On the Controllable Soft-Templating Approach to Mesoporous Silicates

TL;DR: This review is discussing the interest of both nano-objects and nano-engineered and/or nanostructured materials for the rational design of bio-functionalized electrodes and related (bio)sensing systems.

TL;DR: Controlled mesoporosity is successfully introduced into zeolite Y crystals through a surfactant templating approach as mentioned in this paper, which shows superb hydrothermal stability in the resulting mesostructure, while retaining strong acidity.

TL;DR: A simple emulsion-induced interface anisotropic assembly approach is reported to synthesize bowl-like mesoporous polydopamine particles with diameter of ∼210 nm, well-controlled radially oriented mesochannels, and large pore size of ∼11 nm, which manifest enhanced electrocatalytic performance for oxygen reduction reaction in alkaline electrolyte.

TL;DR: This work has designed a cooperative template system, comprising a surfactant and a chelating agent, for the generation of a mesoMOF containing a hierarchical system of mesopores interconnected with microspores.

TL;DR: Use of amphiphilic triblock copolymers to direct the organization of polymerizing silica species has resulted in the preparation of well-ordered hexagonal mesoporous silica structures (SBA-15) with uniform pore sizes up to approximately 300 angstroms.

TL;DR: In this paper, the synthesis, characterization, and proposed mechanism of formation of a new family of silicatelaluminosilicate mesoporous molecular sieves designated as M41S is described.

TL;DR: In this paper, a family of highly ordered mesoporous (20−300 A) structures have been synthesized by the use of commercially available nonionic alkyl poly(ethylene oxide) (PEO) oligomeric surfactants and poly(alkylene oxide) block copolymers in acid media.

TL;DR: Corma et al. as mentioned in this paper used the Dupont Award on new materials (1995), and the Spanish National Award “Leonardo Torres Quevedo” on Technology Research (1996) on technology research (1996), to recognize the performance of zeolites as catalysts for oil refining and petrochemistry.