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W2023046557 abstract "Solution processing of colloidal nanocrystals into porous architectures using block co‐polymer templating offers a simple yet robust route to construct materials with open porosity and high surface area. These features, when realized in materials that show efficient redox activity and good conductivity, should be ideal for electrochemical energy storage because they allow for efficient electrolyte diffusion and ample surface and near‐surface redox reactions. Here, a route to synthesize nanoporous pseudocapacitors is presented using preformed ITO nanocrystals to make a conductive scaffold, coated with a conformal layer of vanadia deposited using atomic layer deposition (ALD). Two vanadia thicknesses are deposited, 2 and 7 nm, to examine the kinetics of Li + diffusion into vanadia in a system where all other chemical and structural parameters are fixed. Porosity measurements show that the internal surface area of 2 nm vanadia samples is fully accessible; whereas for the 7 nm vanadia, there is some pore blockage that limits electrolyte diffusion. Despite this fact, composites with both thick and thin vanadia layers show high levels of pseudocapacitance, indicating fast diffusion of Li + through even the 7 nm thick vanadia. This work thus sets a minimum accessible length‐scale of 7 nm for intercalation pseudocapacitance in orthorhombic V 2 O 5 ." @default.
W2023046557 created "2016-06-24" @default.
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W2023046557 date "2014-09-01" @default.
W2023046557 modified "2023-10-18" @default.
W2023046557 title "Nanostructured Pseudocapacitors Based on Atomic Layer Deposition of V<sub>2</sub>O<sub>5</sub>onto Conductive Nanocrystal-based Mesoporous ITO Scaffolds" @default.
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W2023046557 doi "https://doi.org/10.1002/adfm.201401284" @default.
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