DAP derived fatty acid amide organogelators as novel carrier for drug incorporation and pH-responsive release

Abstract: Inflammation is associated with many different class of diseases and NSAIDs (non-steroidal anti-inflammatory drugs) are mostly preferred for long-term use. Although it is safe to use but some serious side...

“…54 The use of DAP was of interest to us due to the creation of self-assembled derivatives, which easily forms various nanostructures such as nanotubes, nanosheets and nanofibers. 55 After pyrolysis of the templated material under argon at 900 °C, the residual silica was removed via treatment with NH 4 HF 2 . The details of the synthesis procedure are described in ESI †.…”

Cobalt-catalysed CH-alkylation of indoles with alcohols by borrowing hydrogen methodology

“…54 The use of DAP was of interest to us due to the creation of self-assembled derivatives, which easily forms various nanostructures such as nanotubes, nanosheets and nanofibers. 55 After pyrolysis of the templated material under argon at 900 °C, the residual silica was removed via treatment with NH 4 HF 2 . The details of the synthesis procedure are described in ESI †.…”

Cobalt-catalysed CH-alkylation of indoles with alcohols by borrowing hydrogen methodology

“…We have synthesized amide derivatives of fatty acids ( 12DAP , 16DAP , 18UDAP , 20DAP and 22DAP ) [17a] for the oleogelation. 22DAP is a 22 carbon long fatty acid amide prepared from 2,6 diaminopyridine and behenoyl (docosanoyl) chloride.…”

Aminopyridinyl Tricosanamide Based Pseudoplastic and Thermoreversible Oleogels for pH‐Dependant in vitro Release of Metronidazole

“…[33][34][35][36] This application can be attributed to the fact that as smart materials organogels are responsive to various stimuli which can be used to trigger the release of the entrapped drugs. Such applications are mainly restricted to organogels of amino acids [37][38][39][40] and peptides, 41 phospholipids, 42 fatty acids 43 and their derivatives, 44 steroids 45 and alkylamides. 46 In contrast, carbohydrate based organogelators have rarely been explored for controlled release studies.…”

Structure–gelation property relationships of phenolic glycosides of pentose sugars: pH dependent controlled release of curcumin