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1. Facile biofunctionalization of silver nanoparticles for enhanced antibacterial properties, endotoxin removal, and biofilm control

Author

Lambadi PR, Sharma TK, Kumar P, Vasnani P, Thalluri SM, Bisht N, Pathania R, and Navani NK

Subjects
Medicine (General), R5-920
Abstract

Paramesh Ramulu Lambadi,1,* Tarun Kumar Sharma,1,* Piyush Kumar,1 Priyanka Vasnani,2 Sitaramanjaneya Mouli Thalluri,2 Neha Bisht,1 Ranjana Pathania,1,2 Naveen Kumar Navani1,21Department of Biotechnology, 2Centre of Nanotechnology, Indian Institute of Technology, Roorkee, Uttarakhand, India*These authors contributed equally to this workAbstract: Infectious diseases cause a huge burden on healthcare systems worldwide. Pathogenic bacteria establish infection by developing antibiotic resistance and modulating the host’s immune system, whereas opportunistic pathogens like Pseudomonas aeruginosa adapt to adverse conditions owing to their ability to form biofilms. In the present study, silver nanoparticles were biofunctionalized with polymyxin B, an antibacterial peptide using a facile method. The biofunctionalized nanoparticles (polymyxin B-capped silver nanoparticles, PBSNPs) were assessed for antibacterial activity against multiple drug-resistant clinical strain Vibrio fluvialis and nosocomial pathogen P. aeruginosa. The results of antibacterial assay revealed that PBSNPs had an approximately 3-fold higher effect than the citrate-capped nanoparticles (CSNPs). Morphological damage to the cell membrane was followed by scanning electron microscopy, testifying PBSNPs to be more potent in controlling the bacterial growth as compared with CSNPs. The bactericidal effect of PBSNPs was further confirmed by Live/Dead staining assays. Apart from the antibacterial activity, the biofunctionalized nanoparticles were found to resist biofilm formation. Electroplating of PBSNPs onto stainless steel surgical blades retained the antibacterial activity against P. aeruginosa. Further, the affinity of polymyxin for endotoxin was exploited for its removal using PBSNPs. It was found that the prepared nanoparticles removed 97% of the endotoxin from the solution. Such multifarious uses of metal nanoparticles are an attractive means of enhancing the potency of antimicrobial agents to control infections.Keywords: polymyxin B, silver nanoparticles, biofunctionalization, nosocomial pathogen, biofilm inhibition, endotoxin removal

Published
2015

14. Feeding Methods for a Circular Shaped Multiband Patch Antenna at 5G, X and Ku Band to Quantify their Effects on Antenna Characteristics

Author

Bisht, N., Malik, P.K., and Das, S.

Subjects
fifth generation, круговий патч, мікрополоскова лінія передачі, microstrip patch antenna, microstrip feedline, мікрополоскова патч-антена, coaxial probe feed, circular patch, коаксіальний зонд, п’яте покоління
Abstract

Стаття є порівняльним аналізом коаксіального живлення та живлення мікросмужкової лінії для щілинної круглої мікросмужкової антени. Різні методи живлення використовуються для підвищення узгодження імпедансу впливають на роботу кількох характерних параметрів, таких як коефіцієнт стоячої хвилі напруги, діаграму спрямованості, посилення тощо. Для визначення ступіню впливу на ці змінні, проводиться порівняльне дослідження, результати якого представлені в даній роботі. За допомогою тривимірного електромагнітного програмного забезпечення High Frequency Structure Simulator (HFSS) антена розроблена та змодельована. Передбачувана коаксіальна фідерна антена резонує на частотах 7,5 ГГц, 12,5 ГГц і 15 ГГц із смугою пропускання 1800, 720 і 360 МГц відповідно та 5,63 дБ як пікове посилення. Навпаки, запропонована мікросмугова фідерна антена резонує на частотах 3,5, 7, 12,8, 15, 17,5 ГГц із смугою пропускання 180, 450, 90, 1170, 2250 МГц і підсиленням 6,57 дБ. З точки зору підсилення, пропускної здатності та багатосмугових характеристик мікросмужкова лінійна подача перевершує коаксіальну зондову подачу. Антена розроблена з розміром (33,56 x 33,56) мм2. Підкладка, яка використовується для проектування круглої мікросмужкової антени, це FR4. До нових особливостей розробленої антени належать її багатодіапазонні властивості та збільшена пропускна здатність. Запропоновану антену можна ефективно використовувати в X, Ku та нижчому діапазоні 5G. The paper is a comparative analysis of coaxial feed and microstrip line feed for a slotted circular patch microstrip antenna. When various feeding techniques are used to increase impedance matching, the performance of several characteristic parameters, such as voltage standing wave ratio, radiation pattern, gain etc. are impacted. To determine the extent to which these variables are affected, a comparison study is conducted, and the results are provided in this work. With the help of High Frequency Structure Simulator (HFSS) 3D electromagnetic software the antenna is devised and simulated. The intended coaxial feed antenna resonates at 7.5 GHz, 12.5 GHz, and 15 GHz, with bandwidths of 1800, 720, and 360 MHz, respectively, and 5.63 dB as a peak gain. In contrast, the proposed micro-strip feed antenna resonates at 3.5, 7, 12.8, 15, 17.5 GHz with a bandwidth of 180, 450, 90, 1170, 2250 MHz and a peak gain of 6.57 dB. In terms of gain, bandwidth, and multiband characteristics, microstrip line feed has been shown to outperform coaxial probe feed. The antenna designed with dimension of 33.56 x 33.56 mm2. The substrate used for the designing of circular patch microstrip antenna is FR4. The novel features of the designed antenna include its multiband properties and increased bandwidth. The proposed antenna can be utilized efficiently in X, Ku and lower 5G band.

