Design and synthesis of self-assembled monolayers on mesoporous supports (SAMMS) : The importance of ligand posture in functional nanomaterials

Water, and water quality, are issues of critical importance to the future of humankind. The Earth's water supplies have been contaminated by a wide variety of industrial, military and natural sources. The need exists for an efficient separation technology to remove heavy-metal and radionuclide...

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Bibliographic Details
Published in:Journal of materials chemistry 2007-07, Vol.17 (28), p.2863-2874
Main Authors: FRYXELL, Glen E, MATTIGOD, Shas V, JUN LIU, KEMNER, Ken, KELLY, Shelly, XIANGDONG FENG, YUEHE LIN, HONG WU, FISKUM, Sandy, PARKER, Kent, FENG ZHENG, YANTASEE, Wassana, ZEMANIAN, Tom S, SHANE ADDLEMAN, R
Format: Article
Language:English
Subjects:
ADSORBENTS
CERAMICS
Cross-disciplinary physics: materials science
rheology
DESIGN
Environmental Molecular Sciences Laboratory
ENVIRONMENTAL SCIENCES
Exact sciences and technology
HEAVY METALS
MATERIALS SCIENCE
Methods of nanofabrication
Nanoscale materials and structures: fabrication and characterization
Other topics in nanoscale materials and structures
Physics
PORE STRUCTURE
RADIOISOTOPES
Self-assembly
SORPTION
SYNTHESIS
WATER TREATMENT
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Summary:Water, and water quality, are issues of critical importance to the future of humankind. The Earth's water supplies have been contaminated by a wide variety of industrial, military and natural sources. The need exists for an efficient separation technology to remove heavy-metal and radionuclide contamination from water. Surfactant-templated synthesis of mesoporous ceramics provides a versatile foundation upon which to build high-efficiency environmental sorbents. These nanoporous ceramics condense a huge amount of surface area into a very small volume. These mesoporous architectures can be subsequently functionalized through molecular self-assembly. These functional mesoporous materials offer significant capabilities in terms of removal of heavy metals and radionuclides from a variety of liquid media, including groundwater, contaminated oils and contaminated chemical weapons. They are highly efficient sorbents, whose rigid, open pore structure allows for rapid, efficient sorption kinetics. Their interfacial chemistry can be fine-tuned to selectively sequester a specific target species, such as heavy metals, tetrahedral oxometallate anions and radionuclides. This manuscript provides a review of the design, synthesis and performance of the sorbent materials. The role that ligand posture plays in the chemistry of these interfacial ligand fields is discussed.
ISSN:0959-9428
1364-5501
DOI:10.1039/b702422c