Improved Microwave Absorption Performance with Sustainable Porous Carbon/Carbon Nanotube Composites

Medeiros, Leonardo Iusuti de; Medeiros, Nila Cecília de Faria Lopes; Lenz e Silva, Guilherme Frederico Bernardo; Lima, Rodrigo Gabas Amaro de; Amaral-Labat, Gisele; Boss, Alan Fernando Ney; Baldan, Maurício Ribeiro

doi:10.1590/1980-5373-MR-2022-0169

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Articles • Mat. Res. 25 (Suppl 2) • 2022 • https://doi.org/10.1590/1980-5373-MR-2022-0169 copy

Improved Microwave Absorption Performance with Sustainable Porous Carbon/Carbon Nanotube Composites

Authorship SCIMAGO INSTITUTIONS RANKINGS

The great technological advancement in wireless communication systems and devices generated the problem of electromagnetic pollution. Developing lightweight, sustainable, and low-cost materials is necessary to minimize electromagnetic pollution. A sustainable porous carbon (PC) absorber material was obtained from the crude black liquor by a simple and low-cost synthesis, and combined with carbon nanotube (CNT), presenting excellent microwave attenuation results. The PC absorber at 20 wt.% filling ratio exhibited an intense reflection loss of ‑35.7 dB at 15.5 GHz, and bandwidth of 1.15 GHz for a thickness of 5.90 mm. By adding 0.2 wt.% of CNT, the reflection loss was -34.6 dB at 17.9 GHz, and a bandwidth of 1.54 GHz for 4.90 mm. The study reveals that the combination of PC and CNT improves the attenuation capacity, allows adjustment in the frequency range of the attenuation peak, and promotes thickness reduction. The results obtained allow us to advance studies in developing high-performance, sustainable, and low-cost microwave-absorbing materials.

Keywords:
Electromagnetic Interference; Porous Carbon; Carbon Nanotubes; Absorber; Permittivity

Sample	S_BET (m² g^-1)	V_0.99 (cm³ g^-1)
CNT	90	0.22
PC	11	-

Sample	r_b (g.ml^-1)	r_s (g.ml^-1)	φ(%)	V_Hg (ml.g^-1)	A_total (m².g^-1)	∅ (mm)
PC	0.66	2.70	76	1.14	82	99

Sample	Materials	Thickness (mm)	RL (dB)	Frequency (GHz)	Reference
20PC	Porous carbon	5.95	-35.7	15.5	This work
20PC+0.2CNT	Porous carbon/MWCNT	4.90	-34.6	17.9	This work
C3-15 wt.%	Porous carbon	2.00	-19.0	11.8	Flórez Vergara et al.²2 Flórez Vergara DE, Kondo Lopes BH, Quirino SF, Silva GFBL, Boss AFN, Amaral-Labat GA, et al. Frequency selective surface properties of microwave new absorbing porous carbon materials embedded in epoxy resin. Mater Res. 2019;22:1-8.
RHPC/Co	Porous carbon/Co	1.80	-40.1	10.7	Fang et al.⁷⁵75 Fang J, Shang Y, Chen Z, Wei W, Hu Y, Yue X, et al. Rice husk-based hierarchically porous carbon and magnetic particles composites for highly efficient electromagnetic wave attenuation. J Mater Chem C Mater Opt Electron Devices. 2017;5(19):4695-705.
RHPC/Fe	Porous carbon/Fe	1.40	-21.8	14.4	Fang et al.⁷⁵75 Fang J, Shang Y, Chen Z, Wei W, Hu Y, Yue X, et al. Rice husk-based hierarchically porous carbon and magnetic particles composites for highly efficient electromagnetic wave attenuation. J Mater Chem C Mater Opt Electron Devices. 2017;5(19):4695-705.
900CA	Porous carbon	1.9	-37.55	14.73	Wang et al.⁷⁶76 Wang K, Ye Z, Li X, Yang J. Nanoporous resorcinol-formaldehyde based carbon aerogel for lightweight and tunable microwave absorption. Mater Chem Phys. 2022;278:125718.

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