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Abstract In this study, we investigated the optimal conditions for solvothermal-assisted synthesis of Eu-BDC-NH2 metal organic frameworks (MOFs) to improve their sensing capacity toward some selected target metal species. To this end, we focused on the interactive relationships between key synthesis variables (e.g., the relative molar ratios (and absolute amounts) of the reactants [EuCl3·6H2O vs. amino terephthalic acid (BDC-NH2)], temperature, and reaction duration). It was observed that different types of MOFs synthesized under diverse conditions consistently exhibited emission profiles of Eu3+. However, their luminescence properties were distinguished systematically by the synthesis conditions set for each sample group. The sensing potential of luminescent MOFs was explored for detection of toxic metal ions through two approaches, i.e., direct chemosensing and indirect biomolecule mediated sensing approach. In the former, the MOFs exhibited noticeable turn-off fluorescence behavior, especially with Hg2+ ions (i.e., a high Stern-Volmer quenching constant (Ksv) of 6.42 × 105 M−1 and limit of detection (LOD) of 0.007 M). In the latter, nanocomposites of MOFs-cyanocobalamin were characterized by a highly selective turn on fluorescence response towards Co2+ ions (Ksv = −6.25 × 103 M−1; LOD = 0.7 M). As such, the sensing capacity of these MOFs was distinguished efficiently by control of synthesis variables. Highlights <UL> <LI> Optimized synthesis of Eu-BDC-NH2-MOFs by solvothermal approach. </LI> <LI> Effect of three variables i.e. molar ratio of reactants, temperature and time period reported has been investigated. </LI> <LI> Enhanced luminescence intensity, high reproducibility, and high stability of the MOFs upto 1 year. </LI> <LI> Significant turn off fluorescence in presence of 1 ppm Hg2+ metal ions. </LI> <LI> Distinct turn on fluorescence of MOF-CNCbl nanocomposites in presence of 1 ppm Co2+ ions. </LI> </UL> Graphical abstract [DISPLAY OMISSION]