Riffat Parveen scite author profile

Transforming how plastics are made, unmade, and remade through innovative research and diverse partnerships that together foster environmental stewardship is critically important to a sustainable future. Designing, preparing, and implementing polymers derived from renewable resources for a wide range of advanced applications that promote future economic development, energy efficiency, and environmental sustainability are all central to these efforts. In this Chemical Reviews contribution, we take a comprehensive, integrated approach to summarize important and impactful contributions to this broad research arena. The Review highlights signature accomplishments across a broad research portfolio and is organized into four wide-ranging research themes that address the topic in a comprehensive manner: Feedstocks, Polymerization Processes and Techniques, Intended Use, and End of Use. We emphasize those successes that benefitted from collaborative engagements across disciplinary lines.

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Photocatalytic degradation of methylene blue on magnetically separable MgFe2O4 under visible light irradiation

Shahid

Liu

Ali

et al. 2013

Materials Chemistry and Physics

134

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DFT and QSAR Studies of Ethylene Polymerization by Zirconocene Catalysts

et al. 2019

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A computational study of olefin polymerization has been performed on 51 zirconocene catalysts. The catalysts can be categorized into three classes according to the ligand framework: class I, Cp2ZrCl2 (10 catalysts), class II, CpIndZrCl2 (38 catalysts), and class III, Ind2ZrCl2 (3 catalysts), Ind = η5-indenyl. Detailed reaction pathways, including chain propagation and chain termination steps, are modeled for ethylene polymerization using zirconocene catalysts. Optimized structures for reaction coordinates indicated the presence of α-agostic interactions in the transition states (TSs) for both the first and second ethylene insertions, as well as in the ethylene π-complex of the ZrnPr cation. However, β-agostic interactions predominate in the cationic n-propyl and n-pentyl intermediates. The calculated activation energy barrier energies show that the TS for the insertion of ethylene into the Zr–CH3 + bond is the highest point on the computed reaction coordinates. Quantitative structure–activity relationship studies were also performed for 38-mixed zirconocene dichlorides. This study, in concert with the previous work, suggests that the type of ring attached to Zr (Cp vs Ind) affects the reaction kinetics and thermodynamics less significantly than the type of substituents attached to the Cp and indenyl rings and that substituent effects are even greater than those arising from changing the metal (Zr vs Hf).

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Sulfur-Containing Analogues of the Reactive [CuOH]²⁺ Core

Hont

Parveen

et al. 2021

Inorg. Chem.

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With the aim of drawing comparisons to the highly reactive complex LCuOH (L = bis(2,6-diisopropylphenylcarboxamido)pyridine), the complexes [Bu4N][LCuSR] (R = H or Ph) were prepared, characterized by spectroscopy and X-ray crystallography, and oxidized at low temperature to generate the species assigned as LCuSR on the basis of spectroscopy and theory. Consistent with the smaller electronegativity of S versus O, redox potentials for the LCuSR–/0 couples were ∼50 mV lower than for LCuOH–/0, and the rates of the proton-coupled electron transfer reactions of LCuSR with anhydrous 1-hydroxy-2,2,6,6-tetramethyl-piperidine at −80 °C were significantly slower (by more than 100 times) than the same reaction of LCuOH. Density functional theory (DFT) and time-dependent DFT calculations on LCuZ (Z = OH, SH, SPh) revealed subtle differences in structural and UV–visible parameters. Further comparison to complexes with Z = F, Cl, and Br using complete active space (CAS) self-consistent field and localized orbital CAS configuration interaction calculations along with a valence-bond-like interpretation of the wave functions showed differences with previously reported results (J. Am. Chem. Soc.20201428514), and argue for a consistent electronic structure across the entire series of complexes, rather than a change in the nature of the ligand field arrangement for Z = F.

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Correlations of skin fold thickness and validation of prediction equations using DEXA as the gold standard for estimation of body fat composition in Pakistani children

et al. 2014

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ObjectiveTo determine the correlation between dual energy X-ray absorptiometry (DEXA) and skin fold thickness (SKF) equations for estimation of body fat (BF) composition in secondary school children and validation of prediction equations by Slaughter, Goran and Dezenberg.DesignCross sectional analytical study.SettingJoint Commission for International Accredited (JCIA) tertiary care hospital of Karachi, Pakistan from January 2010 to May 2010.ParticipantsThe study was approved by the Hospital's ethical review committee. Written and verbal consents were obtained from principals of two schools and parents of 99 children (mean age of 14±1.89 years; min–max 9–19 years; 54 men and 45 women) accrued in study. DEXA scan was acquired and SKF was measured at angle of the scapula, iliac crest and mid-arm for bicep and tricep skin folds using Holtain Callipers. Correlations were established between estimated fat mass (FM) and per cent BF (%BF) calculated by DEXA and those predicted by prediction equations. On obtaining significant correlation of >0.5, overall accuracy, precision and bias was calculated.ResultsThere was an overall increased adiposity in females with FM of 3.57 kg and %BF 6.2% higher than male counterparts (p<0.05). Slaughter equation predicted %BF accurately with overall high accuracy, minimal bias and with good precision with DEXA. Dezenberg and Goran equations had significant bias in prediction of FM which was statistically significant with low level of accuracy of the Goran equation.ConclusionsWe conclude that Slaughter equation for estimating %BF showed reasonable validation with DEXA. Nevertheless further studies with consideration for maturity and ethnicity are warranted for better results. However, for estimation of FM, previously formulated equations by Goran and Dezenberg showed significant difference in our population. We do recommend further studies for developing and validation of skin fold equations specific to Pakistani paediatric population.

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Riffat Parveen

Defining the Macromolecules of Tomorrow through Synergistic Sustainable Polymer Research

Photocatalytic degradation of methylene blue on magnetically separable MgFe2O4 under visible light irradiation

DFT and QSAR Studies of Ethylene Polymerization by Zirconocene Catalysts

Sulfur-Containing Analogues of the Reactive [CuOH]²⁺ Core

Correlations of skin fold thickness and validation of prediction equations using DEXA as the gold standard for estimation of body fat composition in Pakistani children

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About

Riffat Parveen

Defining the Macromolecules of Tomorrow through Synergistic Sustainable Polymer Research

Photocatalytic degradation of methylene blue on magnetically separable MgFe2O4 under visible light irradiation

DFT and QSAR Studies of Ethylene Polymerization by Zirconocene Catalysts

Sulfur-Containing Analogues of the Reactive [CuOH]2+ Core

Correlations of skin fold thickness and validation of prediction equations using DEXA as the gold standard for estimation of body fat composition in Pakistani children

Contact Info

Product

Resources

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Sulfur-Containing Analogues of the Reactive [CuOH]²⁺ Core