The colloidal domain: where physics, chemistry, biology, and technology meetThe Colloidal Domain, Second Edition is an indispensable professional resource for chemists and chemical engineers working in an array of industries, including petrochemicals, food, agricultural, ceramic, coatings, forestry, and paper products. It is also a superb educational tool for advanced undergraduate and graduate-level students of physical chemistry and chemical engineering. |
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Page 129
Calculate the resulting potential difference between inside and outside when 10
potassium ions have been transported across the bilayer. Assume excess
electrolyte in the water and a vesicle radius of 20 nm. Use the bilayer
characteristics of ...
Calculate the resulting potential difference between inside and outside when 10
potassium ions have been transported across the bilayer. Assume excess
electrolyte in the water and a vesicle radius of 20 nm. Use the bilayer
characteristics of ...
Page 235
Calculate Vthe electrostatic potential from the Gouy-Chapman theory, jjolve the
linearized Poisson-Boltzmann equation for „ two identical parallel
homogeneously charged surfaces with charge density a, separated by a distance
h, and in ...
Calculate Vthe electrostatic potential from the Gouy-Chapman theory, jjolve the
linearized Poisson-Boltzmann equation for „ two identical parallel
homogeneously charged surfaces with charge density a, separated by a distance
h, and in ...
Page 450
Calculate the temperature of the heat capacity for an equimolar mixture. Assume
that the enthalpy change in going from gel to liquid crystal is the same as in the
pure compounds. The heat capacity is 1.3 kj mol 'K ", for DMPC and 1.6 kj mol-'K-'
...
Calculate the temperature of the heat capacity for an equimolar mixture. Assume
that the enthalpy change in going from gel to liquid crystal is the same as in the
pure compounds. The heat capacity is 1.3 kj mol 'K ", for DMPC and 1.6 kj mol-'K-'
...
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Contents
Solutes and Solvents SelfAssembly | 1 |
Exercises | 34 |
Surface Free Energy | 41 |
Copyright | |
16 other sections not shown
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Common terms and phrases
acid adsorbed adsorption aggregation number amphiphilic aqueous behavior bilayer calculate Chapter charge density charged surfaces Chem chemical potential coagulation coefficient colloidal colloidal particles colloidal systems component concentration counterions curvature curve decreases depends determine diffusion dipole dispersion distance distribution DLVO theory double layer drop droplets effect electrical electrolyte electrostatic emulsion entropy equation equilibrium force formation free energy Hamaker constant head group hydrocarbon hydrocarbon chain increases interface ionic lamellar latex lipid liquid crystal measured membrane micellar micelles microemulsion molecular molecules monolayer monomer nucleation obtain occurs osmotic parameter phase diagram Poisson-Boltzmann equation polar polyelectrolyte polymer pressure properties protein radius repulsive result scattering Section separation shown in Figure shows solid solubility solvent spheres spherical stability structure surface charge surface potential surface tension surfactant surfactant film temperature term theory thermodynamic tion transition vesicles volume fraction Waals zero zeta potential
Bibliographic information
| Title | The colloidal domain: where physics, chemistry, biology, and technology meet Advances in interfacial engineering series |
| Authors | D. Fennell Evans, Håkan Wennerström |
| Edition | 2, illustrated |
| Publisher | VCH Publishers, 1994 |
| Original from | the University of Michigan |
| Digitized | 26 Nov 2007 |
| ISBN | 1560815256, 9781560815259 |
| Length | 515 pages |
| Subjects | › › Colloids Science / Chemistry / General Science / Chemistry / Physical & Theoretical Surface chemistry |
| Export Citation | BiBTeX EndNote RefMan |