Scientific Program of "ISIF-2008"

1. General state of a natural fluorine raw material sources and new approaches to operation of raw deposits of inorganic fluorine. Nowadays state of the traditional natural sources of fluorine and environment at exploration of deposits. Secondary (technogenic) and new probable operational resources of fluorine. Paths of risks decrease for production of global warming potential gases by use of inorganic fluoride technologies for improve of comfort life both present and future generations.

2. New theoretical approaches to the description electronic and molecular structure of inorganic fluorides. Quantum chemical calculations of real fluoride structures in their condensed state, including nanostructures and superstructures. Coexistence of fluorine and oxygen in the crystalline and nanocrystalline objects. New advanced methods of calculations for thermodynamic and kinetic aspects of reaction abilities and spectrochemical properties of inorganic fluorides.

3. New pathways of some specific inorganic fluoride syntheses, including objects in their nanosized state. The new theoretical approaches to the description of processes of synthesis of some specific inorganic fluorides. F-organomentallic precursors, spray-engineering, low-temperature synthesis, hydrothermal synthesis, photosynthesis, propagation of chips etc. The nanosized powders and films, single nanocrystals, nanocomposites on the base of inorganic, organic and polymeric fluoride materials. Open structures - zeolites, mesophases on the ground of inorganic fluorides.

4. Last reaches of structural, physical and analytical chemistry of inorganic fluorides, including coordination compounds. Problems of the description of correlation among theoretical structures and substantial properties. New generalizations in chemistries of the highest, lowest and unusual oxidation states of inorganic fluorides. Clustering fluorides, clathrating fluorides, supramolecular and permolecular F-compounds. Problems and new advanced solutions in analytical chemistry of fluorine and fluorides.

5. The bridges between inorganic, organic fluorides and catalysis. Fluorous chemistry. Application of inorganic fluorides for replacement of CFCs onto HFC at fluorination of organic molecules, in the chemistry of perfluorinated organic solvents, in catalysis, sorption technologies etc. Problems of catalytic reforming and utilisation of CFCs. Possibilities of biomedical application of inorganic fluorides and aggregates on their base.

6. Application of fluorination at creations of covers on surfaces. Fluorination in a gaseous fluid and in F-contained plasma medium. Modification of surfaces of the materials (metals, ceramics, polymers, elastomers). Technical applications in antifriction and hydrophobic materials, in textile and woollen tissues, architecture etc.

7. Role of inorganic fluorides in the chemical energetics and electrical engineering. Lithium chemical electrical cells, including lithium-ionic systems. Fuel cells. Various fluorinated carbon materials - graphites, diamonds, nanotubes, fullerenes. Superionics, supercapacitors, actuators, and hybrid microassembly.

8. Applications of inorganic fluorides in optoelectronics and semiconductor industry. Luminescent fluorides, glasses and ceramics, transducers of frequency, use in an optical and ultra-violet range, including for laser microlytography and printer technologies.

9. Industrial production and perspective appendices of inorganic fluorides. New technologies for effective ecologically safe production of fluorine, fluorine hydride, new fluorating agents and other inorganic fluorides, including for nuclear, laser and electronic engineering etc. Recent trends and explorations of application of inorganic fluorides in metallurgy of lithium, aluminium, magnesium, titanium, and also in heavy non-ferrous metals.

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