Institution
Motilal Nehru National Institute of Technology Allahabad
Education•Allahabad, Uttar Pradesh, India•
About: Motilal Nehru National Institute of Technology Allahabad is a education organization based out in Allahabad, Uttar Pradesh, India. It is known for research contribution in the topics: Control theory & Electric power system. The organization has 2475 authors who have published 5067 publications receiving 61891 citations. The organization is also known as: NIT Allahabad & Motilal Nehru Regional Engineering College.
Papers published on a yearly basis
Papers
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TL;DR: In this article, the authors used the comprehensive pollution index (CPI) to assess the water quality of the River Hindon in 28 sampling sites using the eleven physiochemical parameters such as biological oxygen demand, dissolved oxygen, total dissolve solids, total phosphate and four heavy metals (Fe, Cu, Zn and Cr).
Abstract: The River Hindon, a main tributary of river Yamuna flows in the western part of Uttar Pradesh (UP), India. As it passes through the industrial and urban areas, it receives a huge amount of wastages. Therefore, the present study is concerned with the assessment of water quality of the river in 28 sampling sites using the comprehensive pollution index (CPI), considering the eleven physiochemical parameters such as biological oxygen demand, dissolved oxygen, total dissolve solids, total phosphate and four heavy metals (Fe, Cu, Zn and Cr). Besides this, a multivariate statistical analysis is also performed using water quality parameters to validate the results. The CPI was found to be 2.68–7.12 (CPI > 2), which is an indication of severely polluted water of Hindon river. The result reveals that water of the Hindon River is unfit for human use, irrigation and other life supporting activities which are mainly on account of direct discharge of untreated wastewater by industries and municipal sources. Thi...
51 citations
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01 Jan 2011TL;DR: This chapter high- lights different methods for the fabrication of scaffolds, the suitability of chitosan as a good scaffolding material, and its application as a scaffold for tissue engineering applications, including regeneration of bone, cartilage, skin, liver, corneal, vascular, nerve, and cardiac tissue.
Abstract: The contribution of chitosan as a scaffold material is quite significant in the field of tissue engineering, which is a multidisciplinary field of research and technology development requiring the involvement of chemists, physicists, chemi- cal engineers, biologists, cell-biologists etc to regenerate injured or damaged tissue The advantages of using chitosan as a three-dimensional scaffold for tissue engineering applications are due to its versatile physicochemical and biological properties Further, owing to its easy processability, it can be molded into the desired shape and size Therefore, it is no exaggeration to say that chitosan is a promising biomaterial for tissue engineering scaffolds There is an enormous body of work already published in various journals on chitosan as a tissue engineering scaffold but, to our knowledge, this work has not yet been brought together in one chapter We have used our best efforts to accumulate the research work already done on chitosan in a single place so that chitosan researchers can easily find information and can therefore escalate their research activities This chapter high- lights different methods for the fabrication of scaffolds, the suitability of chitosan as a good scaffolding material, and its application as a scaffold for tissue engi- neering of bone, cartilage, skin, liver, corneal, vascular, nerve, and cardiac tissue
51 citations
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TL;DR: The introduction of acid moieties into chitosan increases the solubility in most of the organic solvents, which opens new perspectives for the employment of chitOSan-based biohybrid in biomedical applications.
51 citations
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TL;DR: Blood obtained from patients diagnosed with acute myocardial infarction exhibited significantly higher values of impedance, consistent with larger number of circulating PMPs in these patients, as compared to samples from healthy individuals, thus validating biosensor as a specific, sensitive, label-free and cost-effective tool for rapid point-of-care detection of PMPs at bedside.
50 citations
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TL;DR: In this paper, non-isothermal thermogravimetric experiments pertaining to garlic husk (GH) biomass were carried out at four heating rates, namely, 5, 10, 15 and 20°C/min.
50 citations
Authors
Showing all 2547 results
Name | H-index | Papers | Citations |
---|---|---|---|
Santosh Kumar | 80 | 1196 | 29391 |
Anoop Misra | 70 | 385 | 17301 |
Naresh Kumar | 66 | 1106 | 20786 |
Munindar P. Singh | 62 | 580 | 20279 |
Arvind Agarwal | 58 | 325 | 12365 |
Mahendra Kumar | 54 | 216 | 9170 |
Jay Singh | 51 | 301 | 8655 |
Lalit Kumar | 47 | 381 | 11014 |
O.N. Srivastava | 47 | 548 | 10308 |
Avinash C. Pandey | 45 | 301 | 7576 |
Sunil Gupta | 43 | 518 | 8827 |
Rakesh Mishra | 41 | 545 | 7385 |
Durgesh Kumar Tripathi | 37 | 133 | 5937 |
Vandana Singh | 35 | 190 | 4347 |
Prashant K. Sharma | 34 | 174 | 3662 |