Capacitance-Power-Hysteresis Trilemma in Nanoporous Supercapacitors

Article, Preprint English OPEN

Lee, Alpha A; Vella, Dominic; Goriely, Alain; Kondrat, Svyatoslav;

(2016)

Publisher: American Physical Society

Journal: Physical Review X (issn: 2160-3308)

Publisher copyright policies & self-archiving

Related identifiers: doi: 10.1103/PhysRevX.6.021034
Subject: Physics - Chemical Physics | Physics | Condensed Matter - Statistical Mechanics | Condensed Matter - Materials Science | QC1-999 | Condensed Matter - Soft Condensed Matter

Nanoporous supercapacitors are an important player in the field of energy storage that fill the gap between dielectric capacitors and batteries. The key challenge in the development of supercapacitors is the perceived trade-off between capacitance and power delivery. Cu... View more

References (71)
71 references, page 1 of 8
1
2
3
4
5
[3] P. Simon and Y. Gogotsi, “Materials for electrochemical capacitors,” Nature Mater. 7, 845-854 (2008).
[4] E. Frackowiak, “Carbon materials for supercapacitor application,” Phys. Chem. Chem. Phys. 9, 1774 (2007).
[5] Yury Gogotsi, Alexei Nikitin, Haihui Ye, Wei Zhou, John E. Fischer, Bo Yi, Henry C. Foley, and Michel W. Barsoum, “Nanoporous carbide-derived carbon with tunable pore size,” Nat. Mater. 2, 591 (2003).
[6] J. J. Yoo, K. Balakrishnan, J. S. Huang, V. Meunier, B. G. Sumpter, A. Srivastava, M. Conway, A. L. M. Reddy, J. Yu, R. Vajtai, and P. M. Ajayan, “Ultrathin planar graphene supercapacitors,” Nano Lett. 11, 1423-1427 (2011).
[7] Xiaowei Yang, Chi Cheng, Yufei Wang, Ling Qiu, and Dan Li, “Liquid-mediated dense integration of graphene materials for compact capacitive energy storage,” Science 341, 534- 537 (2013).
[8] Francis W. Richey, Chau Tran, Vibha Kalra, Elabd, and Yossef A., “Ionic liquid dynamics in nanoporous carbon nanofibers in supercapacitors measured with in operando infrared spectroelectrochemistry,” J. Phys. Chem. C 118, 21846 (2014).
[9] B. E. Conway, Electrochemical supercapacitors: scientific fundamentals and technological applications (Springer, 1999).
[10] E. Raymundo-Pin˜ero, K. Kierczek, J. Machnikowski, and F. B´eguin, “Relationship between the nanoporous texture of activated carbons and their capacitance properties in different electrolytes,” Carbon 44, 2498-2507 (2006).
[11] J. Chmiola, G. Yushin, Y. Gogotsi, C. Portet, P. Simon, and P. L. Taberna, “Anomalous increase in carbon capacitance at pore sizes less than 1 nanometer,” Science 313, 1760-1763 (2006).
[12] C. Largeot, C. Portet, J. Chmiola, P. L. Taberna, Y. Gogotsi, and P. Simon, “Relation between the ion size and pore size for an electric double-layer capacitor,” J. Am. Chem. Soc. 130, 2730-2731 (2008).

Related Research Results (2)

Inferred by OpenAIRE

dataset In Situ NMR Spectroscopy of Supercapacitors: Insight into the Charge Storage Mechanism (2015)	74%
dataset Supercapacitor Capacitance Exhibits Oscillatory Behavior as a Function of Nanopore Size (2015)	57%

Related Organizations (12)

12 organizations, page 1 of 2

Imperial College London, Department of Chemistry United Kingdom Website url: http://www.imperial.ac.uk/chemistry/	90%
School of Engineering & Applied Sciences Department of Physics Harvard University	77%
School of Engineering and Applied Sciences Harvard University United States	90%
Harvard University - Center for Systems Biology ( CSB ) United States Website url: https://csb.mgh.harvard.edu/	90%
University of Oxford ( University of Oxford ) United Kingdom Website url: http://www.ox.ac.uk/	90%
Imperial College London	90%
University Of Oxford	90%
Harvard University	90%
HARVARD UNIVERSITY (SCH OF PUBLIC HLTH)	90%
UNIVERSITY OF OXFORD	90%

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