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Energy and Chemistry

In terms of graph theory, it is convenient to represent several non-empiri-cal and semi-empirical methods of quantum chemistry. Energy and charge characteristics of molecules are treated as various structural characteristics of molecular graphs. [Pg.256]

Glipa X, Mula B, Jones DJ, Rozifere J (1998) In Sequeira CAC, Moffat J (eds) Chemistry, energy and the environment. Royal Society of Chemistry, Cambridge, UK, p 249... [Pg.260]

Dr James Wilton-Ely is the Director of the MRes in Green Chemistry Energy and the Environment at Imperial College London, UK. He is also a senior lecturer in inorganic chemistry and co-director of the MRes in Catalysis Chemistry and Engineering. [Pg.176]

Keywords-. Fullerenes, supramolecular chemistry, energy and electron transfer processes. [Pg.335]

Dislocation theory as a portion of the subject of solid-state physics is somewhat beyond the scope of this book, but it is desirable to examine the subject briefly in terms of its implications in surface chemistry. Perhaps the most elementary type of defect is that of an extra or interstitial atom—Frenkel defect [110]—or a missing atom or vacancy—Schottky defect [111]. Such point defects play an important role in the treatment of diffusion and electrical conductivities in solids and the solubility of a salt in the host lattice of another or different valence type [112]. Point defects have a thermodynamic basis for their existence in terms of the energy and entropy of their formation, the situation is similar to the formation of isolated holes and erratic atoms on a surface. Dislocations, on the other hand, may be viewed as an organized concentration of point defects they are lattice defects and play an important role in the mechanism of the plastic deformation of solids. Lattice defects or dislocations are not thermodynamic in the sense of the point defects their formation is intimately connected with the mechanism of nucleation and crystal growth (see Section IX-4), and they constitute an important source of surface imperfection. [Pg.275]

Time-of-flight mass spectrometers have been used as detectors in a wider variety of experiments tlian any other mass spectrometer. This is especially true of spectroscopic applications, many of which are discussed in this encyclopedia. Unlike the other instruments described in this chapter, the TOP mass spectrometer is usually used for one purpose, to acquire the mass spectrum of a compound. They caimot generally be used for the kinds of ion-molecule chemistry discussed in this chapter, or structural characterization experiments such as collision-induced dissociation. Plowever, they are easily used as detectors for spectroscopic applications such as multi-photoionization (for the spectroscopy of molecular excited states) [38], zero kinetic energy electron spectroscopy [39] (ZEKE, for the precise measurement of ionization energies) and comcidence measurements (such as photoelectron-photoion coincidence spectroscopy [40] for the measurement of ion fragmentation breakdown diagrams). [Pg.1354]

As a scientific tool, ab initio quantum chemistry is not yet as accurate as modem laser spectroscopic measurements, for example. Moreover, it is difficult to estimate the accuracies with which various methods predict bond energies and lengths, excitation energies and the like. In the opinion of tlie author, chemists who... [Pg.2158]

Pople J A 1973 Theoretical models for chemistry Energy, Structure, and Reactivity ed D W Smith and W B McRae (New York Wiley) p 51-67... [Pg.2200]

Almost all aspects of the field of chemistry involve tire flow of energy eitlier witliin or between molecules. Indeed, tire occurrence of a chemical reaction between two species implies tire availability of some minimum amount of energy in tire reacting system. The study of energy transfer processes is tluis a topic of fundamental importance in chemistry. Energy transfer in gases is of particular interest partly because very sophisticated methods have been developed to study such events and partly because gas phase processes lend tliemselves to very complete and detailed tlieoretical analysis. [Pg.2996]

Reactions represent the dynamic aspect of chemistry, the interconversion of chemical compounds. Chemical reactions produce the compounds that are sold by industry and that play a big role in maintaining the standard of living of our society they transform the food that we take up in our body into energy and into other compounds and they provide the energy for surviving in a hostile environment and the energy for a large part of our transportation systems. [Pg.169]

