Growth of two-dimensional silicalite-1 on graphene oxide with controllable electrical conductivity

Abstract: Two-dimensional (2D) silicalite-1 zeolites are fabricated by introducing graphene oxide (GO) into a multilamellar MFI synthesis system. These composite materials exhibit high and controllable electrical conductivity with different amounts of GO.

“…S13 †). 37 The porous structure of the 40% GO/CoMo 3 S 13 (1 : 1) aerogel possesses high surface area and well-defined mesopores, granting more accessibility to the active sulfur sites and high HER catalytic potential.…”

A GO/CoMo₃S₁₃ chalcogel heterostructure with rich catalytic Mo–S–Co bridge sites for the hydrogen evolution reaction

“…S13 †). 37 The porous structure of the 40% GO/CoMo 3 S 13 (1 : 1) aerogel possesses high surface area and well-defined mesopores, granting more accessibility to the active sulfur sites and high HER catalytic potential.…”

A GO/CoMo₃S₁₃ chalcogel heterostructure with rich catalytic Mo–S–Co bridge sites for the hydrogen evolution reaction

“…Graphene oxide can thus be used as a building block for the preparation of hybrid nanocomposites and soft materials . It can be used as a 2D facilitating agent for the synthesis of 2D zeolite–graphene oxide composites . Graphene oxide nanosheets were added to the reaction mixture during the synthesis of multilamellar MFI.…”

2D Oxide Nanomaterials to Address the Energy Transition and Catalysis

Fabrication of b-oriented silicalite-1 membrane by confined space dissolution and recrystallization