Raja Shunmugam scite author profile

New and interesting properties can be obtained from macromolecular architectures functionalized with supramolecular moieties, particularly metal-ligand complexes. Self-assembly, based on the selective control of noncovalent interactions, guides the creation of hierarchically ordered materials providing access to novel structures and new properties. This field has expanded significantly in the last two decades, and one of the most ubiquitous functionalities is terpyridine. Despite its wide-spread use, much basic knowledge regarding the binding of terpyridine with metal ions remains unknown. Here, the binding constants of PEG-substituted terpyridine in relation to other literature reports are studied and a few examples of supramolecular materials from our laboratory are summarized.

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Unique Emission from Polymer Based Lanthanide Alloys

Shunmugam

Tew

2005

J. Am. Chem. Soc.

134

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The incorporation of metal-ligand interactions into macromolecules imparts them with unique and potentially useful properties. We report novel macromolecules prepared via ATRP that contain activated esters for subsequent incorporation of terpyridine. The addition of lanthanide ions (Eu3+ and Tb3+) gave metal functionalized polymers that exhibited excellent emission of either pink (Eu3+) or green (Tb3+) light. A unique yellow luminescence was generated when these two different metal ions were incorporated into the same molecular backbone at a 1:1 ratio, producing an alloy. Upon heating above 50 degrees C, selective thermochromism, from yellow to orange/pink, was observed.

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Room temperature magnetic materials from nanostructured diblock copolymers

et al. 2011

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nanostructured magnetic materials are important for many advanced applications. Consequently, new methods for their fabrication are critical. However, coupling self-assembly to the generation of magnetic materials in a simple, straight-forward manner has remained elusive. Although several approaches have been considered, most have multiple processing steps, thus diminishing their use of self-assembly to influence magnetic properties. Here we develop novel block copolymers that are preprogrammed with the necessary chemical information to microphase separate and deliver room temperature ferromagnetic properties following a simple heat treatment. The importance of the nanostructured confinement is demonstrated by comparison with the parent homopolymer, which provides only paramagnetic materials, even though it is chemically identical and has a higher loading of the magnetic precursor. In addition to the room temperature ferromagnetic properties originating from the block copolymer, the in situ generation densely functionalizes the surface of the magnetic elements, rendering them oxidatively stable.

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Norbornene Derived Doxorubicin Copolymers as Drug Carriers with pH Responsive Hydrazone Linker

et al. 2011

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The synthesis and complete characterization of both norbornene-derived doxorubicin (mono 1) and polyethylene glycol (mono 2) monomers are clearly described, and their copolymerization by ring-opening metathesis polymerization (ROMP) to get the block copolymer (COPY-DOX) is vividly elaborated. The careful design of these conjugates exhibits properties like well-shielded drug moieties and well-defined nanostructures; additionally, they show solubility in both water and biological medium and also have the important tendency of rendering acid-triggered drug release. The drug release profile suggests the importance of having the hydrazone linker that helps to release the drug exactly at the mild acidic conditions resembling the pH of the cancerous cells. It is also observed that the drug release from micelles of COPY-DOX is significantly accelerated at a mildly acidic pH of 5.5-6, compared to the physiological pH of 7.4, suggesting the pH-responsive feature of the drug delivery system with hydrazone linkages. Confocal laser scanning microscopy (CLSM) measurements indicate that these COPY-DOX micelles are easily internalized by living cells. MTT assays against HeLa and 4T cancer cells showing COPY-DOX micelles have a high anticancer efficacy. All of these results demonstrate that these polymeric micelles that self-assembled from COPY-DOX block copolymers have great scope in the world of medicine, and they also symbolize promising carriers for the pH-triggered intracellular delivery of hydrophobic anticancer drugs.

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Biomedical Applications of pH-Responsive Amphiphilic Polymer Nanoassemblies

Mane

Sathyan

Shunmugam

2020

ACS Appl. Nano Mater.

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In recent years, polymer nanoassemblies have played an important role in the biopharmaceuticals field. Polymers that form different molecular architectures during a self-assembly process are widely used for a large number of biomedical applications, including as drug carriers, imaging agents, and drug reservoirs, thereby providing a local therapeutic effect. The size and shape of these nanoassemblies play vital roles in cell penetration. Importantly, stimuli-responsive behaviors, particularly pH responses, make these systems highly suitable vehicles for drug, gene, and protein delivery applications. This platform can be used for precise control over polymer assembly behavior under diverse pH conditions. In this Review, we discuss the pH-responsive behavior of a wide variety of amphiphilic homopolymers and block and random copolymers that form a sample range of nanoaggregates due to the self-assembly of hydrophilic−hydrophobic building blocks.

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Raja Shunmugam

Metal–Ligand‐Containing Polymers: Terpyridine as the Supramolecular Unit

Unique Emission from Polymer Based Lanthanide Alloys

Room temperature magnetic materials from nanostructured diblock copolymers

Norbornene Derived Doxorubicin Copolymers as Drug Carriers with pH Responsive Hydrazone Linker

Biomedical Applications of pH-Responsive Amphiphilic Polymer Nanoassemblies

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