Aqueous Phase Sensing of Fe3+ and Ascorbic Acid by a Metal–Organic Framework and Its Implication in the Construction of Multiple Logic Gates - Dalapati - 2019 - Chemistry – An Asian Journal - Wiley Online Library
Metal–Organic Frameworks (MOFs) Based Analytical Techniques for Food Safety Evaluation - Xue - 2021 - eFood - Wiley Online Library
Metal-organic framework as a multi-component sensor for detection of Fe3+, ascorbic acid and acid phosphatase - ScienceDirect
Acid and alkalinity stable pillared-layer and fluorescent zinc(II) metal–organic framework for selective sensing of Fe3+ ions in aqueous solution - ScienceDirect
Selective sensing of Fe3+ ions in aqueous solution by a biodegradable platform based lanthanide metal organic framework - ScienceDirect
Selective sensing of Fe3+ ions in aqueous solution by a biodegradable platform based lanthanide metal organic framework - ScienceDirect
Turn-On Luminescent Sensor toward Fe3+, Cr3+, and Al3+ Based on a Co(II) Metal–Organic Framework with Open Functional Sites
Aqueous-Phase Differentiation and Speciation of Fe3+ and Fe2+ Using Water-Stable Photoluminescent Lanthanide-Based Metal–Organic Framework
Lewis acidic Fe3+-driven catalytic active Ni3+ formation in Fe-free metal–organic framework for enhanced electrochemical glucose sensing - ScienceDirect
High-Performance Sensing of Formic Acid Vapor Enabled by a Newly Developed Nanofilm-Based Fluorescent Sensor
Aqueous phase sensing of Fe3+ and ascorbic acid by a metal‐organic framework and its implication in construction of multiples logic gates Rana Dalapati and Shyam Biswas*
Covalent Organic Polymers and Frameworks for Fluorescence-Based Sensors
Development of Composite Inorganic Building Blocks for MOFs
A Metal–Organic Framework as Selectivity Regulator for Fe3+ and Ascorbic Acid Detection
Selective Separation of Am(III)/Eu(III) by the QL-DAPhen Ligand under High Acidity: Extraction, Spectroscopy, and Theoretical Calculations