Carbon nanotubes price9/12/2023 ![]() Klebanoff L, Keller J, Fronk M, Scott P (2016) Hydrogen conversion technologies and automotive applications. Energy Convers Manage 89:205–213Ĭhen X, Wang L, Zhang W, Zhang J, Yuan Y (2017) Ca-decorated borophene as potential candidates for hydrogen storage: a first-principle study. Nicoletti G, Arcuri N, Nicoletti G, Bruno R (2015) A technical and environmental comparison between hydrogen and some fossil fuels. Momirlan M, Veziroglu TN (2005) The properties of hydrogen as fuel tomorrow in sustainable energy system for a cleaner planet. Liu Z, Xue Q, Ling C, Yan Z, Zheng J (2013) Hydrogen storage and release by bending carbon nanotubes. Okolie JA, Patra BR, Mukherjee A, Nanda S, Dalai AK, Kozinski JA (2021) Futuristic applications of hydrogen in energy, biorefining, aerospace, pharmaceuticals and metallurgy. International journal of hydrogen energy 32:1121–1140 Sakintuna B, Lamari-Darkrim F, Hirscher M (2007) Metal hydride materials for solid hydrogen storage: a review. Holladay JD, Hu J, King DL, Wang Y (2009) An overview of hydrogen production technologies. ![]() Zhang H, Lin G, Chen J (2010) Evaluation and calculation on the efficiency of a water electrolysis system for hydrogen production. Ni M, Leung DY, Leung MK, Sumathy KJFPT (2006) An overview of hydrogen production from biomass. Wang X, Maeda K, Thomas A, Takanabe K, Xin G, Carlsson JM, Antonietti M (2009) A metal-free polymeric photocatalyst for hydrogen production from water under visible light. Muthu RN, Rajashabala S, Kannan R (2016) ’Hexagonal boron nitride (h-BN) nanoparticles decorated multi-walled carbon nanotubes (MWCNT) for hydrogen storage’. Joseph J, Sivasankarapillai VS, Nikazar S, Shanawaz MS, Rahdar A, Lin H et al (2020) ’Borophene and boron fullerene materials in hydrogen storage: opportunities and challenges’. The d-block element like Pt, Pd, Ti, Si, Al are doped with Boron nitrite nanocomposite further enhancement of hydrogen adsorption takes place. By doping with O and C with B and N element of boron nitride hydrogen adsorption takes by chemisorption. By increasing surface area, pressure and decreasing temperature hydrogen adsorption increases by physisorption. Different BN nanocomposite has been used for the storage of Hydrogen like BN nanotubes, h-BN, p-BN, Open-ended BN and BN-Clusters. Boron Nitride nanocomposites has mostly been reported for the storage of molecular hydrogen by chemisorption and physisorption over a wide range of temperatures and pressure. Although hydrogen has the best potential of satisfying the demand for fuel in the future, there are many obstacles limiting its practical application, and storage of hydrogen is very challenging due to it’s very high energy density relative to its weight. It can be precursor and auxiliary material for a number of industrial process. Hydrogen is considered a best energy source for the next upcoming generation as an energy storage, carrier and vector.
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