| Preface |
|
ix | |
|
|
|
1 | (2) |
|
Surfaces and Modified Surfaces |
|
|
3 | (2) |
|
Chemistry on Organofunctionalized Amorphous Oxides Surfaces |
|
|
5 | (28) |
|
|
|
5 | (3) |
|
Modified amorphous oxide surfaces as metal cation sequesting agents |
|
|
8 | (1) |
|
Organofunctionalized metal-modified surfaces for chromatographic applications |
|
|
8 | (1) |
|
Modified amorphous oxides for luminescent devices |
|
|
9 | (11) |
|
A 3-trimethoxypropylthioethylamine-modified surface |
|
|
9 | (3) |
|
In situ synthesis of luminescent complexes on amorphous modified silica surfaces |
|
|
12 | (8) |
|
Modified amorphous oxide surfaces as electrochemical sensors |
|
|
20 | (4) |
|
Metal cation electrochemical sensors |
|
|
20 | (2) |
|
|
|
22 | (2) |
|
Chemically modified oxide surfaces capable of molecular recognition |
|
|
24 | (1) |
|
The influence of magnesium trisilicate and silicon dioxide on the thermal degradation of ascorbic acid |
|
|
24 | (9) |
|
|
|
31 | (2) |
|
Chemistry on Organofunctionalized Nanostructured Oxides' Surfaces |
|
|
33 | (18) |
|
|
|
33 | (1) |
|
Inorganic---organic hybrids |
|
|
34 | (1) |
|
|
|
34 | (4) |
|
Eu(II)-doped lamellar silica |
|
|
35 | (3) |
|
Titania foam and thiol-functionalized nanoporous titania-silica |
|
|
38 | (3) |
|
Thiol-functionalized nanoporous titania-silica |
|
|
38 | (2) |
|
|
|
40 | (1) |
|
The effects of nanostructure on adsorption features: metal chemisorption on hexagonal templated zirconia obtained thorough sol-gel process |
|
|
41 | (4) |
|
Surface modifications promoted by not bonded species |
|
|
45 | (3) |
|
Effects of metal salts, DMF, and DMSO on the anatase-rutile transitions in sol-gel-synthesized TiO2 |
|
|
45 | (3) |
|
Hexagonal mesoporous silica |
|
|
48 | (3) |
|
|
|
49 | (2) |
|
Chemistry on Conducting Polymer-Modified Oxide Surfaces |
|
|
51 | (6) |
|
|
|
51 | (1) |
|
|
|
51 | (1) |
|
Effects of adsorbed conducting polymer on the oxide properties |
|
|
52 | (1) |
|
Effects of the oxide on the adsorbed polymer properties |
|
|
52 | (5) |
|
|
|
56 | (1) |
|
Chemistry on Modified Layered Oxides |
|
|
57 | (22) |
|
|
|
57 | (1) |
|
|
|
57 | (1) |
|
Tungstates and molybdates |
|
|
58 | (4) |
|
Molybdenum oxide as a molecular sieve |
|
|
62 | (10) |
|
MOO3 intercalation compounds with nic and hmta |
|
|
62 | (6) |
|
Adsorption of caffeine, dimethylglyoxime, and rodamin-B on lamellar molybdenum oxide |
|
|
68 | (4) |
|
Sol-gel modified molybdenum oxide |
|
|
72 | (5) |
|
|
|
77 | (2) |
|
|
|
78 | (1) |
|
Chemistry on Modified Phosphates |
|
|
79 | (12) |
|
|
|
79 | (1) |
|
Titanium and zirconium phosphates |
|
|
79 | (1) |
|
|
|
80 | (4) |
|
Synthesis and characterization of a VOPO4-NH3 hybrid |
|
|
80 | (3) |
|
More vanadyl phosphate compounds |
|
|
83 | (1) |
|
Barium and calcium phosphate |
|
|
84 | (1) |
|
Adsorption of glycine on ``animal'' (bone) phosphate |
|
|
84 | (5) |
|
|
|
84 | (1) |
|
|
|
84 | (1) |
|
|
|
85 | (4) |
|
|
|
89 | (2) |
|
|
|
89 | (2) |
|
Chemistry on Modified Clay Surfaces |
|
|
91 | (18) |
|
|
|
91 | (1) |
|
Vermiculite surface modified with carnauba wax for oil cleaning |
|
|
91 | (4) |
|
Water as a surface modifier: the hydrophobicity of vermiculite |
|
|
95 | (3) |
|
The effect of surface chemical composition on the acid corrosion of pedra sabao (soapstone) |
|
|
98 | (5) |
|
Thermal degradation of vegetable oils on clays (biodiesel production) |
|
|
103 | (3) |
|
|
|
103 | (3) |
|
|
|
106 | (3) |
|
|
|
107 | (2) |
|
|
|
109 | (4) |
|
|
|
109 | (1) |
|
Some examples and applications |
|
|
110 | (3) |
|
|
|
112 | (1) |
| Further Reading |
|
113 | (86) |
| Subject Index |
|
199 | |
