| Preface: Welcome to Santiago de Compostela |
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xvii | |
| Acknowledgements and Sponsors |
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xviii | |
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Separation and Characterization |
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Development of a fluorimetric-FIA method to monitor cyclodextrin production from starch and the formation of inclusion complexes |
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3 | (4) |
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Development of enzyme immunoassays specific for natural β- and γ-cyclodextrins and synthetic derivatives. Pharmacokinetic analysis of cyclodextrins in rat |
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7 | (4) |
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The role of host guest interaction in thickening and phase separation of β-cyclodextrin polymer and polymers bearing cyclic hydrophobic side groups |
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11 | (4) |
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Specific binding and precipitation of γ- cyclodextrin with monosaccharide in an aqueous solution |
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15 | (4) |
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Analysis of hydroxypropyl cyclodextrins by liquid chromatography and evaporative light scattering detection |
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19 | (4) |
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LC-ELSD or (and) LC-MS: a well suited technique for characterization of the differences in the commercially available DM-β-CDS |
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23 | (4) |
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Thermal degradation of cyclodextrins |
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27 | (6) |
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Selective modifications of cyclodextrins |
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33 | (4) |
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Cyclodextrin derivatives with enhanced solubilizing power and lower toxicity |
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37 | (4) |
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α-Cycloaltrin: conformation and properties in the solid state and aqueous solution |
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41 | (8) |
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Symmetrical and non-symmetrical urea derivatives of β-cyclodextrin and piperazine: application in capillary electrophoresis |
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49 | (4) |
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Sulfated cyclodextrin derivatives |
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53 | (4) |
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The molecular geometries of cyclofructins |
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57 | (6) |
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Molecular geometries of furanoid β (1 → 3) and β (1 → 6)-linked cyclogalactins |
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63 | (6) |
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Synthesis and characterization of peptido-cyclodextrins dedicated to drug targeting |
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69 | (4) |
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Mono-6-tosyl-β-cyclodextrin: preparation, hydrolysis and self-inclusion studies in aqueous solution |
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73 | (4) |
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Thiourea-bridge β-cyclodextrin conjugates |
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77 | (4) |
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Associations of amphiphilic degradable polymers with β-cyclodextrin polymers: pH - dependant network |
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81 | (4) |
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Original associating system between hydrophobically modified N, N-dimethylacrylamide hydroxyethyl methacrylate copolymers and water soluble β-cyclodextrins polymers |
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85 | (4) |
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Production of cyclomaltonaose (δ-cyclodextrin) by various cyclodextrin glycosyltransferases |
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89 | (4) |
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Capillary electrophoretic investigation of the inclusion complex forming properties of large cyclodextrins |
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93 | (4) |
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New sorbents containing β-cyclodextrin: Synthesis, characterisation and, sorption properties |
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97 | (4) |
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Preparation and characterization of sorbents containing β CD derivatives coated or grafted onto silica gel |
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101 | (4) |
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Comparative cation chelating properties of per (3,6 anhydro), -and per (3,6 anhydro-2-OMe) α-cyclodextrins |
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105 | (4) |
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Synthesis of cyclodextrin glycerol ethers and investigation of their binding properties |
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109 | (4) |
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Conformational equilibria of α-cycloaltrin in solutions |
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113 | (4) |
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The synthesis of oligosaccharide-branched cyclodextrins |
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117 | (4) |
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Crystallization of partially O-alkylated β-cyclodextrins by including polymers |
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121 | (4) |
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Synthesis of per (2,3-di-o-hexanoyl)-β-cyclodextrin and characterization of amphiphilic β-cyclodextrin nanoparticles |
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125 | (4) |
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Thiamine-appended cyclodextrin dimer as a ligase model |
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129 | (4) |
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Substituted cyclodextrins with amino acids as hydrolysis enzyme models |
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133 | (4) |
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Synthesis and molecular recognition abilities of modified 7-cyclodextrins bearing two pyrene moieties |
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137 | (4) |
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Molecular ``lego'' composed of monosubstituted cyclodextrins |
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141 | (4) |
