Reinforced protein polymers in biomedical engineering G. Brundha, Suresh Aishwarya, Anirudh Gururaj Patil, S. Aishwarya, Sunil S. More, Kounaina Khan, Subrahmanya Padyana, J. Madhavi, Ajar Nath Yadav, H. Ravish, P.R. Manjunath, Bindia Sahu, A.V. Raghu, Farhan Zameer Protein Based Biopolymers from Source to Biomedical Applications, 2022
Silk-based biomaterials for biomedical applications Antara Biswas, Namrata Banerjee, Anirudh Gururaj Patil, S. Aishwarya, Sunil S. More, Kounaina Khan, Subrahmanya Padyana, J. Madhavi, Ajar Nath Yadav, H. Ravish, P.R. Manjunath, Bindia Sahu, A.V. Raghu, Farhan Zameer Protein Based Biopolymers from Source to Biomedical Applications, 2022
ZnS and ZnS/CdS core-shell Nano particles: Synthesis, properties and Perspectives J. Madhavi, V. Prasad Surfaces and Interfaces, 2020 From ancient times, nanoparticles with the diameter in the scope of 1-20nm become a foremost interdisciplinary area of research. Now a day's in technology, II-VI Semiconductors perform a key role. By chemical precipitation technique, ZnS and ZnS/CdS core-shell nanoparticles are arranged with suitable thickness. Core particles are prepared first and then the amalgamation process of shells is performed by selecting ethanol as solvent at ordinary temperature. The structural and chemical characterizations were performed by utilizing X-ray diffraction (XRD), Scanning electron microscopy (SEM-EDAX) with energy dispersive, transmission electron microscopy (TEM), Fourier Transforms Infrared Spectroscopy (FTIR), Optical Absorption Spectroscopy (UV visible), Photoluminescence (PL) and Vibrating Sample Magnetometer (VSM). Shell growth is identified from XRD, SEM with EDAX, TEM. Using UV-Visible Spectroscopy optical properties were characterized. Powder XRD pattern exhibits peaks correspond to cubic phase of ZnS and ZnS/CdS core-shell nano particles and estimated the average particle size from Debye's Scherer's method is approximately equals to the individual methods of Williamson-Hall methods and are in the order of nm and also hold good with theoretical values from UV-Vis. It is practical that the inclusion perimeter was sort at 200–260 nm and corresponding energy gaps is 1.22eV and 3.02eV respectively, which is red-shifted compared to bulk ZnS (345nm) and the excitonic wavelength at 310 nm (3.99 eV). The cubic formation of bulk ZnS show the apparent red-shift, then the energy gap of the major portion of ZnS is 3.68 eV (345 nm). By stiffness effects, the radiant intensity gap is acquired with Brus equality. Luminescence is acquired to the recombination during the sulfur vacancy associated electron capture donor under the CB and ZnS correlated hole trap acceptor beyond the VB as report prior. The calculated coordinates of prepared sample and the theoretical values of chromaticity epicentre is (Xe, Ye) are at Xe = 0.3320 andYe = 0.1858. The M-H loop of the as-synthesized core-shell nanoparticles showed intrinsic ferromagnetic behaviour.
