Volker Presser scite author profile

Herein we report on the synthesis of two-dimensional transition metal carbides and carbonitrides by immersing select MAX phase powders in hydrofluoric acid, HF. The MAX phases represent a large (>60 members) family of ternary, layered, machinable transition metal carbides, nitrides, and carbonitrides. Herein we present evidence for the exfoliation of the following MAX phases: Ti(2)AlC, Ta(4)AlC(3), (Ti(0.5),Nb(0.5))(2)AlC, (V(0.5),Cr(0.5))(3)AlC(2), and Ti(3)AlCN by the simple immersion of their powders, at room temperature, in HF of varying concentrations for times varying between 10 and 72 h followed by sonication. The removal of the "A" group layer from the MAX phases results in 2-D layers that we are labeling MXenes to denote the loss of the A element and emphasize their structural similarities with graphene. The sheet resistances of the MXenes were found to be comparable to multilayer graphene. Contact angle measurements with water on pressed MXene surfaces showed hydrophilic behavior.

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Carbons and Electrolytes for Advanced Supercapacitors

Béguin

Presser

Balducci³

et al. 2014

Advanced Materials

2,319

1,380

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Electrical energy storage (EES) is one of the most critical areas of technological research around the world. Storing and efficiently using electricity generated by intermittent sources and the transition of our transportation fleet to electric drive depend fundamentally on the development of EES systems with high energy and power densities. Supercapacitors are promising devices for highly efficient energy storage and power management, yet they still suffer from moderate energy densities compared to batteries. To establish a detailed understanding of the science and technology of carbon/carbon supercapacitors, this review discusses the basic principles of the electrical double-layer (EDL), especially regarding the correlation between ion size/ion solvation and the pore size of porous carbon electrodes. We summarize the key aspects of various carbon materials synthesized for use in supercapacitors. With the objective of improving the energy density, the last two sections are dedicated to strategies to increase the capacitance by either introducing pseudocapacitive materials or by using novel electrolytes that allow to increasing the cell voltage. In particular, advances in ionic liquids, but also in the field of organic electrolytes, are discussed and electrode mass balancing is expanded because of its importance to create higher performance asymmetric electrochemical capacitors.

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Review on the science and technology of water desalination by capacitive deionization

Porada

Zhao

Wal

et al. 2013

Progress in Materials Science

1,834

1,276

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Volker Presser

Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti₃AlC₂

Two-Dimensional Transition Metal Carbides

Carbons and Electrolytes for Advanced Supercapacitors

Review on the science and technology of water desalination by capacitive deionization

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Volker Presser

Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti3AlC2

Two-Dimensional Transition Metal Carbides

Carbons and Electrolytes for Advanced Supercapacitors

Review on the science and technology of water desalination by capacitive deionization

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Product

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Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti₃AlC₂