Units the degree for the layout and alertness of recent protein cages
Featuring contributions from a crew of overseas specialists within the coordination chemistry of organic structures, this e-book permits readers to appreciate and benefit from the interesting inner molecular setting of protein cages. by way of sleek natural and polymer thoughts, the authors clarify step-by-step easy methods to layout and build a number of protein cages. furthermore, the authors describe present functions of protein cages, atmosphere the root for the advance of latest purposes in biology, nanotechnology, artificial chemistry, and different disciplines.
Based on a radical overview of the literature in addition to the authors' personal laboratory event, Coordination Chemistry in Protein Cages
Sets forth the rules of coordination reactions in traditional protein cages
Details the elemental layout of coordination websites of small synthetic metalloproteins because the foundation for protein cage design
Describes the supramolecular layout and meeting of protein cages for or via steel coordination
Examines the newest functions of protein cages in biology and nanotechnology
Describes the foundations of coordination chemistry that govern self-assembly of artificial cage-like molecules
Chapters are jam-packed with designated figures to aid readers comprehend the complicated constitution, layout, and alertness of protein cages. wide references on the finish of every bankruptcy function a gateway to special unique study experiences and studies within the field.
With its precise evaluation of easy rules, layout, and functions, Coordination Chemistry in Protein Cages is suggested for investigators operating in organic inorganic chemistry, organic natural chemistry, and nanoscience.
Read Online or Download Coordination Chemistry in Protein Cages: Principles, Design, and Applications PDF
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Additional info for Coordination Chemistry in Protein Cages: Principles, Design, and Applications
Then catalytic nanoparticles are produced inside the cages. Next, the protein cages are selectively removed leaving the nanoparticles exposed. Finally, the nanoparticles deposited in arrays controlled by ferritin protein cage properties catalyze carbon nanotube growth in arrays determined by the controlled pattern of ferritin deposition. Single Pt nanoparticles, synthesized inside ferritin and embedded inside NiO film, have demonstrated low power and stable operation in a memory cell . Future manipulations of ferritin cage surface structure should expand an array of deposition possibilities, and manipulation of ferritin protein natural metal-binding sites should produce more selective control of synthesized nanoparticle properties.
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