The synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists of 3 main steps: base hydrolysis of a solution of aluminum and germanium monomers, stabilization of the suspension and heating at 95 °C. The successful synthesis of these nanotubes was found to be sensitive to the hydrolysis step. The impact of the hydrolysis ratio (from nOH/nAl = 0.5 to 3) on the final product structure was examined using a combination of characterization tools. Thus, key hydrolysis ratios were identified: nOH/nAl = 1.5 for the formation of nanotubes with structural defects, nOH/nAl = 2 for the synthesis of a well crystallized Ge imogolite and nOH/nAl > 2.5 where nanotube formation is hindered. The capability of controlling the degree of the n...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
It is known that silicon can be successfully replaced by germanium atoms in the synthesis of imogoli...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
It is known that silicon can be successfully replaced by germanium atoms in the synthesis of imogoli...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceThe synthesis protocol for Ge-imogolite (aluminogermanate nanotubes) consists ...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
International audienceIt is known that silicon can be successfully replaced by germanium atoms in th...
It is known that silicon can be successfully replaced by germanium atoms in the synthesis of imogoli...