Crystals molecular self-assembly

Kato T (2000) Hydrogen-Bonded Liquid Crystals - Molecular Self-Assembly for Dynamically Functional Materials. 96 95-146 Katz E, see Shipway AN (2001) 99 237-281 Kauffmann GB, see Jorgensen CK (1990) 73 227-254 Keijzers CP, see Willemse J (1976) 28 83-126 Kelly JM, see Moucheron C (1998) 92 163-216... 

Hydrogen-Bonded Liquid Crystals Molecular Self-Assembly for Dynamically Functional Materials... 

Kato T. Hydrogen-bonded liquid crystals molecular self-assembly for dynamically functional materials. In Fuiita M, editor. Molecular self-assembly organic versus inorganic approaches. Berlin Heidelberg Springer 2000. p. 95-146. 

Liquid crystals (LC) represent truly fascinating materials in terms of their properties, their importance for the fundamental understanding of molecular self-assembly, and their tremendous success in commercial applications [1, 2], Liquid crystals can be considered as a state of matter which in a unique way combines order and mobility [3-8]. The constituent molecules of LC phases are sufficiently... 

With the recognition that many substances may cocrystallize in a single continuous lattice structure, scientists have more recently initiated intense studies of the mixed molecular crystal systems that have become known as cocrystals [10]. This particular area of solid-state research has led pharmaceutical scientists into the areas of crystal engineering and assembly of appropriate supramolecular synthons, with particular emphasis on understanding the origins of the molecular self-assembly that takes place in the formation of cocrystal systems. 

Synthesis by Molecular Self-Assembly Liquid Crystals and Cooperative Assembly... 

Molecular Self-Assembly in the Solid State Molecular Organic Crystals... 

Perlstein, J. (1994a). Molecular self-assemblies 2. A computational method for the prediction of the structure of one-dimensional screw, glide and inversion molecular aggregates and implications for the packing of molecules in monolayers and crystals. J. Am. Chem. Soc., 116, 455-70. [183]... 

Davey ly, Blagden N, Righini S, Alison H, Quayle MJ, and Fuller S. Crystal Polymorphism as a Probe for Molecular Self-Assembly during Nucleation from Solutions The Case of 2,6-Dihydroxybenzoic Acid Cryst GrowthDes2001 1 59—... 

H O and N-H- - -O types. Based upon crystal structure data of lariat and crown ethers, another group [85] found evidence that aryl CH- - -O bonds help to define the conformation and binding character of their complexes. Supra-molecular self-assembly is another area where these bonds display some influence [86-88] and they seem to help with formation of inorganic channel structure [89, 90]. 

Molecular Self-Assemblies. 5. Analysis of the Vector Properties of Hydrogen Bonding in Crystal Engineering. 

There is also a distinction to be drawn between nanoscience and nanotechnology. Nanoscience is the sub-discipline of science that involves the study of nanoscale materials, processes, phenomena and/or devices. Nanoscience includes materials and phenomena at the nanoscale (typically 0.1-100 nm) hence, it includes areas such as carbon nanoscience (e.g. fullerenes), molecular scale electronics, molecular self-assembly, quantum size effects and crystal engineering. Nanotechnology involves the design, characterization, manipulation, incorporation and/or production of materials and structures in the nanoscale range. These applications exploit the properties of the nanoscale components, distinct from bulk or macroscopic systems. Naturally, there is a substantial overlap of scale between nanotechnology and colloid technology. 

Modulation spectroscopy, 19-1, 19-11—19-21 Molecular combining method, 16-3 Molecular crystals, 2-1, 2-2, 2-3, 2-4, 2-15—2-19 Molecular recognition, 9-17 Molecular scale, 16-1 Molecular self-assembly, 9-19, 9-22, 9-23 Molecular weight distribution, 6-3, 6-5, 6-6, 6-12,... 

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