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Structural analyses of sugar branched cyclodextrin derivatives by the post-source decay fragment method in MALDI-TOF mass spectrometry |
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145 | (4) |
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Three dimensional structure of branched α-cyclodextrins in solution |
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149 | (4) |
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Synthesis and enhanced chemiluminescence of new monocyclomaltooligosaccharide-bound 6-phenylimidazo[1,2-α]pyrazin-3(7H)-ones |
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153 | (4) |
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Thermal behaviour and phase transitions of cyclomaltononaose (δ-cyclodextrin) |
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157 | (4) |
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Textile finishing with MCT-β-cyclodextrin |
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161 | (6) |
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Isolation, purification, and characterization of cyclomaltooctadecaose (ν-CD) and cyclomaltononadecaose (ξ-CD) |
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167 | (4) |
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Supramolecular assembly of polycharged β-cyclodextrin derivatives: Formation of heterodimers between a polyamino- and a polysulfonato-β-cyclodextrin |
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171 | (4) |
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Insoluble polymers with high amounts of β CD: characterization and adsorption capacity |
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175 | (4) |
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Influence of pH on the stability of the inclusion complex of methyl orange and β-cyclodextrin |
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179 | (4) |
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An improved synthesis of per(6-deoxyhalo) cyclodextrins using N-halo succinimides-triphenylphosphine in dimethylformamide |
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183 | (6) |
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Cyclodextrins in Pharmacy and Biotechnology |
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Anti-asthmatic-cyclodextrin inclusion complex for pulmonary delivery |
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189 | (4) |
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Cyclodextrin-containing membranes. Synthesis and separation properties in pertraction |
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193 | (4) |
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Efficacy and safety of cyclodextrins in nasal drug delivery |
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197 | (6) |
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A Preliminary study of a β-cyclodextrin/salbutamol complex for possible use is a dry powder inhaler |
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203 | (4) |
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Solubility of a isoxazolyl-naphtoquinone by complexation with hydropxypropyl-β- cyclodextrin |
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207 | (4) |
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A comparative study of the dissolution properties of piroxicam-β-cyclodextrin inclusion complexes prepared by different methods |
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211 | (4) |
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A comparative pharmacokinetic study of intravenous solutions of miconazole with or without cyclodextrins |
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215 | (4) |
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Development of a sustained release dosage form containing a diclofenac-cyclodextrin inclusion complex |
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219 | (4) |
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Influence of cyclodextrins on the solubility and the pharmacokinetics of albendazole |
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223 | (4) |
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Evaluation of supironolactone bioavailability from solutions of β-cyclodextrin derivatives in rats |
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227 | (4) |
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Chemosensors of modified cyclodextrins for detecting molecules |
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231 | (4) |
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Molecularly imprinted cyclodextrin polymers as artificial receptors - The requisites for remarkable imprinting |
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235 | (4) |
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New developments in improvement og drug solubility and availability by cyclodextrins |
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239 | (8) |
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Design and evaluation of colon-specific drug delivery system based on cyclodextrin conjugates |
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247 | (10) |
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The effect of 2-hydroxypropyl-β-cyclodextrin on the solubility, stability and brain targeting of chemical delivery systems for neuropeptides |
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257 | (1) |
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Enhanced complexation efficacy of cyclodextrins |
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257 | (4) |
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Coadministration of a water-soluble polymer increases the usefulness of cyclodextrins in solid oral dosage forms |
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261 | (4) |
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Evaluation of degradation studies performed in aqueous cyclodextrin solutions |
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265 | (4) |
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The effect of cellulose ethers on indomethacin/cyclodextrin complexation |
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269 | (4) |
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Physicochemical characterization and pharmacological properties of different cyclodextrin complexes of a platelet activating factor receptor antagonist: SR 27417A |
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273 | (4) |
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Mutual solubility enhancement by binary and multicomponent complexation of clomiphene and tamoxifen |
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277 | (4) |
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Preparation and characterization of piroxicam alkali-salt-γ-cyclodextrin complexes |
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281 | (4) |
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Design and evaluation of a porosity-controlled osmotic pump tablet for chlorpromazine using (SBE) 7m-β-CD |
