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Creators/Authors contains: "Bhat, Gulzar A."

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  1. ; ; (, Polymer Journal)
    null (Ed.)
    The synthesis of poly(propylene carbonate) with 100% 13C-labeled carbonate carbons is reported. The 𝑣CO3 vibration is shifted 45 cm−1 lower than that observed in its 12C analog. This lowering of the 𝑣CO3 vibrational mode of the copolymer provides a window for observing νNO stretching motions in incorporated dinitrosyl iron complexes. 
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  2. ; ; (, Polymer Chemistry)
    null (Ed.)
    Carbon dioxide based polymers synthesized from the metal-catalyzed copolymeriation of epoxides and CO 2 containing the terpyridine ligand as an end group are reported. The strategy used was to carry out the polymerization in the presence of a carboxylic acid derivative of terpyridine, 4′-(4-carboxyphenyl)-2,2′:6′,2′′-terpyridine (HL), as a chain transfer agent. The epoxide monomer possessing a vinyl substituent, allyl glycidyl ether (AGE), was copolymerized with CO 2 employing a (salen)Co( iii ) catalyst to afford a polycarbonate which upon the addition of mercaptoacetic acid across the double bond, followed by deprotonation, yielded a water soluble polymer. In a similar manner, the sequential formation of a diblock terpolymer produced from propylene oxide, AGE, and CO 2 provided a amphiphilic polycarbonate which self-assembled upon addition to water to form micelle nanostructures. The molecular weights of these CO 2 -derived polycarbonates were shown to be easily controlled by the quantity of chain transfer agent used. These polymeric ligands were demonstrated to provide a modular design for synthesizing a wide variety of metal complexes as illustrated herein for zinc and platinum derivatives. 
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  3. ; ; ; (, Organometallics)
    null (Ed.)
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  4. ; ; ; ; ; (, Angewandte Chemie International Edition)
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  5. ; ; ; (, Macromolecules)
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  6. ; ; ; ; ; ; (, Angewandte Chemie International Edition)
    Abstract We report the facile synthesis and 3D printing of a series of triblock copolymers consisting of soft and hard blocks and demonstrate that alkene pendant groups of the hard block can be covalently modified. The polymers are prepared using a salenCo(III)TFA/PPNTFA binary catalyst system and 1,2‐propanediol as a chain transfer agent, providing an efficient one‐pot, two‐step strategy to tailor polymer thermal and mechanical properties. Thixotropic inks suitable for direct ink write printing were formulated by dissolving the block copolymers in organic solvent and dispersing NaCl particles. After printing, porous structures were produced by removing solvent and NaCl with water to give printed structures with surfaces that could be modified via UV‐initiated thiol‐ene click reactions. Alternatively, a tetra‐thiol could be incorporated into the ink and used for cross‐linking to give objects with high solvent resistance and selective degradability. 
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