Article de journal
Hexagonal basalt-like ceramics LaxMg1-xTiO3 (x = 0 and 0.5) contrived via deep eutectic solvent for selective electrochemical detection of dopamine

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Détails sur la publication
Liste des auteurs: Roselin Ranjitha Mathiarasu, A. Manikandan, Jeena N. Baby, Kurinjinathan Panneerselvam, Raghu Subashchandrabose, Mary George, Y. Slimani, M. A. Almessiere, and A. Baykal
Editeur: Elsevier
Année de publication: 2021
Journal: Physica. B, Condensed matter
Nom du journal dans la source: Physica B: Condensed Matter
Numéro du volume: 615
Numéro de publication: 15 August 2021
Page d'accueil: 1
Dernière page: 10
Nombre de pages: 10
ISSN: 0921-4526
Web of Science ID:
Scopus ID: 85105031877
eISSN: 1873-2135

Attributed to the increased interest in search of cost effective alternatives for electrochemical sensing materials, alkali and alkaline-earth metal oxides have seized the attention of material researchers. Herein we report the novel approach of deep eutectic solvent (DES) mediated facile solid state synthesis of pure and lanthanum doped magnesium titanate ceramics at 800 °C. The unique hexagonal basalt-like structure achieved for the La-doped ceramic material showed tremendous electrocatalytic activity towards dopamine biomolecules over a wide linear detection range of 5–50 μM. A remarkable limit of detection, 1.32 μM was attained for La-doped magnesium titanate modified glassy carbon electrode. %RSD value of 2.04 and recovery rate of 97.95 in spiked human serum ensures its promising future as a potential, cost effective and ecofriendly electrode modifier in portable dopamine sensors for point of care human serum analysis.

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Dernière mise à jour le 2021-10-06 à 13:55