Comparison of average crystallite size by X-ray peak broadening and Williamson–Hall and size–strain plots for VO2+ doped ZnS/CdS composite nanopowder J. Madhavi SN Applied Sciences, 2019 The paper deals with the exhaustive study and analysis of VO2+ ions doped ZnS/CdS composite nanopowder with the help of X-ray peak profile analysis (XPPA). The investigation has been carried out by applying a distinct pattern of Williamson–Hall (W–H) approach viz., uniform deformation model, the uniform stress deformation model and uniform deformation energy density model, and size strain plot (SSP). Fourier transforms infrared spectroscopy (FT-IR), scanning electron microscope and energy dispersive spectra (EDS) and transmission electron microscope (TEM) techniques. The XRD study is high manipulated order and fundamental focus is on phase identification, with some analysis on advanced concepts such as crystallite size and lattice strain have been estimated using the modified form of the W–H methods. XRD pattern confirmed that the structure of the sample belongs to the cubic system. The variation of lattice constant (a) with dopant is assigned to Vegard’s law. The root means square strain was identified from the interionic separation and lattice strain assumed on W–H models. FT-IR spectrum exhibited characteristic vibrational modes of Zn and Cd ions along with other bands. EDS analysis gives information about the elemental composition in the present sample. The shape of VO2+ ions doped ZnS/CdS composite nanopowder was spherical in TEM images. The result showed that there was a good agreement in the particle size obtained from the W–H method and the SSP method with TEM images.
A novel poly (acrylonitrile)/poly (ethylene glycol)-based polymer gel electrolyte for high efficiency dye sensitized solar cells MM Varishetty, M Kenji, N Tarannum, SR Damaraju, M Jonnalagadda Energy Advances 2 (10), 1702-1712 , 2023 2023 Citations: 24
Silk-based biomaterials for biomedical applications A Biswas, N Banerjee, AG Patil, S Aishwarya, SS More, K Khan, ... Protein-Based Biopolymers, 157-189 , 2023 2023 Citations: 3
Facile synthesis of Cu2+ ion-doped CdOZn3 (PO4) 2 hybrid composite and their optical and photoluminescence properties Y Naga Bhaskararao, M Jonnalagadda, VB Prasad, S Cole Chemical Papers 77, 1-10 , 2022 2022 Citations: 2
Advanced Chalcogen Cathode Materials for Lithium-Ion Batteries JMVBP Varishetty Madhu Mohan Book chapter, 1-34 , 2022 2022
Reinforced protein polymers in biomedical engineering AVRFZ G. Brundha, Suresh Aishwarya, Anirudh Gururaj Patil, S. Aishwarya ... Protein-Based Biopolymers From Source to Biomedical Applications, 355-384 , 2022 2022 Citations: 3
Peptide and protein-based hydrogels for the encapsulation of bioactive compounds and tissue engineering applications AVRFZ N.S. Shabnoor, A. Hema Bindu, Anirudh Gururaj Patil, S. Aishwarya ... Protein-Based Biopolymers From Source to Biomedical Applications, 213-234 , 2022 2022 Citations: 7
Silk-based biomaterials for biomedical applications AVRFZ Antara Biswas, Namrata Banerjee, Anirudh Gururaj Patil, S. Aishwarya ... Protein-Based Biopolymers From Source to Biomedical Applications, 157-184 , 2022 2022
Advanced Chalcogen Cathode Materials for Lithium-Ion Batteries VM Mohan, M Jonnalagadda, VB Prasad Chalcogenides-Preparation and Applications , 2022 2022
