基礎講座 電気泳動(Electrophoresis)

The development of novel materials is a fundamental focal point of chemical research; and this interest is mandated by advancements in all areas of industry and technology. A good example of the synergism between scientific discovery and technological development is the electronics industry, where discoveries of new semiconducting materials resulted in the evolution from vacuum tubes to diodes and transistors, and eventually to miniature chips. The progression of this technology led to the development * To whom correspondence should be addressed. B.L.C.: (504) 2801385 (phone); (504) 280-3185 (fax); bcushing@uno.edu (e-mail). C.J.O.: (504)280-6846(phone);(504)280-3185(fax);coconnor@uno.edu (e-mail). 3893 Chem. Rev. 2004, 104, 3893−3946

http://depa.fquim.unam.mx/amyd//archivero/FidelmarLechugaSanabria_4940.pdf

Recent advances in the liquid-phase syntheses of inorganic nanoparticles.

1: Magnetic Particles: Preparation, Properties and Applications: M. Ozaki. 2: Maghemite (gamma-Fe2O3): A Versatile Magnetic Colloidal Material C.J. Serna, M.P. Morales. 3: Dynamics of Adsorption and Oxidation of Organic Molecules on Illuminated Titanium Dioxide Particles Immersed in Water M.A. Blesa, R.J. Candal, S.A. Bilmes. 4: Colloidal Aggregation in Two-Dimensions A. Moncho-Jorda, F. Martinez-Lopez, M.A. Cabrerizo-Vilchez, R. Hidalgo Alvarez, M. Quesada-PMerez. 5: Kinetics of Particle and Protein Adsorption Z. Adamczyk.

Surface and Colloid Science

This chapter introduces the finite element method (FEM) as a tool for solution of classical electromagnetic problems. Although we discuss the main points in the application of the finite element method to electromagnetic design, including formulation and implementation, those who seek deeper understanding of the finite element method should consult some of the works listed in the bibliography section.

Introduction to the Finite Element Method

Applied Numerical Analysis. By C.F. Gerald. Pp. xii, 340. £3·60. 1970. (Addison-Wesley.)

The supersaturation, induction period, and mctastablc zone width ofan aqueous supersaturated solution of CaC2—Na2C03—HCl system are studied in the present paper. The supersaturation is varied and predicted within a reasonable accuracy when a specified amount of HCl(aq) is added into the aqueous supersaturated CaC2—Na2C03—HCl solution. It is found that the decrease of solution supersaturation at low pH is caused mainly by the decrease of carbonate ions. Then, the induction periods are estimated by using the coagulation theory and they can be expressed as a function of supersaturation alone, which results from different values of reagent concentration and pH. Finally, the theoretical metastable zone widths based on arbitrary induction periods are obtained. Meanwhile, the induction periods are measured at various levels of reagent concentration and solution pH by applying the conductivity method. Accordingly, the metastable zone widths are determined experimentally and compared with the theoretical ...

Jyh-Ping Hsu

Papers

SUPERSATURATION, INDUCTION PERIOD, AND METASTABLE ZONE WIDTH OF CaCl2—Na2C03—HCl SYSTEM

Kinetic modelling of blood glucose variation in a bioartificial pancreas

Diffusiophoresis of a charged toroidal polyelectrolyte

Nanofiltration through pH-regulated bipolar cylindrical nanopores for solution containing symmetric, asymmetric, and mixed salts

Biodigestion of solid substrate: Effect of random initial condition