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Last update 08 May 2025

Dr. Babasaheb Ambedkar Marathwada University

Education|1958|India|

www.bamu.ac.in

Education|1958|India|

www.bamu.ac.in

Last update 08 May 2025

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Translational Medicine

Overview

100 Clinical Results associated with Dr. Babasaheb Ambedkar Marathwada University

0 Patents (Medical) associated with Dr. Babasaheb Ambedkar Marathwada University

3,887

Literatures (Medical) associated with Dr. Babasaheb Ambedkar Marathwada University

01 Jun 2025·Journal of Radiation Research and Applied Sciences

Smart polymers as gamma ray Shields:Experimental evaluation of shielding performance

Author: More, Chaitali V. ; Sayyed, M. I. ; Ghuge, Priyanka G. ; Pawar, Pravina P. ; Maghrbi, Yasser

The findings of this study will further our understanding of the potential of smart polymers to enhance gamma ray shielding, which will lead to new opportunities for the development of protective materials that are more efficient, adaptable, and lightweightThis work has investigated the shielding properties against gamma and neutrons of six different types of smart polymers: polyurethane, silicon carbide, polypropylene, polytetrafluoroethylene, polyvinylidene fluoride, and poly (vinylidene fluoride-co-hexafluoropropylene).We have calculated the mass attenuation coefficient (MAC) using the NaI (Tl) scintillation detector and the WinXCom tool.The MAC is then used to calculate the linear attenuation coefficient (LAC), half and tenth value layer (HVL & TVL), mean free path (MFP), and effective at. number (Z_eff) for total photon interaction over the 122-1330 keV energy range.Furthermore, the macroscopic effective removal cross-sections (∑_R) for fast neutrons were calculatedPolyurethane exhibited the highest mass attenuation coefficient (0.141 cm²/g at 122 keV) and a quicker neutron removal cross-section of 0.12 cm^-1.This characteristic emphasizes its superior performance in attenuating gamma and neutron radiation.The relative differences between exptl. and theor. mass attenuation coefficient values indicate that the discrepancies range from 1% to 5%, with noteworthy agreement between theor. and exptl. results.

01 Jun 2025·Journal of Molecular Structure

Defect engineering in bilayer n-doped tungsten-modified GO/RGO hybrid composite: A comparative study with tungsten carbide for supercapacitor applications

Author: Shirsat, M. D. ; Vasundhara, M. ; Dole, B. N. ; Mote, V. D. ; Sonpir, R. B. ; Mane, V. A. ; Raskar, N. D. ; Asokan, K. ; Dake, D. V.

The present study focuses on the preparation of a novel smart nanomaterial having similar properties to that of tungsten carbide (TC), comprising a bilayer of tungsten (T) decorated with graphene oxide (GO)/ reduced GO (referred hereafter as TGO/RGO) nanosheets, a hybrid composite.This sample was synthesized in two steps, using Hummers and hydrothermal methods.The structural, optical, elec., chem., and morphol. properties were investigated in detail.From the Raman spectroscopy, it was corroborated that the prepared nanomaterial has a GO/RGO hybrid phase, and it has bilayer nanosheet morphol.Due to the bilayer nanosheet and presence of N, the band gap is increased to 2.10 eV which is greater than the bandgap of TC (1.85 eV) as determined from UV-Vis spectroscopy.The XPS measurement shows the presence of nitrogen (N) in the TGO/RGO sample.These prepared bilayer nanosheets were tested for the supercapacitor application and compared with TC.The specific capacitance of the prepared sample, TGO/RGO, shows a significant enhancement of 918 F/g at 1 A/g while the TC sample 367 F/g.This study demonstrates that the TGO/RGO nanosheets hybrid composite exhibits better supercapacitor performance than TC.

04 May 2025·Inorganic and Nano-Metal Chemistry

Evaluation of structural parameters of monoclinic nanocrystalline CuO and study of sunlight-driven photocatalytic dye degradation, antimicrobial and antioxidant potential

Author: Shaikh, Kahkashan R. ; Waykar, Bhalchandra ; Undre, Prabhakar B. ; Saif, Faizaa A. ; Pawar, Abhijeet R.

Highly pure, crystalline and spherical-shaped Copper oxide nanoparticles (NPs) have been synthesized via facile chem. coprecipitationVarious models including the Scherrer, Monshi-Scherrer, Williamson-Hall, Size-Strain Plot and Halder-Wagner method have been applied to study the crystal structure characteristics.The lattice parameters associated with the monoclinic crystal lattice of CuO NPs were estimated to be a = 4.69 Å, b = 3.41 Å, c = 5.14 Å and β = 99.87(degree), unit cell volume V = 81.35Å3 and cell d. dx = 6.49 g/cm3.The photocatalytic dye degradation proficiency at 20 mg/l CuO concentration and 120 min sunlight exposure results the order of percentage dye degradation Malachite Green (88.4%) > Crystal Violet (70.8%) > Eosin Yellow (70.2%) > Methylene Blue (54.08%) dyes.The antimicrobial activity assessment was done against the broad-spectrum pathogenic microbes unveiled the exceptional microbial controlling capability of CuO NPs.Furthermore, the antioxidant activity test demonstrated the potential free radical scavenging activity of CuO NPs with an IC50 value of 47.733 μg/mL.Synthesis of pure and spherical shaped nanocrystalline CuO was done by using low cost and facile chem. coprecipitation method.XRD, FTIR, FESEM, EDX, UV-Vis, and Raman spectroscopic techniques were used for characterization purpose.The structural and crystallog. parameters of monoclinic crystal structure of CuO NPs were evaluated successfully.The photocatalytic performance of CuO NPs follow the percentage dye degradation order as MG (88.4%) > CV (70.8%) > EY (70.20%) > MB (54.08%) after 120 min of sunlight exposure.CuO NPs exhibit promising antifungal activity against COVID-19 associated Pulmonary Aspergillosis (CAPA) causing pathogenic fung.CuO NPs show potential DPPH free radical scavenging activity with an IC50 value of 47.733 μg/mL.

100 Deals associated with Dr. Babasaheb Ambedkar Marathwada University

100 Translational Medicine associated with Dr. Babasaheb Ambedkar Marathwada University

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Dr. Babasaheb Ambedkar Marathwada University

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