| Year | Department | Name (of the Staff/Student/Research scholar) | Title (of the Publication) | DoI/URL |
|---|---|---|---|---|
| CHEMISTRY | RITA PAL | 5. A Carbohydrate Based Total Synthesis of Xestodecalactone B and C: Revision of the Absolute Configuration | 10.2174/138527212800564321 | |
| CHEMISTRY | RITA PAL | 7. Direct glycosylation with anomeric hydroxyl sugars by activation with 3-fluorophthalic anhydride and trifluoromethanesulfonic anhydride | https://doi.org/10.1016/j.tetlet.2010.09.064 | |
| CHEMISTRY | RITA PAL | 4. Surface functionalization of protein crystals with carbohydrate using site-selective bioconjugation | https://doi.org/10.1246/cl.140865 | |
| CHEMISTRY | RITA PAL | 3. Dendritic bis- and tetrakis-iminodiacetic acid-boronate complexes in one-pot cross-coupling reactions | ||
| CHEMISTRY | RITA PAL | Stereoselective Formal Synthesis of Novel Antibiotic (−)-Centrolobine | 10.3987/com-08-s(s)1 | |
| CHEMISTRY | RITA PAL | Total Synthesis of (S)-(−)-Curvularin: A Ring-Closing Metathesis Based Construction of the Macrocyclic Framework | ||
| CHEMISTRY | RITA PAL | 9. Stereoselective Synthesis of the Densely Functionalized C1-C9 Fragment of Amphidinolides C and F | https://doi.org/10.1016/j.tetlet.2009.09.001 | |
| CHEMISTRY | RITA PAL | 2. Radical halogenation-mediated latent–active glycosylations of allyl glycosides | https://doi.org/10.1039/C7CC07332A | |
| CHEMISTRY | RITA PAL | One-pot oligosaccharide synthesis: Latent-active method of glycosylations and radical halogenation activation of allyl glycosides | https://doi.org/10.1515/pac-2019-0306 | |
| CHEMISTRY | RITA PAL | 6. Synthetic Studies of Superstolide A: A Carbohydrate Based Synthesis of the C21-C26 Segment | 10.2174/157017810793811704 | |
| CHEMISTRY | Shanty Mathew | Degradation of azo dye under visible light irradiation over nanographene oxide- zinc oxide nanocomposite as catalyst. Applied nanoscience, Shanty Mathew, Aneesha Antony, H. Kathyayini, Applied Nanoscience volume 10, 253–262(2020) | ||
| CHEMISTRY | Shanty Mathew | Catalytic activity of hydrated alumina supported molybdenum, chromium and vanadium-oxo species: A comparative study in dibenzyl ether formation. Shanty Mathew, H. Kathyayini, J.B. Nagy and N. Nagaraju Catalysis Communications. 10, 1043, 2009 | ||
| CHEMISTRY | Shanty Mathew | 1. Al(OH)3 containing molybdenum species as an efficient support-catalyst system in benzyl alcohol | ||
| CHEMISTRY | Shanty Mathew | 2. Influence of nature of support on the catalytic activity of supported molybdenum-oxo species in benzyl alcohol conversion. Shanty Mathew, C. Shivkumara and Nagaraju N, Journal of Molecular Catalysis255, 243, 2009 | ||
| CHEMISTRY | Shanty Mathew | Design of Sulphate Modified Solid Acid Catalysts for Transesterification of Diethyl Malonate with Benzyl Alcohol. K. U. Minchitha, H. N. Hareesh, K. Venkatesh, M. Shanty, N. Nagaraju, N. Kathyayini, Journal of Nanoscience and Nanotechnology. 17. 1-13, 2017. | ||
| CHEMISTRY | Sreenivasulu Bandi | Reversible mechanical interlocking of D- shaped molecular karabiners bearing coordination bond loade | ||
| CHEMISTRY | Sreenivasulu Bandi | Double-Stranded Binuclear Helicates and Helicity Modulation | ||
| CHEMISTRY | Sreenivasulu Bandi | Design of a double-decker coordination cage revisited to make new cages and exemplify ligand isomeri | ||
| CHEMISTRY | Sreenivasulu Bandi | All-Organic, Temporally Pure White Afterglow in Amorphous Films via Complementary Blue and Greenish- | ||
| CHEMISTRY | Sreenivasulu Bandi | One-pot synthesis of self-assembled heteroleptic palladium(II) complexes with tmeda: An application | ||
| CHEMISTRY | Sreenivasulu Bandi | Double decker coordination cages | ||
| CHEMISTRY | Sreenivasulu Bandi | Cage-to-cage cascade transformations | ||
| CHEMISTRY | Sreenivasulu Bandi | Stoichiometrically controlled revocable self-assembled spiro versus quadruple-stranded double-decker | ||
| CHEMISTRY | Suhas D P | Membranes for dehydration of alcohols via pervaporation | 10.1016/j.jenvman.2019.04.043 | |
| CHEMISTRY | Suhas D P | Hydrogen peroxide treated graphene as an effective nanosheet filler for separation application | 10.1039/c5ra19918b | |
