Login / Signup

Syntheses and fluorescence properties of lanthanide isostructural complexes derived from aspartic acid.

Yatong ZhangAi WangSi-Si FengCaixia YuanLi-Ping Lu
Published in: Dalton transactions (Cambridge, England : 2003) (2023)
To protect ecosystem balance and human health, the development of fluorescent sensing materials with high sensitivity and portability has attracted wide attention in several decades. Herein, six lanthanide isostructural complexes {[Ln(μ 6 -Hcaa)(H 2 O)]Cl} n (H 3 caa = N -(4-carboxylbenzyl)-L-aspartic acid, Ln 3+ = Ce 3+ (1), Pr 3+ (2), Nd 3+ (3), Sm 3+ (4), Eu 3+ (5), and Tb 3+ (6)) with optical properties based on aspartic acid derivative (H 3 caa) were synthesized by the solvothermal method and characterized in detail. It is worth noting that complex 6 can not only specifically recognize Cr(VI) with very low detection limits (LODs) of 3.66 nM (Cr 2 O 7 2- ) & 5.35 nM (CrO 4 2- ) but also selectively recognize TCs with LODs of 0.24 μM (CTC = chlortetracycline) and 0.25 μM (TC = tetracycline) based on the method of fluorescence detection. In addition, the identification of Cr(VI) and TCs by visual colorimetry may be realized through the combination of a smartphone and portable test strips. This study suggests that complex 6 is a good optical material for detecting heavy metals and antibiotic contaminants in aqueous systems and broadens the development of amino acid derivatives.
Keyphrases