Full Product Details
Author: Samuel H. Yalkowsky (Professor, Professor, University of Arizona)
Publisher: American Chemical Society
Imprint: American Chemical Society
Volume: No. 1
Dimensions:
Width: 16.00cm
, Height: 2.90cm
, Length: 24.20cm
Weight: 0.951kg
ISBN: 9780841235762
ISBN 10: 0841235767
Pages: 496
Publication Date: 29 July 1999
Audience:
Professional and scholarly
,
Professional & Vocational
Format: Hardback
Publisher's Status: No Longer Our Product
Availability: In Print
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Reviews
Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News
<br> Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News<br>
<br> Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News<p><br>
Provides a working knowledge of the various means of controlling the solubility and dissolution rates of drugs and other biologically active compounds. Begins by describing factors that govern solubility in general and aqueous solubility in particular, then outlines various techniques for altering solubility and dissolution rates of organic compounds. Covers most commonly used solubility enhancers, such as buffers, cosolvents, surfactants, and complexants. A conceptual basis for understanding the degree of solubilization of a solute is provided for each technique, along with examples using a number of real drugs. For new and experienced researchers in pharmaceuticals. The author is professor of pharmaceutical sciences at the University of Arizona. --SciTech Book News<br>
