Sumit Bhawal scite author profile

Geminal dicationic ionic liquids (ILs) often display higher thermal stabilities, viscosities, and densities compared to traditional monocationic ILs. Also, dicationic ILs have advantages in terms of tuning of their physicochemical properties by different structural modifications. They can be considered as a combination of three structural moieties: (1) cationic head groups, (2) an alkane linker chain, and (3) the associated anions. Two types of each imidazolium, pyrrolidinium, and phosphonium cations were joined by different alkane linkages (C6, C9, and C12) to develop 18 different dications. These dications were paired with two different anions (NTf2 – and PFOS–) to synthesize 36 different dicationic ILs. The effect of variations in the structural moieties of these related ILs on their physicochemical properties, including melting points, densities, viscosities, solubilities, and thermal stabilities, were evaluated. ILs synthesized in this study displayed TGA thermal stabilities in the range 330–467 °C. Also, nine ILs with high TGA stability and low melting points were tested with inverse gas chromatography, and some of them displayed stabilities up to 400 °C.

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Rapid, effective deprotection of tert-butoxycarbonyl (Boc) amino acids and peptides at high temperatures using a thermally stable ionic liquid

Bhawal

Patil

Armstrong

2015

RSC Adv.

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Effect of a polymerizable cosurfactant on the microstructure and drug‐release properties of nanoparticles synthesized through emulsion polymerization

Bhawal

Reddy

Murthy

et al. 2004

J of Applied Polymer Sci

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ABSTRACT:The emulsion copolymerization of a partially water-soluble monomer, methyl methacrylate (MMA), and a water-soluble polymerizable cosurfactant, hydroxyethyl methacrylate (HEMA), was investigated. The microstructure of the copolymer varied as the HEMA concentration increased. The copolymer microstructure influenced drug entrapment and was studied with respect to the variation in the MMA/HEMA ratio, the crosslinker concentration, and the method of nanoparticle separation from the dispersion. The subsequent release of a lipophilic drug, carbamazepine, from nanoparticles was studied at three different copolymer compositions.

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Affinity Mesh Screen Materials for Selective Extraction and Analysis of Antibiotics Using Transmission Mode Desorption Electrospray Ionization Mass Spectrometry

et al. 2013

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The extraction of active compounds from natural sources has shown to be an effective approach to drug discovery. However, the isolation and identification of natural products from complex extracts can be an arduous task. A novel approach to drug discovery is presented through the use of polymer screens functionalized with an l-lysine-d-alanine-d-alanine (Kaa) peptide to create new affinity capture mesh screen materials. The Kaa sequence is a well-characterized specific binding site for antibiotics that inhibit cell wall synthesis in Gram-positive bacteria. The detailed synthesis and characterization of these novel screen materials are presented in this work. Polypropylene mesh screens were first coated with a poly(acrylic acid) film by pulsed plasma polymerization. The synthesized Kaa peptide was then covalently attached to carboxylic acid groups through a condensation reaction. An analysis of captured compounds was performed in a rapid fashion with transmission-mode desorption electrospray ionization (TM-DESI) mass spectrometry. A proof of principle was demonstrated to show the ability of the novel affinity capture materials to select for a macrocyclic antibiotic, vancomycin, over a negative control compound, spectinomycin. With further development, this method may provide a rapid screening technique for new antibacterial compounds, for example, those extracted from natural product sources having a limited supply. Here, we show that the screen can capture vancomycin preferentially over spectinomycin in a spiked extract of tea leaves.

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Sumit Bhawal

Synthesis of Thermally Stable Geminal Dicationic Ionic Liquids and Related Ionic Compounds: An Examination of Physicochemical Properties by Structural Modification

Rapid, effective deprotection of tert-butoxycarbonyl (Boc) amino acids and peptides at high temperatures using a thermally stable ionic liquid

Effect of a polymerizable cosurfactant on the microstructure and drug‐release properties of nanoparticles synthesized through emulsion polymerization

Affinity Mesh Screen Materials for Selective Extraction and Analysis of Antibiotics Using Transmission Mode Desorption Electrospray Ionization Mass Spectrometry

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