Gogolashvili A.
29
Coauthors
5
Documentos
Volumen de publicaciones por año
Cargando gráfico
| Año de publicación | Num. Publicaciones |
|---|---|
| 2017 | 1 |
| 2020 | 1 |
| 2021 | 2 |
| 2022 | 1 |
Publicaciones por áreas de conocimiento
Cargando gráfico
| Área de conocimiento | Num. Publicaciones |
|---|---|
| Bioquímica | 5 |
| Química analítica | 3 |
| Biomateriales | 1 |
| Biotecnología | 1 |
Publicaciones por áreas temáticas
Cargando gráfico
| Área temática | Num. Publicaciones |
|---|---|
| Química orgánica | 3 |
| Microorganismos, hongos y algas | 2 |
| Bioquímica | 2 |
| Química analítica | 2 |
| Técnicas, equipos y materiales | 1 |
| Factores que afectan al comportamiento social | 1 |
Principales fuentes de datos
| Origen | Num. Publicaciones |
|---|---|
| Scopus | 5 |
| Google Scholar | 0 |
| RRAAE | 0 |
Cargando gráfico
Coautores destacados por número de publicaciones
| Coautor | Num. Publicaciones |
|---|---|
| Antonio Salgado | 5 |
| Chankvetadze B. | 5 |
| Merlani M. | 2 |
| Barbakadze V. | 2 |
| Amiranashvili L. | 2 |
| Gogilashvili L. | 2 |
| Chankvetadze L. | 2 |
| Takaishvili N. | 2 |
| Getia M. | 1 |
| Churadze M. | 1 |
Cargando gráfico
Top Keywords
Cargando gráfico
Publicaciones del autor
Separation of terbutaline enantiomers in capillary electrophoresis with neutral cyclodextrin-type chiral selectors and investigation of the structure of selector-selectand complexes using nuclear magnetic resonance spectroscopy
ArticleAbstract: The major goal of this study was to determine the affinity pattern of the terbutaline (TB) enantiomePalabras claves:cyclodextrins, enantiomer migration order, selector–selectand complexes, separation of enantiomers, terbutalineAutores:Antonio Salgado, Chankvetadze B., Chankvetadze L., Gogolashvili A., Takaishvili N.Fuentes:scopusStructural rationale for the chiral separation and migration order reversal of clenpenterol enantiomers in capillary electrophoresis using two different β-cyclodextrins
ArticleAbstract: NMR spectroscopy experiments, molecular dynamics simulations, and theoretical chemistry calculationsPalabras claves:Autores:Antonio Salgado, Chankvetadze B., Gago F., Gogolashvili A., Tatunashvili E.Fuentes:scopusBiologically Active Sugar-Based Biopolyether Poly[3-(3,4-Dihydroxyphenyl)Glyceric Acid] from the Stems and Roots of Paracynoglossum imeretinum (Kusn.) M.Pop
ArticleAbstract: The high-molecular water-soluble mucilage fractions from stems and roots of Paracynoglossum imeretinPalabras claves:Boraginaceae, Caffeic acid-derived polymer, Paracynoglossum imeretinum, poly[3-(3 4-dihydroxyphenyl)glyceric acid], poly[oxy-1-carboxy-2-(3 4-dihydroxyphenyl)ethylene], sugar-based biopolyetherAutores:Amiranashvili L., Antonio Salgado, Barbakadze V., Chankvetadze B., Getia M., Gogilashvili L., Gogolashvili A., Merlani M.Fuentes:scopusCarbohydrate-Based Biopolymers: Biologically Active Poly[3-(3,4-Dihydroxyphenyl)Glyceric Acid] from Borago officinalis
ArticleAbstract: A high-molecular water-soluble preparation from stems of Borago officinalis (Boraginaceae family) waPalabras claves:Borago officinalis, caffeic acid-derived polyether, Carbohydrate-based biopolymers, Poly[3-(3,4-dihydroxyphenyl)glyceric acid], poly[oxy-1-carboxy-2-(3,4-dihydroxyphenyl)ethylene]Autores:Amiranashvili L., Antonio Salgado, Barbakadze V., Chankvetadze B., Churadze M., Gogilashvili L., Gogolashvili A., Merlani M.Fuentes:scopusSeparation of tetrahydrozoline enantiomers in capillary electrophoresis with cyclodextrin-type chiral selectors and investigation of chiral recognition mechanisms
ArticleAbstract: The recognition power and affinity pattern of various cyclodextrins (CD) towards the enantiomers ofPalabras claves:capillary electrophoresis, Chiral recognition mechanism, cyclodextrins, molecular modeling, nuclear magnetic resonance spectroscopy, TetrahydrozolineAutores:Antonio Salgado, Chankvetadze B., Chankvetadze L., Dallocchio R., Gogolashvili A., Lomsadze K., Peluso P., Takaishvili N.Fuentes:scopus