3 article(s) from Caporaso, Marina
Graphical Abstract
Scheme 1: Synthesis of per-6-derivatized CDs. Ball milling conditions: 1500 steel balls of 1 mm diameter and ...
Graphical Abstract
Figure 1: (a) Multihorn-flow US reactor, (b) Cavitational turbine, (c) Pilot-scale BM, (d) High-pressure MW r...
Figure 2: Trends in CD papers and CD use in green chemical processes.
Figure 3: Distribution of energy efficient methods in CD publications.
Figure 4: Document type dealing with CD chemistry under non-conventional techniques (conference proceedings a...
Figure 5: Document type dealing with sustainable technologies in CD publications.
Scheme 1: Synthesis of 6I-(p-toluenesulfonyl)-β-CD.
Scheme 2: Example of CuAAC with 6I-azido-6I-deoxy-β-CD and phenylacetylene.
Scheme 3: Synthesis of 6I-benzylureido-6I-deoxy-per-O-acetyl-β-CD.
Scheme 4: Synthesis of 3I-azido-3I-deoxy-altro-α, β- and γ-CD.
Scheme 5: Synthesis of 2-2’ bridged bis(β-CDs). Reaction conditions: 1) TBDMSCl, imidazole, dry pyridine, sti...
Scheme 6: Insoluble reticulated CD polymer.
Scheme 7: CD-HDI cross linked polymers.
Scheme 8: Derivatization of 6I-(p-toluenesulfonyl)-β-CD by tosyl displacement.
Scheme 9: Synthetic scheme for the preparation of heptakis(6-amino-6-deoxy)-β-CD, heptakis(6-deoxy-6-ureido)-...
Scheme 10: Structure of CD derivatives obtained via MW-assisted CuAAC.
Scheme 11: Preparation of SWCN CD-DOTA carrier.
Graphical Abstract
Scheme 1: Reaction pathway of aerobic oxidative esterification of alcohols.
Figure 1: Screening of different catalysts and bases in the catalytic oxidative esterification of benzylalcoh...
Scheme 2: Catalyst regeneration and oxidative esterification of benzaldehyde (2nd cycle).