1. Pachhunga University College IR

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Issue DateTitleAuthor(s)
2022The effect of mechanical relaxation time in the elastic wave propagation in elastic materials with voids is investigated. The phase speed and the attenuation coefficients are obtained and observed the effect of mechanical relaxation time. The phenomenon of reflection of elastic waves due to the incident waves from a plane boundary of elastic materials with voids is studied. The amplitude and energy ratios of the reflected waves are obtained. Numerically these ratios, phase speeds and the corresponding attenuation coefficients are computed for a particular model and the effect of mechanical relaxation time is discussed.Lalhriatzuala
2020-08-31COVID-19 incidence in Mizoram, IndiaLalthanzara, H
2017-09Nasutixalus jerdonii (Jerdon’s bubble-nest frog): first record from MizoramVanramliana
2020-10-26A first distribution record of the Indian Peacock Softshell Turtle Nilssonia hurum (Gray, 1830) (Reptilia: Testudines: Trionychidae) from Mizoram, IndiaChandra Kulendra, Das
2018Assessment of Seasonal Variation in Water Quality of Gomti River, Jaunpur City, IndiaRanjan, Mukesh
2018Silk-based biomaterials have gained significant importance making them a promising choice for the future of medical technology due to their versatility and biocompatibility. They can be fabricated and tailored through various processing methods such as electrospinning, freeze-drying, and 3D printing, to achieve specific properties and structures namely sponges, hydrogels, films, and scaffolds that can be utilized for different biomedical applications. Biocompatibility, a unique property of silk-based biomaterials, has been demonstrated through both in vivo and in vitro studies and to date many studies have reported the successful use of these silk-based biomaterials in different fields of medicine. In this review, we have elaborately discussed different types of silk, their structural composition, and biophysical properties. Also, the current review focuses on highlighting various biomedical applications of engineered and fabricated silk-based biomaterials which aid in the treatment of certain infections and diseases related to skin, eyes, teeth, bone, heart, nerves, and liver. Furthermore, we have consolidated the advancements of silk-based biomaterials in the different fields of biotechnology such as sensors, food coating and packaging, textiles, drug delivery, and cosmetics. However, the research in this field continues to expand and more significant observations must be generated with feasible results for their reliable use in different biomedical applicationsBabu, Punuri Jayasekhar
2018-09-24Photocatalytic degradation of methylene blue from aqueous solutions using nanopillars-TiO2 thin films: Batch reactor studiesLalhriatpuia, C
2014-02CORRELATION OF FOUR MAGNETOSTRATIGRAPHICALLY CONSTRAINED SECTIONS OF MIOCENE BHUBAN FORMATION OF SURMA BASIN IN MIZORAM, INDIALalremruatfela, C
2022-08-05DPP-4 inhibition mediated antidiabetic potential of phytoconstituents of an aqueous fruit extract of Withania coagulans (Stocks) Dunal: in-silico, in-vitro and in-vivo assessmentsSingh, Garima
2021-11-14Provenance Shifts During Neogene Brahmaputra Delta Progradation Tied to Coupled Climate and Tectonic Change in the Eastern HimalayaLalremruatfela, C

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