UID:
almahu_9948026436502882
Format:
1 online resource (215 p.)
Edition:
1st ed.
ISBN:
1-282-28672-2
,
9786612286728
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0-08-091984-7
Series Statement:
Interface science and technology ; v. 17
Content:
This title in the authoritative Interface Science and Technology Series presents the key features and applications of modified oxide and phosphate surfaces.* Examines both basic and applied aspects * Incorporates examples from recent publications
Note:
Description based upon print version of record.
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Front Cover; Chemistry on Modified Oxide and Phosphate Surfaces: Fundamentals and Applications; Copyright Page; Table of Contents; Preface; Chapter 1. Oxides and Phosphates; References; Chapter 2. Surfaces and Modified Surfaces; Reference; Chapter 3. Chemistry on Organofunctionalized Amorphous Oxides Surfaces; 1. Introduction; 2. Modified amorphous oxide surfaces as metal cation sequestrating agents; 3. Organofunctionalized metal-modified surfaces for chromatographic applications; 4. Modified amorphous oxides for luminescent devices; 4.1. A 3-trimethoxypropylthioethylamine-modified surface
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4.2. In situ synthesis of luminescent complexes on amorphous modified silica surfaces5. Modified amorphous oxide surfaces as electrochemical sensors; 5.1. Metal cation electrochemical sensors; 5.2. Paracetamol sensors; 5.3. Chemically modified oxide surfaces capable of molecular recognition; 6. The influence of magnesium trisilicate and silicon dioxide on the thermal degradation of ascorbic acid; References; Chapter 4. Chemistry on Organofunctionalized Nanostructured Oxides' Surfaces; 1. Introduction; 2. Inorganic-organic hybrids; 3. Sol-gel lamellar silica; 3.1. Eu(II)-doped lamellar silica
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4. Titania foam and thiol-functionalized nanoporous titania-silica4.1. Thiol-functionalized nanoporous titania-silica; 4.2. Titania foam; 5. The effects of nanostructure on adsorption features: metal chemisorption on hexagonal templated zirconia obtained thorough sol-gel process; 6. Surface modifications promoted by not bonded species; 6.1. Effects of metal salts, DMF, and DMSO on the anatase-rutile transition in sol-gel-synthesized TiO2; 7. Hexagonal mesoporous silica; References; Chapter 5. Chemistry on Conducting Polymer-Modified Oxide Surfaces; 1. Introduction; 2. Synthetic approach
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3. Effects of adsorbed conducting polymer on the oxide properties4. Effects of the oxide on the adsorbed polymer properties; References; Chapter 6. Chemistry on Modified Layered Oxides; 1. Introduction; 2. Titanates and niobates; 3. Tungstates and molybdates; 4. Molybdenum oxide as a molecular sieve; 4.1. MoO3 intercalation compounds with nic and hmta; 4.2. Adsorption of caffeine, dimethylglyoxime, and rodamin-B on lamellar molybdenum oxide; 5. Sol-gel modified molybdenum oxide; 6. Graphite oxide; References; Chapter 7. Chemistry on Modified Phosphates; 1. Introduction
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2. Titanium and zirconium phosphates3. Vanadyl phosphate; 3.1. Synthesis and characterization of a VOPO4-NH3 hybrid; 3.2. More vanadyl phosphate compounds; 4. Barium and calcium phosphate; 5. Adsorption of glycine on ""animal"" (bone) phosphate; 5.1 Introduction; 5.2 Experimental; 5.3 Results and discussion; 6. A final example; References; Chapter 8. Chemistry on Modified Clay Surfaces; 1. Introduction; 2. Vermiculite surface modified with carnauba wax for oil cleaning; 3. Water as a surface modifier: the hydrophobicity of vermiculite
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4. The effect of surface chemical composition on the acid corrosion of pedra sabão (soapstone)
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English
Additional Edition:
ISBN 0-12-372554-2
Language:
English