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285 | (4) |
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Comparison of the solubilizing effect of ethyl carbonate of γ-cyclodextrin to other cyclodextrin derivatives |
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289 | (4) |
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Improved solubility and oral bioavailability of cyclosporin a by hydrophilic cyclodextrin complexation |
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293 | (4) |
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Effect of amorphouse β-cyclodextrins on crystallization and polymorphic transition of tolbutamide in solid state |
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297 | (4) |
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A new method for determination of stability constant of cyclodextrin complexes by membrane permeation technique |
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301 | (4) |
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Effects of hydrophilic cyclodextrins in aggregation of recombinant human growth hormone |
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305 | (4) |
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Preparation and pharmaceutical evaluation of heptakis (2,6-di-O-methyl-3-O-acetyl) -β-cyclodextrin |
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309 | (4) |
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Characterization of itraconazole/2-hydroxypropyl-β-cyclodextrin inclusion complex in aqueous solution |
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313 | (4) |
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Sustained release and intestinal absorption of drug from the hydrophobic α-, β- and γ-cyclodextrin complexes |
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317 | (4) |
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Hydroxypropyl gamma-cyclodextrin as a solubiliser and dissolution enhancing agent: the case of tolbutamide-a poorly water-soluble drug |
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321 | (4) |
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Interactions of surfactants with tolbutamide-β-cyclodextrin inclusion compound: the consequence in drug dissolution |
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325 | (4) |
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Differential scanning calorimetry as an analytical tool in determining the interaction between drug and cyclodextrin |
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329 | (4) |
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Solubility enhancer decreases the dissolution of complexed drugs: effect of sodium-lauryl-sulfate on dissolution profile of complexed drugs |
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333 | (4) |
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Interaction between ranitidine hydrochloride and β-cyclodextrin |
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337 | (4) |
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Physical and chemical changes in the properties of β-cyclodextrin on inclusion complex formation |
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341 | (2) |
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A new nonlinear method on determination of the stability constant for the steroid-cyclodextrin complex |
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343 | (4) |
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2,4-Dichlorophenoxyacetic acid α- and β CD inclusion complexes. A 1H-nuclear magnetic resonance study |
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347 | (4) |
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Investigation of the inclusion complex and stoichiometry of omeprazole with β-CD 1H-NMR spectroscopy |
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351 | (4) |
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Influence of cyclodextrins on the chemical stability of salmon calcitonin in aqueous solution |
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355 | (4) |
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Complexation propierties of β-cyclodextrin sulfobutylether sodium salt |
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359 | (4) |
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How do cyclodextrins enhance drug permeability through biological membranes? |
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363 | (4) |
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Differential scanning calorimetry analysis of crystallinity changes of naproxen in ground mixtures with maltohexaose, the non cyclic analog of alpha-cyclodextrin |
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367 | (4) |
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Dissolution rate and thermal properties of naproxen in mixtures with amorphous or crystalline dimethyl β-cyclodextrin |
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371 | (4) |
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Improvement of econazole solubility in multicomponent systems with cyclodextrins and acids |
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375 | (4) |
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Phase-solubility analysis and molecular modeling in the study of naproxen-cyclodextrin interaction |
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379 | (4) |
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Potency modification of antibacterial adamantane derivatives by compexation with β-CD and HP-β-CD. Study of their thermotropic properties in dipalmitoyl phosphatidylcholine bilayers containing cholesterol and 13C NMR study of their structures |
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383 | (4) |
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Pharmacological investigations of new peptido-cyclodextrins |
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387 | (4) |
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Characterization of cyclodextrin complexes of (S)-naproxen by X-ray and thermal methods of analysis |
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391 | (4) |
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CD-medium control of microbial sterol sidechain cleavage |
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395 | (4) |
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Compressional properties of cyclodextrins |
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399 | (4) |
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In vitro and in vivo investigations of the specific binding of substance P-γ-cyclodextrin adducts to rat brain NK1 receptors |
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403 | (4) |
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Stabilization of retinol with γcyclodectrin |
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407 | (4) |
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Inclusion study in β-cyclodextrin and dimetyl-β-cyclodextrin of antiparasitaries in solution and in the solid state |
