Real‐time Observation of Macroscopic Helical Morphologies under Optical Microscope: A Curious Case of π–π Stacking Driven Molecular Self‐assembly of an Organic Gelator Devoid of Hydrogen Bonding

Bera, Subhash Chandra; Basu, Sushmita; Jana, Biman; Dastidar, Parthasarathi

doi:10.1002/ange.202216447

Angewandte Chemie

2023

DOI: 10.1002/ange.202216447

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Real‐time Observation of Macroscopic Helical Morphologies under Optical Microscope: A Curious Case of π–π Stacking Driven Molecular Self‐assembly of an Organic Gelator Devoid of Hydrogen Bonding

Subhash Chandra Bera

Sushmita Basu

Biman Jana

et al.

Abstract: Supramolecular assemblies such as tubules/ helix/double helix/helical tape etc. are usually submicron objects preventing direct observation under optical microscope. Chiral-pure form of these assemblies is important for potential applications. Herein, we report a rare phenomenon wherein a DMSO gel of a simple terpyridine derivative [(4-CNPhe)4PyTerp] produced macroscopic helical morphologies (μm length scale) which could be observed under optical microscope, formation of which could be monitored by optical vid… Show more

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2024

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Cited by 2 publications

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Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Bera,

Dutta,

Dastidar

2024

Chemistry An Asian Journal

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Supramolecular gels are an important class of materials that are promising for its wide range of applications including drug delivery. While supramolecular gels are intrinsically porous because of the 3D nano‐matrix (gel matrix) that is being formed due to supramolecular self‐assembly process involving the gelator molecules during gelation, additional nanopores can be introduced to the overall gel if the gelator molecule itself holds molecular cavity such as metal‐organic‐cage (MOC) molecules. A MOC having the molecular formula [(Pd2L24).4NO3].3H2O.2DMF.MeOH (Pd‐cage) (L2=5‐Azido‐N,N'‐di‐pyridin‐3‐yl‐isophthalamide) was successfully synthesized and characterized by FT‐IR, 1H NMR, ESI‐MS and single crystal X‐ray diffraction. Stimuli‐reversible supramolecular metallogel PdG could easily be formed from Pd‐cage in DMSO/water mixture. The molecular cage of Pd‐cage was demonstrated to be available for loading an anti‐cancer drug namely doxorubicin (DOX). Subsequently, DOX was also loaded within PdG and delivered to melanoma cell line B16‐F10 displaying significant anti‐cancer activity as revealed by both MTT and scratch assay. Rheoreversibility of PdG and its ability to load and deliver DOX to cancer cells clearly raised hope for developing this metallogel further as topical anticancer gel.

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Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Bera,

Dutta,

Dastidar

2024

Chemistry An Asian Journal

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Supramolecular Gels Derived from Primary Ammonium Salts of Naproxen and its Amino Acid Derivatives: Design, Synthesis, Structures and its Application as Anti‐cancer Agent Against Melanoma Cell B16‐F10

Manna,

Ghosh,

Pharas

et al. 2024

Chemistry A European J

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Supramolecular synthon approach was employed to develop a self‐drug‐delivery system based on organic salt based supramolecular gelators. One such key gelator NAP‐PHE∙PEA derived from naproxen‐phenylalanine conjugate and phenethylamine showed ability to gel both water and organic solvents. Supramolecular interactions such as π‐π and C‐H…π were probed by variable‐temperature 1H‐NMR spectroscopy in the hydrogelation process of NAP‐PHE∙PEA. Single crystal structures of nine out of twelve salts were determined and the supramolecular synthon present therein was carefully analyzed. Intriguing insights of the gel‐network structure was also investigated by structure‐property correlation based on single‐crystal and powder X‐ray diffraction analysis of gelator/nongelator salts. The gelator salt NAP‐PHE∙PEA displayed significant anti‐cancer property against cancer cells (B16‐F10. HeLa and A375); it was found non‐cytotoxic against normal cell lines (E.derm and HEK‐293) at comparable concentrations as revealed by MTT assays. The gelator salt NAP‐PHE∙PEA also displayed significant anti‐cancer behaviour against B16‐F10 (scratch assay) and HeLa (multi‐cellular tumour spheroid). The methyl salicylate gel of NAP‐PHE∙PEA displayed shape‐sustaining, load‐bearing, self‐healing properties along with rheoreversibility, which are considered important for topical applications.

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Real‐time Observation of Macroscopic Helical Morphologies under Optical Microscope: A Curious Case of π–π Stacking Driven Molecular Self‐assembly of an Organic Gelator Devoid of Hydrogen Bonding

Cited by 2 publications

References 124 publications

Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Supramolecular Gels Derived from Primary Ammonium Salts of Naproxen and its Amino Acid Derivatives: Design, Synthesis, Structures and its Application as Anti‐cancer Agent Against Melanoma Cell B16‐F10

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Real‐time Observation of Macroscopic Helical Morphologies under Optical Microscope: A Curious Case of π–π Stacking Driven Molecular Self‐assembly of an Organic Gelator Devoid of Hydrogen Bonding

Cited by 2 publications

References 124 publications

Developing Supramolecular Metallogel Derived from Pd2L4 Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Developing Supramolecular Metallogel Derived from Pd2L4 Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Supramolecular Gels Derived from Primary Ammonium Salts of Naproxen and its Amino Acid Derivatives: Design, Synthesis, Structures and its Application as Anti‐cancer Agent Against Melanoma Cell B16‐F10

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Product

Resources

About

Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10

Developing Supramolecular Metallogel Derived from Pd₂L₄ Cage Molecule for Delivering an Anti‐Cancer Drug to Melanoma Cell B16−F10