Electromagnetic Wave-Absorbing Properties of Pongamia Glabra Based-CNMs in the 8-12 GHz Range

Kshirsagar, Dattatray E.; Puri, Vijaya; Sharon, Maheshwar; Sharon, Madhuri

doi:10.1080/15533170701471760

Cited by 7 publications

(3 citation statements)

References 4 publications

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“…Later on, attempts were made to utilize such carbon nanomaterials for giga hertz frequency applications. [26][27][28][29][30][31] In furtherance of these previous research studies, we report the properties of CNFs from natural linseeds oil in X-band of microwave frequency region. Here, the precursor was selected on the basis of its efficiency to produce various forms of nano carbon with optimized parameters.…”

Section: Introductionmentioning

confidence: 99%

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CNFs from linseeds oil: a potential source of X-band microwave absorbers

Kshirsagar¹,

Dubey²,

Puri

et al. 2022

Mater. Adv.

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Section: Introductionmentioning

confidence: 99%

“…Later on, attempts were made to utilize such carbon nanomaterials for giga hertz frequency applications. 26–31…”

Section: Introductionmentioning

confidence: 99%

CNFs from linseeds oil: a potential source of X-band microwave absorbers

Kshirsagar¹,

Dubey²,

Puri

et al. 2022

Mater. Adv.

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“…About two decades ago, Sharon's group (Sharon et.al. 2005a;and 2005b) Plant metabolites like oil, pure fatty acids, terpene-oil, latex, resins, etc have been also used as precursors to produce different types of CNM (Kshirsagar 2007, Tripathi et.al. 2013Vishwanathan et.al.…”

Section: Plant Metabolites As Precursormentioning

confidence: 99%

Biogenic Carbon Nanofiber Synthesized From Agro-Waste for Removal of Heavy-Metal From Wastewater

Sharon¹,

Dubey²,

Shukla³

2023

tajas

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The advent of inexorable human, and industrial activities as well as the input of nature has impacted the environment by releasing Heavy Metals into the aquatic system. Hence, the physical removal of hazardous HM remains a demand of the day. This review envisages the use of agro-waste with the incorporation of nanotechnology for the removal of HM from aquatic systems. The focus is on plant parts, plant metabolites, and plant-cellulose-derived Carbon Nanofibers (CNF) as materials used for the removal of Heavy Metals. Owing to their high surface area, high mechanical strength, greater chemical reactivity due to the presence of dangling bonds, non-toxicity, high porosity,channel-like morphology, and lower costas the precursor, energy-efficient production; makes CNF an effective adsorbent of Heavy Metals.CNF synthesized from agro-waste and plant-metabolite to adsorb Heavy Metals; as well as acts as a filtration base has been touched upon with the hope of bridging the gap between ever-increasing demand and available clean water. A brief introduction to the CNF, its structure, properties as well as common methods of synthesis of CNF is given. Moreover, Physico-Chemical and Biological methods that are being used is also touched upon. The article suggests the need for innovative, low-cost, and environmentally friendly surface modification techniques and the use of agro-waste-derived CNF for the removal of HM from water.

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Stealth, Counter Stealth and Nanotechnology

Sharon¹

2019

Nanotechnology in the Defense Industry

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Electromagnetic Wave-Absorbing Properties of Pongamia Glabra Based-CNMs in the 8-12 GHz Range

Cited by 7 publications

References 4 publications

CNFs from linseeds oil: a potential source of X-band microwave absorbers

CNFs from linseeds oil: a potential source of X-band microwave absorbers

Biogenic Carbon Nanofiber Synthesized From Agro-Waste for Removal of Heavy-Metal From Wastewater

Stealth, Counter Stealth and Nanotechnology

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