**Chapter 5**

*Microwave Heating - Electromagnetic Fields Causing Thermal and Non-Thermal Effects*

dots," *Journal of Materials Chemistry C,* vol. 7, pp. 5468-5476, May 14 2019.

[66] T. H. Chiang and J. F. Wager, "Electronic Conduction Mechanisms in Insulators," *Ieee Transactions on Electron Devices,* vol. 65, pp. 223-230, Jan 2018.

Microwave Route," *Crystal Growth & Design,* vol. 20, pp. 2153-2163, Apr 1

[59] W. F. Chen, L. F. Yan, and P. R. Bangal, "Preparation of graphene by the rapid and mild thermal reduction

microwaves," *Carbon,* vol. 48, pp. 1146-

of graphene oxide induced by

[60] P. Tang, G. Hu, Y. J. Gao, W. J. Li, S. Y. Yao, Z. Y. Liu*, et al.*, "The microwave adsorption behavior and microwave-assisted heteroatoms doping of graphene-based nano-carbon materials," *Scientific Reports,* vol. 4, Aug

[61] K. Chen, C. L. Wang, D. Ma, W. X. Huang, and X. H. Bao, "Graphitic carbon nanostructures via a facile microwave-induced solid-state process," *Chemical Communications,* pp. 2765-

[62] C. L. Wang, D. Ma, and X. H. Bao, "Transformation of Biomass into Porous Graphitic Carbon Nanostructures by Microwave Irradiation," *Journal of Physical Chemistry C,* vol. 112, pp. 17596-

[63] K. H. Lee, J. Oh, J. G. Son, H. Kim, and S. S. Lee, "Nitrogen-Doped Graphene Nanosheets from Bulk Graphite using Microwave Irradiation," *Acs Applied Materials & Interfaces,* vol.

6, pp. 6361-6368, May 14 2014.

[64] J. A. Gerbec, D. Magana, A. Washington, and G. F. Strouse,

15791-15800, Nov 16 2005.

[65] S. Y. Gu, C. T. Hsieh, Y. A. Gandomi, J. K. Chang, J. Li, J. L. Li*, et al.*, "Microwave growth and tunable photoluminescence of nitrogen-doped graphene and carbon nitride quantum

"Microwave-enhanced reaction rates for nanoparticle synthesis," *Journal of the American Chemical Society,* vol. 127, pp.

1152, Apr 2010.

11 2014.

2767, 2008.

17602, Nov 13 2008.

2020.

**98**
