Deepak Gupta scite author profile

Metal–organic frameworks (MOFs) have emerged as an important, yet highly challenging class of electrochemical energy storage materials. The chemical principles for electroactive MOFs remain, however, poorly explored because precise chemical and structural control is mandatory. For instance, no anionic MOF with a lithium cation reservoir and reversible redox (like a conventional Li-ion cathode) has been synthesized to date. Herein, we report on electrically conducting Li-ion MOF cathodes with the generic formula Li2-M-DOBDC (wherein M = Mg2+ or Mn2+; DOBDC4– = 2,5-dioxido-1,4-benzenedicarboxylate), by rational control of the ligand to transition metal stoichiometry and secondary building unit (SBU) topology in the archetypal CPO-27. The accurate chemical and structural changes not only enable reversible redox but also induce a million-fold electrical conductivity increase by virtue of efficient electronic self-exchange facilitated by mix-in redox: 10–7 S/cm for Li2-Mn-DOBDC vs 10–13 S/cm for the isoreticular H2-Mn-DOBDC and Li2-Mg-DOBDC, or the Mn-CPO-27 compositional analogues. This particular SBU topology also considerably augments the redox potential of the DOBDC4– linker (from 2.4 V up to 3.2 V, vs Li+/Li0), a highly practical feature for Li-ion battery assembly and energy evaluation. As a particular cathode material, Li2-Mn-DOBDC displays an average discharge potential of 3.2 V vs Li+/Li0, demonstrates excellent capacity retention over 100 cycles, while also handling fast cycling rates, inherent to the intrinsic electronic conductivity. The Li2-M-DOBDC material validates the concept of reversible redox activity and electronic conductivity in MOFs by accommodating the ligand’s noncoordinating redox center through composition and SBU design.

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Psychobiotics: The Next-Generation Probiotics for the Brain

Sharma

Gupta

Mehrotra

et al. 2021

Curr Microbiol

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Rhenium‐Carbonyl‐Based Supramolecular Coordination Complexes: Synthesis, Structure and Properties

Gupta

Sathiyendiran

2018

ChemistrySelect

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The facial‐Re(CO)3 core based supramolecular coordination complexes represent a unique class of functional 2D and 3D metallacycles possessing advantages such as high stability, one‐step synthesis, clean products and good solubility. Most of these metallacycles display interesting photophysical and redox properties leading to their applications in host‐guest chemistry, photo‐catalysis, biological activity and functional molecular devices. This review presents a comprehensive survey of reported Re‐based metallacycles describing the development of synthetic methodologies, properties, applications and future prospects.

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Awareness and Knowledge about Probiotics among College Students

Sharma¹,

Gupta²,

Gupta³

et al. 2019

J Pure Appl Microbiol

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Deepak Gupta

An analysis of the difference in behavior of top and bottom contact organic thin film transistors using device simulation

An Electrically Conducting Li-Ion Metal–Organic Framework

Psychobiotics: The Next-Generation Probiotics for the Brain

Rhenium‐Carbonyl‐Based Supramolecular Coordination Complexes: Synthesis, Structure and Properties

Awareness and Knowledge about Probiotics among College Students

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