Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Physical surface properties

Fig. 9.6 Tailored SAMs for surface engineering provides the control of the surface physical properties, chemical reactivity and heterogeneity on the molecular level, a) Self-assembly of one kind of surface active compound results in homogeneous monolayers, b) Adsorption of two components give ride to mixed SAMs, combining the physical and... Fig. 9.6 Tailored SAMs for surface engineering provides the control of the surface physical properties, chemical reactivity and heterogeneity on the molecular level, a) Self-assembly of one kind of surface active compound results in homogeneous monolayers, b) Adsorption of two components give ride to mixed SAMs, combining the physical and...
Q Surface Physical Properties and the Topology of Single Crystals ... [Pg.209]

Surface physical properties and surface relaxation on noble and non-noble surfaces... [Pg.645]

Radar investigations of natural satellites wiU rap enormous benefits from ground-based and space-borne radar reconnaissance. The near-surface physical properties of Deimos, lo, and Titan will be readily discernible with Arecibo. Doppler images of Titan may furnish a coarse-resolution, nearly global albedo map, while the Cassini spacecraft, with its high-resolution, 13.8-GHz (2.2-cm)... [Pg.243]

The collection of representative reservoir fluid samples is important in order to establish the PVT properties - phase envelope, bubble point, Rg, B, and the physical properties - composition, density, viscosity. These values are used to determine the initial volumes of fluid in place in stock tank volumes, the flow properties of the fluid both in the reservoir and through the surface facilities, and to identify any components which may require special treatment, such as sulphur compounds. [Pg.112]

More accurately, as the inverse problem process computes a quadratic error with every point of a local area around a flaw, we shall limit the sensor surface so that the quadratic error induced by the integration lets us separate two close flaws and remains negligible in comparison with other noises or errors. An inevitable noise is the electronic noise due to the coil resistance, that we can estimate from geometrical and physical properties of the sensor. Here are the main conclusions ... [Pg.358]

The immobility of the surface atoms of a refractory solid has the consequence that the surface energy and other physical properties depend greatly on the immediate history of the material. A clean cleavage surface of a crystal will have a different (and probably lower) surface energy than a ground, abraded, heat-treated or polished surface of the same material. [Pg.259]

D. Dependence of Other Physical Properties on Surface Energy Changes at a Solid Interface... [Pg.281]

Central to all SPMs (or local probe methods , or local proximal probes as they are sometimes called) is the presence of a tip or sensor, typically of less than 100 mn radius, that is rastered in close proximity to—or in contact with—tire sample s surface. This set-up enables a particular physical property to be measured and imaged over the scaimed area. Crucial to the development of this family of teclmiques were both the ready availability of piezoelements, with which the probe can be rastered with subnanometre precision, and the highly developed computers and stable electronics of the 1980s, without which the operation of SPMs as we know them would not have been possible. [Pg.1676]

Clusters are intennediates bridging the properties of the atoms and the bulk. They can be viewed as novel molecules, but different from ordinary molecules, in that they can have various compositions and multiple shapes. Bare clusters are usually quite reactive and unstable against aggregation and have to be studied in vacuum or inert matrices. Interest in clusters comes from a wide range of fields. Clusters are used as models to investigate surface and bulk properties [2]. Since most catalysts are dispersed metal particles [3], isolated clusters provide ideal systems to understand catalytic mechanisms. The versatility of their shapes and compositions make clusters novel molecular systems to extend our concept of chemical bonding, stmcture and dynamics. Stable clusters or passivated clusters can be used as building blocks for new materials or new electronic devices [4] and this aspect has now led to a whole new direction of research into nanoparticles and quantum dots (see chapter C2.17). As the size of electronic devices approaches ever smaller dimensions [5], the new chemical and physical properties of clusters will be relevant to the future of the electronics industry. [Pg.2388]

Allara D L and Nuzzo R G 1985 Spontaneously organized molecular assemblies. 1. Formation, dynamics, and physical-properties of normal-alkanoic acids adsorbed from solution on an oxidized aluminum surface Langmuir 1 45-52... [Pg.2635]

Physical properties affecting catalyst perfoniiance include tlie surface area, pore volume and pore size distribution (section B1.26). These properties regulate tlie tradeoff between tlie rate of tlie catalytic reaction on tlie internal surface and tlie rate of transport (e.g., by diffusion) of tlie reactant molecules into tlie pores and tlie product molecules out of tlie pores tlie higher tlie internal area of tlie catalytic material per unit volume, tlie higher the rate of tlie reaction... [Pg.2702]

Molecular surfaces can express various chemical and physical properties, such as electrostatic potential, atomic charges or hydrophobicity, using colored mapping. [Pg.160]

Molecu lar mechari ical force fields use the equation s of classical mech an ics to describe th e poteri tial energy surfaces and physical properties of m olecii Ies. A molecu le is described as a collection of atom slhal in teracl with each other by sim pic an alytical fiiriclions. I h is description is called a force field. One component of a force field is th e eri ergy arisiri g from com pression and stretch in g a bond. [Pg.21]

It turned out that the dodecylsulfate surfactants Co(DS)i Ni(DS)2, Cu(DS)2 and Zn(DS)2 containing catalytically active counterions are extremely potent catalysts for the Diels-Alder reaction between 5.1 and 5.2 (see Scheme 5.1). The physical properties of these micelles have been described in the literature and a small number of catalytic studies have been reported. The influence of Cu(DS)2 micelles on the kinetics of quenching of a photoexcited species has been investigated. Interestingly, Kobayashi recently employed surfactants in scandium triflate catalysed aldol reactions". Robinson et al. have demonshuted that the interaction between metal ions and ligand at the surface of dodecylsulfate micelles can be extremely efficient. ... [Pg.139]

A number of properties can be computed from various chemical descriptors. These include physical properties, such as surface area, volume, molecular weight, ovality, and moments of inertia. Chemical properties available include boiling point, melting point, critical variables, Henry s law constant, heat capacity, log P, refractivity, and solubility. [Pg.325]

See other pages where Physical surface properties is mentioned: [Pg.402]    [Pg.10]    [Pg.144]    [Pg.3]    [Pg.256]    [Pg.187]    [Pg.57]    [Pg.554]    [Pg.430]    [Pg.371]    [Pg.402]    [Pg.10]    [Pg.144]    [Pg.3]    [Pg.256]    [Pg.187]    [Pg.57]    [Pg.554]    [Pg.430]    [Pg.371]    [Pg.126]    [Pg.302]    [Pg.89]    [Pg.1]    [Pg.259]    [Pg.328]    [Pg.1264]    [Pg.1949]    [Pg.2702]    [Pg.2765]    [Pg.124]    [Pg.163]    [Pg.74]   
See also in sourсe #XX -- [ Pg.45 , Pg.47 ]



SEARCH



Surface physics

© 2024 chempedia.info