Pardeep Kumar Sharma scite author profile

To meet the specifications of low cost, highly reliable electronic devices, fault diagnosis techniques play an essential role. It is vital to find flaws at an early stage in design, components, material, or manufacturing during the initial phase. This review paper attempts to summarize past development and recent advances in the areas about green manufacturing, maintenance, remaining useful life (RUL) prediction, and like. The current state of the art in reliability research for electronic components, mainly includes failure mechanisms, condition monitoring, and residual lifetime evaluation is explored. A critical analysis of reliability studies to identify their relative merits and usefulness of the outcome of these studies' visa -vis green manufacturing is presented. The wide array of statistical, empirical, and intelligent tools and techniques used in the literature are then identified and mapped. Finally, the findings are summarized, and the central research gap is highlighted. INDEX TERMS Reliability methods, condition monitoring, faults and failures, prognostics, diagnostics.

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Fabrication of DSSC using doctor blades method incorporating polymer electrolytes

Abrol

Bhargava

Sharma

2021

Mater. Res. Express

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Amongst various sources of renewable energy, solar energy is becoming prime due to its advantages of cleanliness, abundance and low operating cost. Currently, amorphous silicon PV cells are most into commercialization but to contradict, they have a very high manufacturing cost and due to usage of hazardous materials, they lead to environmental degradation. Hence, they are less preferred now a days. To overcome these complications, Dye sensitized solar cells (DSSC) are replacing customary cells at a very fast rate. In this research, fabrication of DSSC was done based polymer gel electrolytes prepared by in situ gelation. The ionic properties of the polymer gel electrolyte were also observed with the help of various tests performed like FESEM, FTIR, XRD & TGA. FTIR & XRD affirmed the good electron emission characteristics of the polymer electrolyte. XRD & TGA give amorphous nature and weight loss indication near 360 °C for cell based on polymer electrolytes. The performance evaluation of hence fabricated DSSC’s was done in terms of calculating efficiency, fill factor, current density (short circuit) and photovoltage (open circuit). The efficiency of the cell was found out to be 11.32% and fill factor came out to be 0.439.

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Analytical Method Development and Validation for the Estimation of Miconazole Nitrate in Bulk and Marketed Topical Formulation

Kumar¹,

Kaur²,

Kumar³

et al. 2019

Rese. Jour. of Pharm. and Technol.

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Electrical properties enhancement of Liquid and Polymer Gel based electrolytes used for DSSC applications

Abrol

Bhargava

Sharma

2020

Mater. Res. Express

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Electrolytes have been considered a major component of DSSC and play a vital role in determining the ionic conductivity and efficiency of the cell. Emphasis was laid on the confirming the conductivity upon fabrication of an electrolyte using in situ gelation process from a newfangled combination of Triiodide (KI/I2/Glacial acetic acid/distilled water) and gel-based polymer electrolyte (Gelator: PMMA/THF/PC/EC) in the ratio 8:2. The electrolyte portion so framed generated a photo conversion efficiency of 11.32% and a fill factor of 0.439. The conductivity of the sample characterized by Scanning Electron Microscopy showed that the uniform tracks confirmed extreme ionic conductivity of the blend electrolyte which showed dependance on the layered movement of PMMA- co- THF- KI2/PC/EC based electrolyte system. Energy Dispersive x-ray Analysis (EDX) reports engrained the percentage weight proportions of conductive elements (C & O with a wt% of 65.48 and 30.18 in one spectrum and K & I with a wt% of 44.7 & 35.25 in another spectrum respectively). FTIR test analysis was performed to identify the functional groups of the PGE which identified the ionic conductivity of the sample, shown by the intensity of peak absorbance in the range 400–4000 cm−1. Further it was observed, the conductivity of the different concentrations of the liquid and gelator solution demonstrated an increase in exhibiting ionic conductivity and the same was depicted by the morphological studies that featured dark pores of the sample which were spread consistently indicating the amorphous nature of the material (at room temperature).

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Bilayer Tablet Based Chronotherapeutics in the Management of Nocturnal Asthma: An Overview

Thakur

Singh²,

Mishra

et al. 2019

DDF

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Background: Asthma is a common ailment with a larger circadian difference. Nocturnal Asthma (NA) is an inconstant exacerbation of asthmatic condition related to the rise in warning sign during the night time and there is a need for its treatment addressing air route alertness and decline in lung functions. These symptoms are linked to sleep or known as circadian events. Chronotherapeutics is a management system based on an in-vivo drug accessibility programmed to check the rhythms of ailment in a direction to improve the therapeutic outcomes by suppressing the side effects. This review aims to provide an overview of NA, chronotherapeutics for the treatment of NA, bilayer tablets, and advanced techniques involved in the fabrication of bilayer tablets. The review also discusses some of the related patents. Methods: Relevant literature about the latest developments and updated information related to NA, chronotherapeutics and bilayer tablets has been very widely searched on different biomedical literature programs such as Google, Web of Science, PubMed portals, etc. Bilayer tablet mediated chronotherapy has gained significant attention and consideration as it is developed and fabricated based on the body’s circadian rhythm. Bilayer tablets can deliver the bioactive compounds at an appropriate time, place as well as amount and site. Results: Available literature advocated that the bilayer matrix tablet containing a single drug in the sustained release film and fast releasing film, may be beneficial for the chronic diseases like asthma, migraine, diabetes, hypertension and inflammation which usually require immediate as well as maintained therapeutic effect. Conclusion: The application of nanotechnology in the arena of medicine will transform the diagnosis and treatment strategies of a wide range of diseases in the upcoming years. The findings of this review confirm the importance of bilayer tablet based chronotherapy in nocturnal asthma.

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