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411 | (4) |
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Study of inclusion compound of triamcinolone acetonide |
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415 | (4) |
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Complexation of bile salts by β-cyclodextrin and derivatives |
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419 | (4) |
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1HNMR contribution to prove the formation of inclusion complex between nimesulide and β-cyclodextrin and its hydrophilic derivatives |
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423 | (4) |
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Complexation of amino acids by 6A_ (hydroxyethylamino)-6A_deoxy-β-cyclodextrin (β-CDea) and the Metallo-derivatives in Aqueous Solution |
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427 | (6) |
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Effect of the complexation of ciprofloxacin and norfloxacin with cyclodextrin derivatives on its dissolution characteristics |
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433 | (4) |
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Effect of hydroxypropyl-β-cyclodextrin on the stability of pilocarpine in solution. Influence of the complex preparation |
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437 | (4) |
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Dissolution behaviour of diclofenac sodium-β- and hydroxypropyl-β-cyclodextrin inclusion complexes |
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441 | (4) |
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Effect of (SBE)7m-β-CD on methylprednisolone transport across ethylcellulose microporous membranes |
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445 | (4) |
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Optimization of entrapment of metronidazole in amphiphilic β-cyclodextrin nanospheres |
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449 | (4) |
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Cyclodextrin polysulfates in cell biology and therapeutic pharmacology |
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453 | (6) |
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The use of (SBE)7m-β-CD (CAPISTOL™) as a solubilizing and osmotic agent for controlled and complete oral delivery of poorly water soluble drugs |
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459 | (4) |
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Preparation and characterization of inclusion complexes of cyclodextrins and tuberculosis primary treatment drugs |
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463 | (4) |
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Influence of different cyclodextrins on physico-chemical and pharmacological properties of etodolac |
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467 | (4) |
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Solid-state nifedipine-cyclodextrin photostability studies |
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471 | (4) |
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Inclusion complexation of nimesulide with β-cyclodextrins and its formulation into tablets |
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475 | (4) |
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Inclusion complexation of tolfenamic acid with β-cyclodextrins and its formulation into tablets |
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479 | (4) |
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Preparation by extrusion/spheronization of triamcinolone β-cyclodextrin pellets as a fast release dosage form |
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483 | (6) |
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Cyclodextrins in Chemistry |
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Renaturation of SDS- and thermall denaturated cellulase system by α-cyclodextrin |
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489 | (4) |
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Absorption and recovery of volatile chlorinated hydrocarbons by use of aqueous solutions of branched cyclodextrins |
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493 | (4) |
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Oxidation of hydrophobic o-diphenols by lipoxygenase in the presence of cyclodextrins |
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497 | (4) |
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Inclusion properties, metal ion coordination ability and analytical applications of trehalose capped cyclodextrins |
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501 | (4) |
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Covalent and non-covalent adducts based on cyclodextrins and poly (ethyleneoxide) |
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505 | (4) |
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The Effect of cyclodextrins on the hydrolysis of benzyl halides |
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509 | (4) |
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Regioselective substitution of cyclodextrins without using protecting groups |
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513 | (4) |
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Molecular imprinting system using cyclodextrin |
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517 | (4) |
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Energy transfer in naphthalene-containing rotaxane and polyrotaxane |
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521 | (4) |
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Kinetic study of the oxidation of linoleic acid by soybean lipoxygenase in presence of βcyclodextrin |
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525 | (4) |
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Esterolysis reaction catalysed by β-cyclodextrin: influence of the tacticity of water-soluble polymers |
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529 | (4) |
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Cyclodextrin assistance in the enzymatic degradation of the moringa glucosinolate |
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533 | (4) |
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Kinetic effects on the dismutation of superoxide radical by copper (II) complexes of cyclodextrin-based SOD models |
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537 | (4) |
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Cyclodextrins as molecular templates |
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|
541 | (4) |
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Cyclodextrin radicals produced by photochemical hydrogen abstraction by ketones and nitrogen heterocycles |
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545 | (4) |
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Oxidative stability of docosa hexaenoic acid oil (triglyceride form) included in cyclodextrins |
|
|
549 | (4) |
