Nanocubes: "Cubism" on the Nanoscale: From Squaric Acid to Porous Carbon Cubes (Small 21/2016)

The development of convenient and efficient template‐free methods for the synthesis of hierarchical porous carbon materials is highly desirable. On page 2906, N. Fechler and co‐workers prepare porous crystalline particles with a 3D cubic morphology by a one‐step, template‐free coordination of zinc i...

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Veröffentlicht in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2016-06, Vol.12 (21), p.2804-2804
Hauptverfasser: Mani, Christian Mbaya, Berthold, Thomas, Fechler, Nina
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creator Mani, Christian Mbaya
Berthold, Thomas
Fechler, Nina
description The development of convenient and efficient template‐free methods for the synthesis of hierarchical porous carbon materials is highly desirable. On page 2906, N. Fechler and co‐workers prepare porous crystalline particles with a 3D cubic morphology by a one‐step, template‐free coordination of zinc ions to squaric acid molecules. Subsequently, these crystalline particles could be transferred into cubic hierarchical carbon to form carbon‐based composites with excellent capacitive performance.
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subjects Carbon
composite
Crystal structure
crystals
Cubes
Morphology
nanocubes
Nanostructure
Nanotechnology
Particulate composites
porosity
Porous materials
squaric acid
Zinc coordination
title Nanocubes: "Cubism" on the Nanoscale: From Squaric Acid to Porous Carbon Cubes (Small 21/2016)
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