Litcius/Paper detail

Green synthesis of graphene quantum dots from Opuntia sp. extract and their application in phytic acid detection

Lizeth Centeno, Jorge Romero‐García, Carmen Alvarado‐Canché, Carlos Gallardo‐Vega, G. Télles-Padilla, Enrique Díaz Barriga‐Castro, Edgar N. Cabrera-Álvarez, Antonio Ledezma‐Pérez, Arxel de León

2021Sensing and Bio-Sensing Research40 citationsDOIOpen Access PDF

Abstract

Phytic acid and phytate anions are among the principal reserves of phosphorus. A few methods have been used for their detection, but these methods require harsh conditions. In this work, graphene quantum dots are successfully synthesized by Opuntia sp. extract through a pyrolysis microwave treatment. This green synthesis method allows us to controllably obtain nanostructures with excellent dispersion and a narrow size distribution to use for detecting phosphates and phytic acid and amplifying fluorescence quenching at pH = 8.8. Their application allows for a one-step turn-off system. The quenching percentage for phytic acid (PA) detection is 53%, and the quenching percentages are 26 and 21% for sodium phosphate monobasic (SPMB) and sodium phosphate dibasic (SPDB), respectively. The Stern-Volmer analysis shows that static and dynamic quenching mechanics contribute to phytic acid quenching.

Topics & Concepts

Phytic acidQuenching (fluorescence)GrapheneDibasic acidPhosphateFluorescenceQuantum dotChemistryMaterials scienceNanotechnologyOrganic chemistryBiochemistryPhysicsQuantum mechanicsCarbon and Quantum Dots ApplicationsPhytase and its ApplicationsNanocluster Synthesis and Applications