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Host chemistry

Electroanalytical chemistry is one of the areas where advantage of the unique properties of SAMs is clear, and where excellent advanced analytical strategies can be utilized, especially when coupled with more complex SAM architectures. There are a number of examples where redox reactions are used to detect biomaterials (357,358), and where guest—host chemistry has been used to exploit specific interactions (356,359). Ion-selective electrodes are an apphcation where SAMs may provide new technologies. Selectivity to divalent cations such as Cu " but not to trivalent ions such as Fe " has been demonstrated (360). [Pg.545]

While GOLum project topics vary widely, one shared characteristic required of every project is that it must have a potentially sustainable impact beyond the team s presentation. Too often, outreach presentations become like fireworks exhibitions that are brilliant to behold but quickly fade into memory. To prevent this from happening, each team must develop ways to ensure that its project continues to be useful after its formal presentation. For example, GOLum presentations to high-school chemistry classes have provided host chemistry teachers with resource materials related to the presentations so that the teachers... [Pg.161]

In guest—host chemistry the shapes of the participating molecules are fundamental to the process of co-aggregation. Charles J. Pedersen ... [Pg.751]

In Lille, the military hospital founded in 1774 hosted chemistry courses. [Pg.95]

The prevalence of the carboxylate moiety in both biogenic and man-made molecules of interest makes this functional group a popular target for anion host chemistry. Needless to say, carboxylates are a major constituent of proteins, peptides and amino acids, and the expansion of proteomics begets increasing requirements for means of specific detection of such biomolecules. Other relevant examples of carboxylates include fatty acids, while many small molecule di- and tricarboxylates are implicated in key metaboUc pathways such as the citric acid cycle (e.g. citrate, succinate, fumarate and malonate). Carboxylated anthropogenic molecules include trichloroacetic acids, anionic surfactants and S-lactam antibiotics. [Pg.232]

Guest-host chemistry. One subgroup of this area la Inclusion phenomena. Many possible carriers would be included In this area, although at present most work in this area has not focused on reversibility. [Pg.5]

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]

Onsager s solution to the 2D Ising model in zero field (H= 0) is one of the most celebrated results in theoretical chemistry [105] it is the first example of critical exponents. Also, the solution for the Ising model can be mapped onto the lattice gas, binary alloy and a host of other systems that have Hamiltonians that are isomorphic to the Ising model Hamiltonian. [Pg.549]

More than 10 000 databases exist that provide a small or large amount of data on various topics (including chemistry). The contents in databases are supplied by approximately 3500 database developers (e.g., the Chemical Abstracts Service, MDL Information Systems, etc.). Since there is a variety of topics from economics to science, as well as a variety of structures of the database, only some of the vendors (-2000) offer one or more databases as either local or as online databases (Figure 5-4) [4]. Usually, databases are provided by hosts that permit direct access to more than one database. The search occurs primarily through different individual soft-... [Pg.230]

Aldol condensations are one of the fundamental carbon-carbon bond forming processes of synthetic organic chemistry Furthermore because the products of these aldol con densations contain functional groups capable of subsequent modification access to a host of useful materials is gamed... [Pg.773]

Host-guest chemistry Hostile environments Hot briquetted iron... [Pg.483]

Fig. 26. Clathrate receptor chemistry (a) a chiroselective crystalline host compound (clathrand) (b) a typical guest molecule to be included in the specified configuration and (c) the crystal stmcture of the respective clathrate (A and B denote host and C the guest species) (169). Fig. 26. Clathrate receptor chemistry (a) a chiroselective crystalline host compound (clathrand) (b) a typical guest molecule to be included in the specified configuration and (c) the crystal stmcture of the respective clathrate (A and B denote host and C the guest species) (169).
Forensic science is an applied science having a focus on practical scientific issues that come up during criminal investigations or at trial. Some components ate unique to the field because it is conducted within the legal arena. Forensic science issues in chemistry and biochemistry in criminal investigations are discussed herein. There are a host of other forensic science areas, eg, forensic medicine, forensic dentistry, forensic anthropology, forensic psychiatry, and forensic engineering, any of which may overlap with forensic chemistry. [Pg.484]

Fig. 9. Cucurbituril inclusion chemistry (a) tridimensional stmcture of cucurbit[6]uril (b) conjectured cross-sectional representation of a host—guest... Fig. 9. Cucurbituril inclusion chemistry (a) tridimensional stmcture of cucurbit[6]uril (b) conjectured cross-sectional representation of a host—guest...
Fig. 13. Phenolic host inclusion chemistry (a) schematic representation of the cage stmcture (open circles denote oxygen of OH, R corresponds to aryl part... Fig. 13. Phenolic host inclusion chemistry (a) schematic representation of the cage stmcture (open circles denote oxygen of OH, R corresponds to aryl part...

See other pages where Host chemistry is mentioned: [Pg.288]    [Pg.178]    [Pg.178]    [Pg.48]    [Pg.46]    [Pg.254]    [Pg.509]    [Pg.316]    [Pg.597]    [Pg.153]    [Pg.161]    [Pg.149]    [Pg.5]    [Pg.53]    [Pg.222]    [Pg.654]    [Pg.4]    [Pg.171]    [Pg.288]    [Pg.178]    [Pg.178]    [Pg.48]    [Pg.46]    [Pg.254]    [Pg.509]    [Pg.316]    [Pg.597]    [Pg.153]    [Pg.161]    [Pg.149]    [Pg.5]    [Pg.53]    [Pg.222]    [Pg.654]    [Pg.4]    [Pg.171]    [Pg.3]    [Pg.241]    [Pg.671]    [Pg.64]    [Pg.326]    [Pg.746]    [Pg.174]    [Pg.174]    [Pg.177]    [Pg.196]    [Pg.206]    [Pg.452]    [Pg.426]    [Pg.103]    [Pg.61]    [Pg.68]    [Pg.75]   
See also in sourсe #XX -- [ Pg.321 ]




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Anticrowns host-guest chemistry

Clusters host-guest chemistry

Cucurbituril host-guest chemistry

Dendrimer Host-Guest Chemistry

Dendrimers host-guest chemistry

Dendritic hosts host-guest chemistry

Dendritic macromolecules, host-guest chemistry

Early Development of Host-Guest Chemistry. Pedersens Works on Crown Ethers

Extraction as a Tool in Host-Guest Chemistry

Guest@host supramolecular chemistry

Host plant chemistry

Host-Guest Complexation Chemistry

Host-guest Chemistry and Biosensors

Host-guest chemistry

Host-guest chemistry anion guests

Host-guest chemistry approach

Host-guest chemistry artificial receptors

Host-guest chemistry asymmetric

Host-guest chemistry characterization

Host-guest chemistry chiral recognition

Host-guest chemistry complex

Host-guest chemistry construction

Host-guest chemistry crown ether hosts

Host-guest chemistry cyclophanes

Host-guest chemistry detection

Host-guest chemistry hosts

Host-guest chemistry in aqueous organometallic catalysis

Host-guest chemistry materials

Host-guest chemistry metal-templated self-assembly

Host-guest chemistry of dendritic

Host-guest chemistry of dendritic macromolecules

Host-guest chemistry overview

Host-guest chemistry principles

Host-guest chemistry stability

Host-guest chemistry, technological

Host-guest chemistry, technological applications

Host-guest inclusion chemistry

Inclusion complexes host-guest chemistry

Macrocycles host-guest chemistry

Molecular host-guest chemistry

Porphyrins host-guest chemistry

Solid-state host—guest chemistry

Solution host-guest chemistry

Supramolecular Chemistry Molecular Hosts and Their Guests

Supramolecules host-guest chemistry

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