Kana M. Sureshan scite author profile

Marine oil spills constitute an environmental disaster with severe adverse effects on the economy and ecosystem. Phase-selective organogelators (PSOGs), molecules that can congeal oil selectively from oil-water mixtures, have been proposed to be useful for oil-spill recovery. However, a major drawback lies in the mode of application of the PSOG to an oil spill spread over a large area. The proposed method of using carrier solvents is impractical for various reasons. Direct application of the PSOG as a solid, although it would be ideal, is unknown, presumably owing to poor dispersion of the solid through the oil. We have designed five cheap and easy-to-make glucose-derived PSOGs that disperse in the oil phase uniformly when applied as a fine powder. These gelators were shown to selectively congeal many oils, including crude oil, from oil-water mixtures to form stable gels, which is an essential property for efficient oil-spill recovery. We have demonstrated that these PSOGs can be applied aerially as a solid powder onto a mixture of crude oil and sea water and the congealed oil can then be scooped out. Our innovative mode of application and low cost of the PSOG offers a practical solution to oil-spill recovery.

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Hopping-Mediated Anion Transport through a Mannitol-Based Rosette Ion Channel

Saha

Dasari

Tewari

et al. 2014

J. Am. Chem. Soc.

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Artificial anion selective ion channels with single-file multiple anion-recognition sites are rare. Here, we have designed, by hypothesis, a small molecule that self-organizes to form a barrel rosette ion channel in the lipid membrane environment. Being amphiphilic in nature, this molecule forms nanotubes through intermolecular hydrogen bond formation, while its hydrophobic counterpart is stabilized by hydrophobic interactions in the membrane. The anion selectivity of the channel was investigated by fluorescence-based vesicle assay and planar bilayer conductance measurements. The ion transport by a modified hopping mechanism was demonstrated by molecular dynamics simulation studies.

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Topochemical polymerizations for the solid-state synthesis of organic polymers

et al. 2021

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Kana M. Sureshan

Soft Optical Devices from Self‐Healing Gels Formed by Oil and Sugar‐Based Organogelators

Regioselective Protection and Deprotection of Inositol Hydroxyl Groups

A Sugar‐Based Gelator for Marine Oil‐Spill Recovery

Hopping-Mediated Anion Transport through a Mannitol-Based Rosette Ion Channel

Topochemical polymerizations for the solid-state synthesis of organic polymers

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