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Literatura académica sobre el tema "Imidazolium immobilization"
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Artículos de revistas sobre el tema "Imidazolium immobilization"
Finn, M., N. An y A. Voutchkova-Kostal. "Immobilization of imidazolium ionic liquids on hydrotalcites using silane linkers: retardation of memory effect". RSC Advances 5, n.º 17 (2015): 13016–20. http://dx.doi.org/10.1039/c4ra13839b.
Texto completoBahadorikhalili, Saeed, Leila Ma’mani, Hossein Mahdavi y Abbas Shafiee. "Palladium catalyst supported on PEGylated imidazolium based phosphinite ionic liquid-modified magnetic silica core–shell nanoparticles: a worthy and highly water-dispersible catalyst for organic reactions in water". RSC Advances 5, n.º 87 (2015): 71297–305. http://dx.doi.org/10.1039/c5ra12747e.
Texto completoTripathi, Alok Kumar, Yogendra Lal Verma y Rajendra Kumar Singh. "Thermal, electrical and structural studies on ionic liquid confined in ordered mesoporous MCM-41". Journal of Materials Chemistry A 3, n.º 47 (2015): 23809–20. http://dx.doi.org/10.1039/c5ta05090a.
Texto completoSharma, Anshu, Kamla Rawat, Pratima R. Solanki y H. B. Bohidar. "Electrochemical response of agar ionogels towards glucose detection". Analytical Methods 7, n.º 14 (2015): 5876–85. http://dx.doi.org/10.1039/c5ay01310k.
Texto completoMahmoudi, Hamed, Federica Valentini, Francesco Ferlin, Lucia Anna Bivona, Ioannis Anastasiou, Luca Fusaro, Carmela Aprile, Assunta Marrocchi y Luigi Vaccaro. "A tailored polymeric cationic tag–anionic Pd(ii) complex as a catalyst for the low-leaching Heck–Mizoroki coupling in flow and in biomass-derived GVL". Green Chemistry 21, n.º 2 (2019): 355–60. http://dx.doi.org/10.1039/c8gc03228a.
Texto completoYuan, Ya Mei, Qiu Jin Li, Song Kun Yao, Ji Xian Gong y Jian Fei Zhang. "Different Patterns of Ionic Liquids-Regenerated Cellulose Carriers for Papain Immobilization". Advanced Materials Research 864-867 (diciembre de 2013): 319–23. http://dx.doi.org/10.4028/www.scientific.net/amr.864-867.319.
Texto completoTakahashi, Nobuyuki, Hideo Hata y Kazuyuki Kuroda. "Exfoliation of Layered Silicates through Immobilization of Imidazolium Groups". Chemistry of Materials 23, n.º 2 (25 de enero de 2011): 266–73. http://dx.doi.org/10.1021/cm102942s.
Texto completoPassos, Marieta L. C., Emília Sousa y M. Lúcia M. F. S. Saraiva. "Immobilized imidazolium-based ionic liquids in C18 for solid-phase extraction". Analyst 145, n.º 7 (2020): 2701–8. http://dx.doi.org/10.1039/c9an02479d.
Texto completoZhao, Cuifang, Baozeng Ren, Yuting Song, Junling Zhang, Lingchao Wei, Shimou Chen y Suojiang Zhang. "Immobilization and molecular rearrangement of ionic liquids on the surface of carbon nanotubes". RSC Adv. 4, n.º 31 (2014): 16267–73. http://dx.doi.org/10.1039/c4ra00569d.
Texto completoYuan, Ya Mei, Qiu Jin Li, Song Kun Yao, Wei Zhang y Jian Fei Zhang. "Immobilization of Papain on Regenerated Cellulose from Ionic Liquids". Applied Mechanics and Materials 448-453 (octubre de 2013): 1651–55. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.1651.
Texto completoTesis sobre el tema "Imidazolium immobilization"
Adjez, Yanis. "Stimulation of Electrocatalytic Reduction of Nitrate by Immobilized Ionic Liquids". Electronic Thesis or Diss., Sorbonne université, 2024. https://accesdistant.sorbonne-universite.fr/login?url=https://theses-intra.sorbonne-universite.fr/2024SORUS337.pdf.
Texto completoNitrate pollution in water represents a significant environmental challenge and is one of the top ten most common water quality violations worldwide. This challenge offers an opportunity for the circular economy as nitrate electrolysis has been suggested as a sustainable method for valorization of nitrate-contaminated effluents by simultaneous decentralized ammonia production (a commodity chemical). In particular, the electrochemical reduction of nitrate (ERN) is a promising and sustainable strategy for addressing the critical issue of nitrate pollution in water sources. Several earth abundant materials such as copper and tin have been suggested as suitable electrocatalytic materials for ERN. Mostly fundamental electrochemical studies under potentiostatic conditions are reported so far. In contrast, this study presents ERN evaluation under galvanostatic conditions for achieving more representative operational conditions for larger engineered systems. However, this provokes the appearance of the concomitant hydrogen evolution reaction (HER), which takes place at a similar thermodynamic potential than ERN. Thus, faradaic efficiency for ERN significantly diminishes under realistic galvanostatic conditions due to the competition with HER. This project addresses this fundamental challenge in electrocatalysis and proposes a novel strategy based on the immobilization of imidazolium-based ionic molecules on the surface of the cathode to selectively inhibit HER and enhance ERN. Notably, this research explores a range of hybrid cathode materials, including 2D plate and 3D foam carbon- and metal-based electrodes, which are recognized for their potential in real world applications for ERN. The success of the ionic organic layer immobilization onto the cathodes was confirmed through different physicochemical characterization techniques and subsequent electrocatalytic activity and selectivity evaluation, which demonstrated an enhanced selectivity and faradaic efficiency for ammonia production on hybrid cathodes twice as much as the bare electrode material for ERN under the same experimental conditions