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

Lewis acidic Fe3+-driven catalytic active Ni3+ formation in Fe-free metal–organic framework for enhanced electrochemical glucose sensing - ScienceDirect

A Hafnium-Based Metal–Organic Framework as a Nature-Inspired Tandem Reaction Catalyst

A Double-Walled Porous Metal–Organic Framework as a Highly Efficient Catalyst for Chemical Fixation of CO2 with Epoxides

Lewis acidic Fe3+-driven catalytic active Ni3+ formation in Fe-free metal–organic framework for enhanced electrochemical glucose sensing - ScienceDirect

Covalent Organic Polymers and Frameworks for Fluorescence-Based Sensors

Electrochemical Dopamine Detection using a Fe/Fe3O4@C Composite derived from a Metal‐Organic Framework - Zhang - 2022 - ChemistrySelect - Wiley Online Library

Development of Composite Inorganic Building Blocks for MOFs

Covalent Organic Polymers and Frameworks for Fluorescence-Based Sensors

Novel rapid coordination of ascorbic acid 2-phosphate and iron(III) as chromogenic substrate system based on Fe2O3 nanoparticle and application in immunoassay for the colorimetric detection of carcinoembryonic antigen - ScienceDirect

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*