| CHEMISTRY | Suhas D P | Sustainability considerations in membrane-based technologies for industrial effluents treatment | 10.1016/j.cej.2019.02.075 | |
| CHEMISTRY | Suhas D P | Graphene-loaded sodium alginate nanocomposite membranes with enhanced isopropanol dehydration perfor | 10.1039/c3ra42062k | |
| CHEMISTRY | Suhas D P | Para-Toluene sulfonic acid treated clay loaded sodium alginate membranes for enhanced pervaporative | 10.1016/j.clay.2014.08.017 | |
| CHEMISTRY | Suhas D P | Carboxylated graphene-alcohol oxidase thin films modified graphite electrode as an electrochemical s | 10.1016/j.mset.2019.10.009 | |
| CHEMISTRY | Suhas D P | Mixed matrix membranes of H-ZSM5-loaded poly(vinyl alcohol) used in pervaporation dehydration of alc | 10.1002/pen.23717 | |
| CHEMISTRY | Suhas D P | Preparation and characterization of novel polyurethanes containing 4, 4’-{oxy-1,4-diphenyl bis (ni | 10.1002/pen.23532 | |
| CHEMISTRY | Suhas D P | Membrane-based separation of potential emerging pollutants | 10.1016/j.seppur.2018.09.003 | |
| CHEMISTRY | Suhas D P | Functionalized graphene sheets embedded in chitosan nanocomposite membranes for ethanol and isopropa | 10.1021/ie502751h | |
| CHEMISTRY | SUNITA RAJAMANI | A dramatic effect of the ionic liquid structure in esterification reactions in protic ionic media | https://doi.org/10.1039/C2GC35941C | |
| CHEMISTRY | SUNITA RAJAMANI | Synthesis of glycerol carbonate from glycerol and dimethyl carbonate in basic ionic liquids | https://doi.org/10.1351/PAC-CON-11-07-06 | |
| CHEMISTRY | SUNITA RAJAMANI | Structural Effects on the Physicoâ€Chemical and Catalytic Properties of Acidic Ionic Liquids: An Ov | https://doi.org/10.1002/ejoc.201100432 | |
| CHEMISTRY | SUNITA RAJAMANI | Influence of alkyl substituent on optical properties of carboxylate-based protic ionic liquids | https://doi.org/10.1002/slct.201701878 | |
| CHEMISTRY | SUNITA RAJAMANI | Effect of several ionic liquids on the synthesis of 1,3-diphenyl-3-(phenylamino)propan-1-one in supe | 10.1039/C1RA00031D | |
| CHEMISTRY | SUNITA RAJAMANI | Acute toxicity and biodegradability of N-alkyl-N-methylmorpholinium and N-alkyl-DABCO based ionic li | https://doi.org/10.1016/j.ecoenv.2010.10.032 | |
| CHEMISTRY | SUNITA RAJAMANI | Value-added chemicals from sugarcane bagasse using ionic liquids | https://doi.org/10.1007/s11696-021-01732-6 | |
| CHEMISTRY | SUNITA RAJAMANI | Physico-chemical properties and nanoscale morphology in N-alkyl-N-methylmorpholinium dicyanamide roo | https://doi.org/10.1016/j.molliq.2013.08.002 | |
| CHEMISTRY | SUNITA RAJAMANI | Influence of Structural Variations in Cationic and Anionic Moieties on the Polarity of Ionic Liquids | 10.1021/jp2045788 | |
| CHEMISTRY | SUNITA RAJAMANI | AN ELECTROCHEMICAL PROCESS FOR PREPARING A REACTION PRODUCT OF A METAL OR METALLOID ELEMENT | EP 3 242 963 B1 | |
| CHEMISTRY | Vinutha V Salian | (2E)-1-(4-Chlorophenyl)-3-[4-(propan-2-yl)phenyl]prop-2-en-1-one | ||
| CHEMISTRY | Vinutha V Salian | Synthesis and crystallography of a dimerized chalcone derivative | ||
| CHEMISTRY | Vinutha V Salian | Molecular structure, spectroscopic, quantum chemical, topological, molecular docking and antimicrobial activity of 3-(4-Chlorophenyl)-5-[4-propan-2-yl) phenyl-4, 5-dihydro-1H- pyrazol-yl](pyridin-4-yl) methanone | ||
| CHEMISTRY | Vinutha V Salian | Tailor made biheterocyclic pyrazoline-thiazolidinones as effective inhibitors of Escherichia coli FabH: design, synthesis and structural studies | ||
| CHEMISTRY | Vinutha V Salian | 1-{3-(4-Chloro¬phen¬yl)-5-[4-(propan-2-yl)phen¬yl]-4,5-di¬hydro-1H-pyrazol-1-yl}butan-1-one | ||
| CHEMISTRY | Vinutha V Salian | A comprehensive review on recent developments in the field of biological applications of potent pyrazolines derived from chalcone precursors | ||
| CHEMISTRY | Vinutha V Salian | FT-IR and FT-Raman investigation, quantum chemical analysis and molecular docking studies of 5-(4-Propan-2-yl)benzylidene)-2-[3-(4-chlorophenyl)-5[4-(propan-2-yl)phenyl-4,5-dihydro-1H-pyrazol-1-yl]-1,3-thiazol-4(5H)-one | ||
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