Published
2023

23. Development of a rapid LC-MS/MS method for the simultaneous quantification of various flavonoids and phytohormones extracted from Medicago Truncatula leaves

Author

P. N. Awasthi, Divya Chandran, A. S. Gupta, Nirpendra Singh, Atul Goel, Niti Sharma, and Bisht N

Subjects
Detection limit, chemistry.chemical_compound, Chromatography, chemistry, biology, Formononetin, Medicarpin, Liquiritigenin, biology.organism_classification, High-performance liquid chromatography, Salicylic acid, Medicago truncatula, Biochanin A
Abstract

Flavonoids are small metabolites of plants, which are involved in the regulation of plant development as well as defence against pathogens. Quantitation of these flavonoids in plant samples is highly important and essential in the food and herbal industry. Hence, robust, reliable and sensitive methods are required for the analysis of these compounds in plant samples. In the present study, a high performance liquid chromatographic-tandem mass spectrometric (HPLC– ESI-MS/MS) method was developed and validated for the determination of nine flavonoids, including Liquiritigenin, Naringenin, Genistein, Daidzein, Formononetin, Biochanin A, 2’-hydroxy formononetin, 2’-methoxyformononetin, Medicarpin, and two phytohormones, Salicylic acid and Jasmonic acid, in Medicago truncatula. The analytes were separated by means of C-18, reversed-phase chromatography and detected using QTRAP mass spectrometer. Molecules were quantified using different transitions in positive and negative ion modes simultaneously in 12 minutes. The on-column limit of detection of all the analytes was as low as 0.03 pg, whereas the limit of quantification of all the compounds was observed upto 0.1 pg levels. Further the method was also validated in terms of specificity, linearity (r2> 0.99), average recovery (90.6 – 110.3%), accuracy (RE% ≤ 3%) and precision (RSD% ≤ 3%). As a proof of concept, the developed method was successfully used for the quantitation of these flavonoids and phytohormones from leaf extract of Medicago truncatula.

Published
2021

47. High field physics and extreme nonlinear optics

Author

Teichmann, S.M., Bisht, N., Hidalgo, M., Honarfar, A., Mingolla, M.G., Turconi, M., Clerici, M., Di Trapani, P., and Biegert, J.

Subjects
Physics::Atomic and Molecular Clusters, Physics::Atomic Physics
Abstract

Despite the fact that high order harmonic generation (HHG) aims at serving as a table-top light source for imaging applications with extremely high spatial resolution, a general lack of accurate conversion efficiency measurements exists in the field. Here, we present such a measurement for a HHG setup with a semi-infinite gas cell. By combining measurements with a calibrated photodiode sensitive in the extreme ultra-violet (XUV) and spatially resolved spectral measurements of HHG spectra, we are able to determine conversion efficiencies of the HHG process as well as brilliance values for individual harmonics. The method is explained in detail and applicable to any target geometry.

Published
2012

48. Internet Marketing of Tourism

Author

Bisht, N. S., Belwal, Rakesh, Pande, Sweta, Bisht, N. S., Belwal, Rakesh, and Pande, Sweta

Subjects
Tourism--Internet marketing
Published
2010

49. Effect of rice husk (treated/untreated) and rice husk ash on fracture toughness of epoxy bio-composite

Author

Bisht Neeraj and Chandra Gope Prakash

Subjects
rice husk, rice husk ash, fracture toughness, epoxy bio-composite, Mechanical engineering and machinery, TJ1-1570
Abstract

Present work studies the effect of particle reinforcement on fracture toughness of bio-composites. The filler used has been taken as rice husk. Epoxy resin has been taken as matrix material. Composites with varying filler loading of 10, 20, 30 and 40 wt.% were fabricated. The fracture toughness was seen to be increasing with increase in filler loading. However beyond 20% there was a decrease in fracture toughness with increase in filler loading. The effect of fibre treatment on toughness was also observed. Rice husk fibres pre-treated with NaOH were used. It was observed that fracture toughness further improved due to treatment. The increase in fracture toughness was significant. Fracture toughness increased from 1.072 to 2.7465 MPa√mm for 20% reinforcement and after treatment it increased to 2.876 MPa√mm. It was observed that concentration of treatment media also affects the fracture toughness. Further the effect of hybridization was observed by addition of rice husk ash as a secondary reinforcement. The fracture toughness of the resulting composites was remarkably higher than that of pure epoxy.

Published
2020
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50. Rice husk as a fibre in composites: A review

Author

Bisht Neeraj, Gope Prakash Chandra, and Rani Nisha

Subjects
rice husk, polymers, treatment, Mechanical engineering and machinery, TJ1-1570
Abstract

In the last decade due to ever growing environmental concerns, use of natural fibres as fibre materials has gained momentum and acceptance. Natural fibres provide advantage of being economical and environment friendly at the same time. Rice husk, an agricultural waste is being utilized as a natural fibre for development of bio-composites. Present paper attempts to understand the applicability of rice husk as a fibre with various polymers based on the recent research works. It also throws light on various modification techniques that can further enhance the associated mechanical properties by altering the chemical and physical properties of husk. The paper may assist in understanding the phenomenon associated in manufacture of rice husk based bio-composite and provide a critical insight to the future applications of rice husk.

Published
2020
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