded growth strategy is developed to synthesize black silver nanostructures with broadband absorption in the visible and near-infrared spectrum. Through this novel strategy, assemblages of silver nanoparticles with widely distributed interparticle distances are generated in rod-shaped tubular spaces, leading to strong random plasmonic coupling and accordingly broadband absorption for significantly improved utilization of solar energy. With excellent efficiency in converting solar energy to heat, the resulting black Ag nanostructures can be made into thin films floating at the air/water interface for efficient generation of clean water steam through localized interfacial heating.

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Synthetic Route to Metal Nitrides: High-Pressure Solid-State Metathesis Reaction

Yin

Jiang

et al. 2013

Inorg. Chem.

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We report a general synthetic route to well-crystallized metal nitrides through a high-pressure solid-state metathesis reaction (HPSSM) between boron nitride (BN) and ternary metal oxide A(x)M(y)O(z) (A = alkaline or alkaline-earth metal and M = main group or transition metal). On the basis of the synthetic metal nitrides (Fe3N, Re3N, VN, GaN, CrN, and W(x)N) and elemental products (graphite, rhenium, indium, and cobalt metals), the HPSSM reaction has been systematically investigated with regard to its general chemical equation, reaction scheme, and characteristics, and its thermodynamic considerations have been explored by density functional theory (DFT) calculations. Our results indicate that pressure plays an important role in the synthesis, which involves an ion-exchange process between boron and the metal ion, opening a new pathway for material synthesis.

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A quinary layer transition metal oxide of NaNi_1/4Co_1/4Fe_1/4Mn_1/8Ti_1/8O₂ as a high-rate-capability and long-cycle-life cathode material for rechargeable sodium ion batteries

et al. 2015

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NiCo2O4 nanosheets supported on Ni foam for rechargeable nonaqueous sodium–air batteries

Liu

Yin

Ding

et al. 2014

Electrochemistry Communications

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A long-life Na–air battery based on a soluble NaI catalyst

et al. 2015

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Wenwen Yin

Space-Confined Seeded Growth of Black Silver Nanostructures for Solar Steam Generation

Synthetic Route to Metal Nitrides: High-Pressure Solid-State Metathesis Reaction

A quinary layer transition metal oxide of NaNi_1/4Co_1/4Fe_1/4Mn_1/8Ti_1/8O₂ as a high-rate-capability and long-cycle-life cathode material for rechargeable sodium ion batteries

NiCo2O4 nanosheets supported on Ni foam for rechargeable nonaqueous sodium–air batteries

A long-life Na–air battery based on a soluble NaI catalyst

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About

Wenwen Yin

Space-Confined Seeded Growth of Black Silver Nanostructures for Solar Steam Generation

Synthetic Route to Metal Nitrides: High-Pressure Solid-State Metathesis Reaction

A quinary layer transition metal oxide of NaNi1/4Co1/4Fe1/4Mn1/8Ti1/8O2 as a high-rate-capability and long-cycle-life cathode material for rechargeable sodium ion batteries

NiCo2O4 nanosheets supported on Ni foam for rechargeable nonaqueous sodium–air batteries

A long-life Na–air battery based on a soluble NaI catalyst

Contact Info

Product

Resources

About

A quinary layer transition metal oxide of NaNi_1/4Co_1/4Fe_1/4Mn_1/8Ti_1/8O₂ as a high-rate-capability and long-cycle-life cathode material for rechargeable sodium ion batteries