Contents

• 1.1 Preamble
• 1.2 Energetics
• 1.3 Definition of Pores and Porous Materials
• 1.4 Formation Mechanism of Mesoporous Materials
• 1.5 Strategies for the Creation of Non-Siliceous Ordered Mesoporous Materials
• 1.6 Major Opportunities in View of Applications
• 1.7 Literature Review
• References

Description

In recent years, nanomaterials have been a core focus of nanoscience and nanotechnology, which is an ever-growing multidisciplinary field of study, attracting tremendous interest, investment and effort in research and development around the world. Mesoporous materials as a subset of nanostructured materials possess unique surface, structural, and bulk properties that underline their important uses in various fields such as ion exchange, separation, catalysis, sensor, biological molecular isolation and purifications. Mesoporous materials are also of scientific and technological importance because of their vast ability to adsorb and interact with atoms, ions and molecules on their large interior surfaces and in the nanometer sized pore space. They offer new opportunities in areas of inclusion chemistry, guest-host synthesis and molecular manipulations and reaction in the nanoscale for making nanoparticles, nanowires and other quantum nanostructures.
In this review brief description of Energetics, Mechanism, Synthesis and Applications of those materials are discussed.
The review contains 203 references which can give details in Energetics, Mechanism, Synthesis and Applications of those materials.