Urmimala Maitra scite author profile

The search for improved energy-storage materials has revealed Li- and Na-rich intercalation compounds as promising high-capacity cathodes. They exhibit capacities in excess of what would be expected from alkali-ion removal/reinsertion and charge compensation by transition-metal (TM) ions. The additional capacity is provided through charge compensation by oxygen redox chemistry and some oxygen loss. It has been reported previously that oxygen redox occurs in O 2p orbitals that interact with alkali ions in the TM and alkali-ion layers (that is, oxygen redox occurs in compounds containing Li-O(2p)-Li interactions). Na[MgMn]O exhibits an excess capacity and here we show that this is caused by oxygen redox, even though Mg resides in the TM layers rather than alkali-metal (AM) ions, which demonstrates that excess AM ions are not required to activate oxygen redox. We also show that, unlike the alkali-rich compounds, Na[MgMn]O does not lose oxygen. The extraction of alkali ions from the alkali and TM layers in the alkali-rich compounds results in severely underbonded oxygen, which promotes oxygen loss, whereas Mg remains in Na[MgMn]O, which stabilizes oxygen.

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Graphene Analogues of Inorganic Layered Materials

Rao

2013

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The discovery of graphene has created a great sensation in chemistry, physics, materials science, and related areas. The unusual properties of graphene have aroused interest in other layered materials, such as molybdenum sulfide and boron nitride. In the last few years, single- as well as few-layer as well as chalcogenides and other inorganic materials have been prepared and characterized by a variety of methods. These materials possess interesting properties, and some have potential applications. This Review provides an up-to-date account of these emerging two-dimensional nanomaterials. Not only are the synthesis and characterization covered, but also important aspects such as spectroscopic and optical properties, magnetic and electrical properties, as well as applications. Salient features of the composites formed from the layered inorganic structures with graphene and polymers are presented along with a brief description of borocarbonitrides.

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Highly Effective Visible‐Light‐Induced H₂ Generation by Single‐Layer 1T‐MoS₂ and a Nanocomposite of Few‐Layer 2H‐MoS₂ with Heavily Nitrogenated Graphene

et al. 2013

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Lithium manganese oxyfluoride as a new cathode material exhibiting oxygen redox

House

Jin

Maitra

et al. 2018

Energy Environ. Sci.

188

273

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Urmimala Maitra

Superstructure control of first-cycle voltage hysteresis in oxygen-redox cathodes

Oxygen redox chemistry without excess alkali-metal ions in Na2/3[Mg0.28Mn0.72]O2

Graphene Analogues of Inorganic Layered Materials

Highly Effective Visible‐Light‐Induced H₂ Generation by Single‐Layer 1T‐MoS₂ and a Nanocomposite of Few‐Layer 2H‐MoS₂ with Heavily Nitrogenated Graphene

Lithium manganese oxyfluoride as a new cathode material exhibiting oxygen redox

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Urmimala Maitra

Superstructure control of first-cycle voltage hysteresis in oxygen-redox cathodes

Oxygen redox chemistry without excess alkali-metal ions in Na2/3[Mg0.28Mn0.72]O2

Graphene Analogues of Inorganic Layered Materials

Highly Effective Visible‐Light‐Induced H2 Generation by Single‐Layer 1T‐MoS2 and a Nanocomposite of Few‐Layer 2H‐MoS2 with Heavily Nitrogenated Graphene

Lithium manganese oxyfluoride as a new cathode material exhibiting oxygen redox

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Product

Resources

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Highly Effective Visible‐Light‐Induced H₂ Generation by Single‐Layer 1T‐MoS₂ and a Nanocomposite of Few‐Layer 2H‐MoS₂ with Heavily Nitrogenated Graphene