C. Amatore, Molecular electrochemistry of inorganic, bioinorganic and organometallic compounds, NATO ASI Series (Serie C: Mathematical and Physical Sciences), vol.385, 1993.

A. Walcarius, Chem Soc Rev, vol.42, pp.4098-4140, 2013.

I. Moldoveanu, R. I. Van-stefan-staden, and J. F. Van-staden, Handbook of Nanoelectrochemistry, 2015.

A. Manthiram, A. Vadivel-murugan, A. Sarkar, and . Muraliganth, Energy Environ Sci, vol.1, pp.621-638, 2008.

H. Sun, J. Zhu, D. Baumann, L. Peng, Y. Xu et al., Nat Rev Mater, vol.4, pp.45-60, 2019.

B. Garlyyev, J. Fichtner, O. Pique, O. Schneider, A. S. Bandarenka et al., Chem Sci, vol.10, pp.8060-8075, 2019.

H. Jin, C. Guo, X. Liu, J. Liu, A. Vasileff et al., Chem Rev, vol.118, pp.6337-6408, 2018.

A. Walcarius, Sensors, vol.17, 2017.

W. Xu, Z. Wu, and S. Tao, J Mater Chem A, vol.4, pp.16272-16287, 2016.

J. Wang, Chem Rev, vol.108, pp.814-825, 2008.

A. Heller and B. Feldman, Chem Rev, vol.108, pp.2482-2505, 2008.

A. Turner, Chem Soc Rev, vol.42, pp.3184-3196, 2013.

J. Kim, R. Kumar, A. J. Bandodkar, and J. Wang, Adv Electron Mater, vol.3, p.1600260, 2017.

L. J. Hubble and J. Wang, Electroanalysis, vol.31, pp.428-436, 2019.

P. C. Ferreira, V. Ataide, S. Chagas, C. L. Angnes, L. et al., Trends Anal Chem, vol.119, p.115622, 2019.

E. Sehit and Z. Altintas, Biosensors Bioelectron, vol.159, p.112165, 2020.

M. Li, T. Chen, J. J. Gooding, and J. Liu, ACS Sensors, vol.4, pp.1732-1748, 2019.

G. Alarcon-angeles, M. Palomar-pardave, and A. Merkoci, Electroanalysis, vol.30, pp.1271-1280, 2018.

C. Zhu, D. Du, A. Eychmuller, and Y. Lin, Chem Rev, vol.115, pp.8896-8943, 2015.

S. Yao, P. Ren, R. Song, Y. Liu, Q. Huang et al., Adv Mater, vol.32, p.1902343, 2020.

A. Chen and S. Chatterjee, Chem Soc Rev, vol.42, pp.5425-5438, 2013.

X. Gan and H. Zhao, Curr Opin Electrochem, vol.17, pp.56-64, 2019.

P. Simon and J. M. Tarascon, Garcia-Martinez J (ed) Nanotechnology for the Energy Challenge, Second Edition, vol.10, pp.277-298, 2013.

Y. Gogotsi, ACS Nano, vol.8, pp.5369-5371, 2014.

P. Trogadas, V. Ramani, P. Strasser, T. F. Fuller, and M. O. Coppens, Angew Chem Int Ed, vol.55, pp.122-148, 2016.

F. Zhao, J. Bae, X. Zhou, Y. Guo, and G. Yu, Adv Mater, vol.30, p.1801796, 2018.

Q. Yun, Q. Lu, X. Zhang, C. Tan, and H. Zhang, Angew Chem Int Ed, vol.57, pp.626-646, 2018.

E. Pomerantseva, F. Bonaccorso, X. Feng, Y. Cui, and Y. Gogotsi, Science, vol.366, p.8285, 2019.

G. Zhou, L. Xu, G. Hu, L. Mai, and Y. Cui, Chem Rev, vol.119, pp.11042-11109, 2019.

T. S. Mathis, N. Kurra, X. Wang, D. Pinto, P. Simon et al., Adv Energy Mater, vol.9, p.1902007, 2019.

P. Simon and Y. Gogotsi, Acc Chem Res, vol.46, pp.1094-1103, 2013.

J. Yan, S. Li, B. Lan, Y. Wu, and P. S. Lee, , vol.30, p.1902564, 2020.

S. Bhoyate, P. K. Kahol, and R. K. Gupta, Nanoscience, vol.5, pp.1-29, 2019.

L. Huang, D. Santiago, P. Loyselle, and L. Dai, Small, vol.14, p.1800879, 2018.

P. Simon and Y. Gogotsi, Nat Mater, vol.7, pp.845-854, 2008.

J. Wang, S. Dong, B. Ding, Y. Wang, X. Hao et al., Natl Sci Rev, vol.4, pp.71-90, 2017.

P. Simon, Y. Gogotsi, and D. Bruce, Science, vol.343, pp.1210-1211, 2014.

T. Brousse, D. Bélanger, and J. W. Long, J Electrochem Soc, vol.162, pp.5185-5189, 2015.

M. M. Sk, C. Y. Yue, K. Ghosh, and J. Rk, J Power Sources, vol.308, pp.121-140, 2016.

M. Yu and X. Feng, Joule, vol.3, pp.338-360, 2019.