Facile synthesis of Ni-doped ZnS-CdS composite and their magnetic and photoluminescence properties J Madhavi, V Prasad, KR Reddy, CV Reddy, AV Raghu Journal of Environmental Chemical Engineering 9, 106335 , 2021 2021 Citations: 69
Improved efficiency in dye-sensitized solar cell via surface modification of TiO 2 photoelectrode by spray pyrolysis V Madhu Mohan, K Murakam, M Jonnalagadda, VR Machavaram Journal of Materials Science: Materials in Electronics 32 (13), 18231-18239 , 2021 2021 Citations: 5
Fungal Amylases and Their Industrial Applications AG Patil, K Khan, S Aishwarya, S Padyana, R Huchegowda, KR Reddy, ... Industrially Important Fungi for Sustainable Development, 407-434 , 2021 2021 Citations: 40
Synthesis of composite nanopowder through Mn doped ZnS-CdS systems and its structural, optical properties JMVPAV Raghu journal of Molecular structure 1230, 129875(1-8) , 2021 2021 Citations: 77
ZnS and ZnS/CdS core-shell Nano particles: Synthesis, properties and Perspectives. VP J . Madhavi SURACE AND INTERFACES 21 (2020), 100757-766 , 2020 2020 Citations: 47
Comparison Of Average Crystallite Size By X‑Ray Peak Broadening M Jonnalagadda LAMBERT ISBN: 978-620-2-51969-4 , 2020 2020
Synthesis and Characterization of Co2+ Ions Doped ZnS-CdS Composite Nanopowder M Jonnalagadda* 2020 Citations: 1
Comparison of average crystallite size by X‑ray peak broadening and Williamson–Hall and size–strain plots for VO2+ doped ZnS/CdS composite nanopowder M Jonnalagadda SN JOURNAL 1 (2019), 1509-1520 , 2019 2019 Citations: 105
Structural, optical, magnetic and thermal investigations on Cr3+ ions doped ZnS nanocrystals by co-precipitation method SJ Basha, V Khidhirbrahmendra, J Madhavi, USU Thampy, CV Reddy, ... Journal of Science: Advanced Materials and Devices 4 (2), 260-266 , 2019 2019 Citations: 35
OPTICAL AND EPR STUDIES OF VO2+ IONS DOPED ZnS-CdS COMPOSITE NANOPARTICLES * J. Madhavi, C. Subramanyam, G.S.C. Bose, M. Venkata Ramanaiah and R.V.S.S ... RASAYAN JOURNAL OF CHEMISTRY 11 (3), 1236-1246 , 2018 2018 Citations: 2
Synthesis and structural characterization of samarium doped calcium zinc phosphate nanophosphors S Sarathkumar, S Munimasthani, USU Thampy, J Madhavi, R Ravikumar AIP Conference Proceedings 1992 (1), 030013 , 2018 2018 Citations: 2
Spectroscopic investigations on Mn2+ doped ZnS/CdS nanocomposite powder J RVSSNR J. Madhavi, Sk. Johny Basha, V. Khidhirbrahmendra, L.V. Krishna Rao ... Journal of Chemical and Pharmaceutical Sciences 10 (1), 608-610 , 2017 2017 Citations: 3
MOST CITED SCHOLAR PUBLICATIONS
Comparison of average crystallite size by X‑ray peak broadening and Williamson–Hall and size–strain plots for VO2+ doped ZnS/CdS composite nanopowder M Jonnalagadda SN JOURNAL 1 (2019), 1509-1520 , 2019 2019 Citations: 105
Synthesis of composite nanopowder through Mn doped ZnS-CdS systems and its structural, optical properties JMVPAV Raghu journal of Molecular structure 1230, 129875(1-8) , 2021 2021 Citations: 77
Facile synthesis of Ni-doped ZnS-CdS composite and their magnetic and photoluminescence properties J Madhavi, V Prasad, KR Reddy, CV Reddy, AV Raghu Journal of Environmental Chemical Engineering 9, 106335 , 2021 2021 Citations: 69
Commercial potential of fungal protease: past, present and future prospects J Srilakshmi, J Madhavi, S Lavanya, K Ammani J. Pharm. Chem. Biol. Sci 2 (4), 218-234 , 2015 2015 Citations: 68
ZnS and ZnS/CdS core-shell Nano particles: Synthesis, properties and Perspectives. VP J . Madhavi SURACE AND INTERFACES 21 (2020), 100757-766 , 2020 2020 Citations: 47