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Molecular recognition of a self-assembled monolayer of a polydithiocarbamate derivative of β-cyclodextrin on silver |
|
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553 | (4) |
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Inhibition by cyclodextrins of nitrosation reactions |
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557 | (6) |
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Molecular necklaces containing reporter molecules |
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563 | (4) |
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Molecular dynamics simulations of polyrotaxanes formed by poly(oxytrimethylene) α-cyclodextrins |
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567 | (4) |
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Kinetic behaviour of β-cyclodextrins immobilized in PEEK-WC membranes |
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571 | (6) |
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Cyclodextrins in Environment Sciences |
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Application of cyclodextrins in nuclear waste management |
|
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577 | (6) |
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Optimization of fuel oil desulfuration by βcyclodextrin |
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583 | (4) |
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Inclusion of environment contaminants with β-cyclodextrin, and adsorption and removal by β-cyclodextrin polymer |
|
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587 | (4) |
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Luminescent behavior of Eu(nta)3 dipy complex in the presence of β-cyclodextrins |
|
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591 | (4) |
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Study of complexation between the pesticide chlorpyrifos and &beta- and HP-β-cyclodextrins |
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595 | (4) |
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Application of randomly methylated β-cyclodextrin for bioremediation of contaminated soil |
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599 | (6) |
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Cyclodextrins As Chiral Selectors |
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Modified cyclodextrins as versatile chiral stationary phases in flavour chemistry and life sciences |
|
|
605 | (4) |
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βcyclodextrins as molecular scaffolds to reverse the regioselectivity of nitrile oxide cycloadditions |
|
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609 | (4) |
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Analysis and characterisation of commercial DM-β-CD. Influence of mixture composition in chiral separation in capillary electrophoresis and supercritical fluid chromatography |
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613 | (4) |
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Pure monopentenylated &beta-cyclodextrin as chiral agent: purity check by LC-ELSD and LC-MS |
|
|
617 | (4) |
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Cyclodextrins dominate the chiral chromography |
|
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621 | (4) |
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New asymmetric β-cyclodextrin derivatives designed for chiral recognition |
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625 | (6) |
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Cyclodextrin Complexes and its Characterization |
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Study of the formation of the inclusion compound between rhodium (II)3-chlorocinnamate and β-cyclodextrin |
|
|
631 | (4) |
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Formation of inclusion complex of cyclodextrin in organic solvents and alcohols under anhydrous conditions |
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635 | (4) |
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Inclusion complexes of UV filters in solution and in solid state |
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639 | (6) |
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Encapsulation of porphyrins by &gama;-cyclodextrin |
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645 | (4) |
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Guest-dependent ordering of the self-assembled cyclodextrin inclusion complexes studied by scanning tunneling microscopy |
|
|
649 | (4) |
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The application of differential conductivity method to the determination of binding constant of β-cyclodextrin with sodium perfluorooctanoate |
|
|
653 | (4) |
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Influence of the guest, the type and degree of substitution on inclusion complex formation of sustituted β-cyclodextrins |
|
|
657 | (2) |
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Reliable NMR experiments for the determination of the structure of cyclodextrin inclusion complexes iin solution |
|
|
659 | (4) |
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1H-NMR Circular dichrosim and UV-visible spectroscopic study of inclusion complexes formation between o-, m- and p-hydroxyphenol and β-cyclodextrin |
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|
663 | (4) |
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Molar partial properties in host-guest systems: application to the inclusion complexes between β-cyclodextrin and sodium alkanoates |
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|
667 | (4) |
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The binding of 2-naphthamides to β-cyclodextrin |
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|
671 | (4) |
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Publications - new products, is there any correlation? |
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675 | (6) |
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Cyclodextrins in Food and Cosmetics |
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Preliminary study of dye sorption by various kinds of insoluble sorbents containing β-cyclodextrin |
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681 | (4) |
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Release characteristics of hydrophobic flavor encapsulated in cyclodextrins |
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685 | (4) |
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A 1H-NMR study of inclusion compounds of model food flavours in β-cyclodextrin |
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689 | (4) |
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β-cyclodextrin emulsion: mecanism of emulsification and application to the preparation of green metalworking fluids |
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693 | (4) |
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| Subject index |
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697 | |
Other versions by this Author
