Veronica Augustyn, Yury Gogotsi  Joule 

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2D Materials with Nanoconfined Fluids for Electrochemical Energy Storage  Veronica Augustyn, Yury Gogotsi  Joule  Volume 1, Issue 3, Pages 443-452 (November 2017) DOI: 10.1016/j.joule.2017.09.008 Copyright © 2017 Elsevier Inc. Terms and Conditions

Joule 2017 1, 443-452DOI: (10.1016/j.joule.2017.09.008) Copyright © 2017 Elsevier Inc. Terms and Conditions

Figure 1 Benefits and Drawbacks of Three Types of Material Structures Benefits and drawbacks of three types of material structures: bulk layered material, a 2D material with a confined fluid, and exfoliated (or nanosheet) 2D material. 2D materials with nanoconfined fluids represent an intermediate material structure for high power and high energy density storage that may exhibit the benefits of bulk layered and exfoliated 2D materials. Joule 2017 1, 443-452DOI: (10.1016/j.joule.2017.09.008) Copyright © 2017 Elsevier Inc. Terms and Conditions

Figure 2 The Structure and Properties of 2D Materials with Nanoconfined Fluids (A and B) The structure and properties of 2D materials with nanoconfined fluids. (A) Low-temperature HRTEM of a platelet of WO3·2H2O; two types of structural water molecules reside in the 6.9-Å interlayer region. (B) Cyclic voltammograms of WO3·2H2O at charge/discharge times of 10 min (1 mV s−1) and 12 s (50 mV s−1) show its capacitive behavior. Reprinted from Mitchell et al., 25 with permission. Copyright 2017, American Chemical Society. (C–F) Structure of Ti3C2-based MXene intercalated with hydrazine (C), X-ray diffraction patterns of the Ti3C2Tx MXene before and after hydrazine intercalation showing increased interlayer spacing (D), and cross-sectional scanning EM images before (E) and after (F) hydrazine intercalation. Reproduced from Mashtalir et al., 26 with permission from The Royal Society of Chemistry. Joule 2017 1, 443-452DOI: (10.1016/j.joule.2017.09.008) Copyright © 2017 Elsevier Inc. Terms and Conditions

Figure 3 Recent Developments in the Use of Hydrated Layered Oxides for Multivalent Cation Energy Storage (A and B) Recent developments in the use of hydrated layered oxides for multivalent cation energy storage. (A) Structure of MgxV2O5·H2O xerogels showing bonding between the intercalated Mg2+, terminal oxygen of the V2O5, and oxygen of the interlayer water. (B) Structure of the hydrated V2O5 xerogel showing hydrogen bonding within the water layer. Reprinted from Sai Gautam et al., 29 with permission. Copyright 2016, American Chemical Society. (C) Structure and Zn2+ energy storage mechanism of Zn0.25V2O5·nH2O nanobelts in an aqueous electrolyte. Reprinted from Kundu et al.32 with permission from Macmillan Publishers Ltd. Joule 2017 1, 443-452DOI: (10.1016/j.joule.2017.09.008) Copyright © 2017 Elsevier Inc. Terms and Conditions

Figure 4 Potential Benefits of 2D Materials with Nanoconfined Fluids for EES (A and B) Potential benefits of 2D materials with nanoconfined fluids for EES on (A) interfacial charge transfer and (B) ion diffusion. Joule 2017 1, 443-452DOI: (10.1016/j.joule.2017.09.008) Copyright © 2017 Elsevier Inc. Terms and Conditions