Exploiting the Condensation Reactions of Acetophenone to Engineer Carbon‐Encapsulated Nb2O5 Nanocrystals for High‐Performance Li and Na Energy Storage Systems |
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Authors: | Xianying Han Patrícia A Russo Nicolas Goubard‐Bretesch Salvatore Patan Saveria Santangelo Rui Zhang Nicola Pinna |
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Institution: | Xianying Han,Patrícia A. Russo,Nicolas Goubard‐Bretesché,Salvatore Patanè,Saveria Santangelo,Rui Zhang,Nicola Pinna |
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Abstract: | Efficient synthetic methods to produce high‐performance electrode‐active materials are crucial for developing energy storage devices for large‐scale applications, such as hybrid supercapacitors (HSCs). Here, an effective approach to obtain controllable carbon‐encapsulated T‐Nb2O5 nanocrystals (NCs) is presented, based on the solvothermal treatment of NbCl5 in acetophenone. Two separate condensation reactions of acetophenone generate an intimate and homogeneous mixture of Nb2O5 particles and 1,3,5‐triphenylbenzene (TPB), which acts as a unique carbon precursor. The electrochemical performance of the resulting composites as anode electrode materials can be tuned by varying the Nb2O5/TPB ratio. Remarkable performances are achieved for Li‐ion and Na‐ion energy storage systems at high charge–discharge rates (specific capacities of ≈90 mAh g?1 at 100 C rate for lithium and ≈125 mAh g?1 at 20 C for sodium). High energy and power densities are also achieved with Li‐ and Na‐ion HSC devices constructed by using the Nb2O5/C composites as anode and activated carbon (YPF‐50) as cathode, demonstrating the excellent electrochemical properties of the materials synthesized with this approach. |
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Keywords: | acetophenone hybrid supercapacitors Li‐ion storage Na‐ion storage niobium oxide |
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