Fungal Amylases and Their Industrial Applications AG Patil, K Khan, S Aishwarya, S Padyana, R Huchegowda, KR Reddy, ... Industrially Important Fungi for Sustainable Development, 407-434 , 2021 2021 Citations: 40
Structural, optical, magnetic and thermal investigations on Cr3+ ions doped ZnS nanocrystals by co-precipitation method SJ Basha, V Khidhirbrahmendra, J Madhavi, USU Thampy, CV Reddy, ... Journal of Science: Advanced Materials and Devices 4 (2), 260-266 , 2019 2019 Citations: 35
N2 as a co-soft oxidant along with CO2 in ethylbenzene dehydrogenation to styrene over γ-Al2O3 supported Co–Mo nitride catalysts J Madhavi, M Suresh, GVR Babu, PSS Prasad, BD Raju, KSR Rao Journal of CO2 Utilization 8, 21-26 , 2014 2014 Citations: 34
A novel poly (acrylonitrile)/poly (ethylene glycol)-based polymer gel electrolyte for high efficiency dye sensitized solar cells MM Varishetty, M Kenji, N Tarannum, SR Damaraju, M Jonnalagadda Energy Advances 2 (10), 1702-1712 , 2023 2023 Citations: 24
Peptide and protein-based hydrogels for the encapsulation of bioactive compounds and tissue engineering applications AVRFZ N.S. Shabnoor, A. Hema Bindu, Anirudh Gururaj Patil, S. Aishwarya ... Protein-Based Biopolymers From Source to Biomedical Applications, 213-234 , 2022 2022 Citations: 7
Protease production by Humicolagrisea through SSF JS Lakshmi, J Madhavi, K Ammani Global Journal of Bio-Sciences and Biotechnology 3, 230-235 , 2014 2014 Citations: 6
Improved efficiency in dye-sensitized solar cell via surface modification of TiO 2 photoelectrode by spray pyrolysis V Madhu Mohan, K Murakam, M Jonnalagadda, VR Machavaram Journal of Materials Science: Materials in Electronics 32 (13), 18231-18239 , 2021 2021 Citations: 5
Silk-based biomaterials for biomedical applications A Biswas, N Banerjee, AG Patil, S Aishwarya, SS More, K Khan, ... Protein-Based Biopolymers, 157-189 , 2023 2023 Citations: 3
Reinforced protein polymers in biomedical engineering AVRFZ G. Brundha, Suresh Aishwarya, Anirudh Gururaj Patil, S. Aishwarya ... Protein-Based Biopolymers From Source to Biomedical Applications, 355-384 , 2022 2022 Citations: 3
Spectroscopic investigations on Mn2+ doped ZnS/CdS nanocomposite powder J RVSSNR J. Madhavi, Sk. Johny Basha, V. Khidhirbrahmendra, L.V. Krishna Rao ... Journal of Chemical and Pharmaceutical Sciences 10 (1), 608-610 , 2017 2017 Citations: 3
Facile synthesis of Cu2+ ion-doped CdOZn3 (PO4) 2 hybrid composite and their optical and photoluminescence properties Y Naga Bhaskararao, M Jonnalagadda, VB Prasad, S Cole Chemical Papers 77, 1-10 , 2022 2022 Citations: 2
OPTICAL AND EPR STUDIES OF VO2+ IONS DOPED ZnS-CdS COMPOSITE NANOPARTICLES * J. Madhavi, C. Subramanyam, G.S.C. Bose, M. Venkata Ramanaiah and R.V.S.S ... RASAYAN JOURNAL OF CHEMISTRY 11 (3), 1236-1246 , 2018 2018 Citations: 2
Synthesis and structural characterization of samarium doped calcium zinc phosphate nanophosphors S Sarathkumar, S Munimasthani, USU Thampy, J Madhavi, R Ravikumar AIP Conference Proceedings 1992 (1), 030013 , 2018 2018 Citations: 2
Synthesis and Characterization of Co2+ Ions Doped ZnS-CdS Composite Nanopowder M Jonnalagadda* 2020 Citations: 1
One-pot synthesis of 2, 4, 5-trisubstituted imidazoles using ZrO^ sub 2^ catalyst J Madhavi, S Anita, M Suresh, PU Rani Indian Journal of Research in Pharmacy and Biotechnology 3 (2), 157 , 2015 2015 Citations: 1
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