Origins and Implications of Translational/Reorientational Decoupling in Bulk and Nanoconfined Glass-Forming Liquids

Diaz Vela, Daniel Mauricio

January 2018

No description available.

Polymers

Physics

Nanoconfinement effects

glass transition

molecular dynamics simulation

interfacial dynamics

Unusual oxidation behavior of light metal hydride by tetrahydrofuran solvent molecules confined in ordered mesoporous carbon

Klose, Markus, Lindemann, Inge, Bonatto Minella, Christian, Pinkert, Katja, Zier, Martin, Giebeler, Lars, Nolis, Pau, Baró, Maria Dolors, Oswald, Steffen, Gutfleisch, Oliver, Ehrenberg, Helmut, Eckert, Jürgen

11 June 2020

Confining light metal hydrides in micro- or mesoporous scaffolds is considered to be a promising way to overcome the existing challenges for these materials, e.g. their application in hydrogen storage. Different techniques exist which allow us to homogeneously fill pores of a host matrix with the respective hydride, thus yielding well defined composite materials. For this report, the ordered mesoporous carbon CMK-3 was taken as a support for LiAlH₄ realized by a solution impregnation method to improve the hydrogen desorption behavior of LiAlH₄ by nanoconfinement effects. It is shown that upon heating, LiAlH₄ is unusually oxidized by coordinated tetrahydrofuran solvent molecules. The important result of the herein described work is the finding of a final composite containing nanoscale aluminum oxide inside the pores of the CMK-3 carbon host instead of a metal or alloy. This newly observed unusual oxidation behavior has major implications when applying these compounds for the targeted synthesis of homogeneous metal–carbon composite materials.

info:eu-repo/classification/ddc/670

ddc:670