![Loading...](https://link.springer.com/static/c4a417b97a76cc2980e3c25e2271af3129e08bbe/images/pdf-preview/spacer.gif)
-
Article
Open AccessAuthor Correction: Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors
The original version of this Article contained an error in the Acknowledgements, which incorrectly omitted from the end the following: ‘The research leading to these results has received funding from the Europ...
-
Article
Open AccessSalt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors
A fundamental understanding of ion charge storage in nanoporous electrodes is essential to improve the performance of supercapacitors or devices for capacitive desalination. Here, we employ in situ X-ray trans...
-
Article
Quantification of ion confinement and desolvation in nanoporous carbon supercapacitors with modelling and in situ X-ray scattering
A detailed understanding of confinement and desolvation of ions in electrically charged carbon nanopores is the key to enable advanced electrochemical energy storage and water treatment technologies. Here, we ...