DFT calculations offer a good compromise between speed and accuracy. They are well suited for problem molecules such as transition metal complexes. This feature has revolutionized computational inorganic chemistry. DFT often underestimates activation energies and many functionals reproduce hydrogen bonds poorly. Weak van der Waals interactions (dispersion) are not reproduced by DFT a weakness that is shared with current semi-empirical MO techniques. [Pg.390]

Smith G D and R L Jaffe 1996. Quantum Chemistry Study of Conformational Energies and Rotational Energy Barriers in u-Alkanes. Journal of Physical Chemistry 100 18718-18724,... [Pg.127]

Chemists make compounds and strive to understand their reactions. My own interest lies in the chemistry of the compounds of the elements carbon and hydrogen, called hydrocarbons. These make up petroleum oil and natural gas and thus are in many ways essential for everyday life. They generate energy and heat our houses, fuel our cars and airplanes and are raw materials for most manmade materials ranging from plastics to pharmaceuticals. Many of the chemical reactions essential to hydrocarbons are catalyzed by acids and proceed through positive ion intermediates, called carbocations. [Pg.182]

Thermodynamics is one of the most well-developed mathematical descriptions of chemistry. It is the held of thermodynamics that dehnes many of the concepts of energy, free energy and entropy. This is covered in physical chemistry text books. [Pg.9]

Computational results can be related to thermodynamics. The result of computations might be internal energies, free energies, and so on, depending on the computation done. Likewise, it is possible to compute various contributions to the entropy. One frustration is that computational software does not always make it obvious which energy is being listed due to the dilferences in terminology between computational chemistry and thermodynamics. Some of these differences will be noted at the appropriate point in this book. [Pg.10]

Fig. 8. Chemistry the iateiaction of energy and matter. To convert atm to Pa, multiply by 1.013 x 10. ... Fig. 8. Chemistry the iateiaction of energy and matter. To convert atm to Pa, multiply by 1.013 x 10. ...
A second type of uv curing chemistry is used, employing cationic curing as opposed to free-radical polymerization. This technology uses vinyl ethers and epoxy resins for the oligomers, reactive resins, and monomers. The initiators form Lewis acids upon absorption of the uv energy and the acid causes cationic polymerization. Although this chemistry has improved adhesion and flexibility and offers lower viscosity compared to the typical acrylate system, the cationic chemistry is very sensitive to humidity conditions and amine contamination. Both chemistries are used commercially. [Pg.248]

The vapor cloud of evaporated droplets bums like a diffusion flame in the turbulent state rather than as individual droplets. In the core of the spray, where droplets are evaporating, a rich mixture exists and soot formation occurs. Surrounding this core is a rich mixture zone where CO production is high and a flame front exists. Air entrainment completes the combustion, oxidizing CO to CO2 and burning the soot. Soot bumup releases radiant energy and controls flame emissivity. The relatively slow rate of soot burning compared with the rate of oxidation of CO and unbumed hydrocarbons leads to smoke formation. This model of a diffusion-controlled primary flame zone makes it possible to relate fuel chemistry to the behavior of fuels in combustors (7). [Pg.412]

Butlin, R. N., The effects of pollutants on materials, in "Energy and the Environment." Rnv.il Society of Chemistry, Cambridge, 1990. [Pg.135]


See other pages where Energy and Chemistry is mentioned: [Pg.466]    [Pg.265]    [Pg.418]    [Pg.466]    [Pg.265]    [Pg.418]    [Pg.781]    [Pg.1330]    [Pg.1828]    [Pg.2181]    [Pg.2227]    [Pg.2332]    [Pg.2772]    [Pg.330]    [Pg.59]    [Pg.22]    [Pg.135]    [Pg.186]    [Pg.225]    [Pg.67]    [Pg.1]    [Pg.472]    [Pg.157]    [Pg.157]    [Pg.260]    [Pg.1]    [Pg.163]    [Pg.150]    [Pg.459]    [Pg.460]    [Pg.155]    [Pg.24]   
See also in sourсe #XX -- [ Pg.209 ]

See also in sourсe #XX -- [ Pg.209 ]




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