Fe3O4/中间相煤沥青基活性复合炭泡沫制备及其电磁屏蔽和吸波性能调控OA
Preparation and tailoring electromagnetic shielding and microwave absorbing performance of Fe3O4 modified activated carbon foam based on mesophase coal pitch pyrolysis foaming
目前,开发兼具微波吸收(MWA)和电磁干扰(EMI)屏蔽性能的材料受到了广泛关注.本研究以中间相煤沥青原料,采用高压热解法制得具有三维互连胞状孔结构的中间相沥青基炭泡沫(MPCF).结果表明,MPCF的三维互连胞状孔有效地促进了电磁波的多次反射.在厚度为2.7 mm时,MPCF的最小反射损耗(RLmin)和有效吸收带宽(EAB)分别达到-37.84 dB和5.44 GHz.在X波段下,MPCF的平均总电磁屏蔽效能(SET)为26.52 dB.利用KOH活化MPCF制得中间相沥青基活性炭泡沫(A-MPCF).结果表明,在X波段下,A-MPCF的平均SET达到103 dB.这归因于经过KOH活化后,A-MPCF的胞状孔孔壁表面嵌布着丰富的纳米孔,致使电磁波在孔胞壁表面的多次反射由多次近镜面转变为漫反射.A-MPCF的反射系数(R)从0.78增加到0.90.为了降低A-MPCF的R值,进一步采用水热合成法在A-MPCF的孔胞壁表面原位生长Fe3O4纳米粒子制得Fe3O4/中间相沥青基活性炭泡沫(Fe3O4/A-MPCF).结果表明,引入Fe3O4纳米粒子后,Fe3O4/A-MPCF的MWA性能略有下降,但其R值从0.90显著降低至0.74.该研究为综合调控吸波性能和电磁屏蔽性能提供一条研究思路.
The development of materials with excellent microwave absorption(MWA)and electromagnetic interference(EMI)shielding performances has currently received attention.Herein,mesophase pitch-based carbon foam(MPCF)with 3D interconnected pore structure was prepared through the high pressure pyrolysis of mesophase coal tar pitch.It is found that the 3D interconnected cellular pores of MPCF facilitate multiple reflections of electromagnetic waves,which results in the minimum reflection loss(RLmin)value of MPCF reaches-37.84 dB with the effective absorption bandwidth(EAB)of 5.44 GHz at a thickness of 2.70 mm,and the total average electromagnetic shielding effectiveness(SET)under 3.00 mm thickness achieves 26.52 dB in X-band.Subsequently,MPCF is activated by KOH to obtain activated carbon foam(A-MPCF).The average SET of A-MPCF achieves 103.00 dB for abundant nanopores on the pore cell walls,which leads to a transition from the multiple reflections of electromagnetic waves on the walls to diffuse reflection.Unfortunately,the reflection coefficient(R)of A-MPCF increases from 0.78 to 0.90.To reduce the R value,Fe3O4/A-MPCF was fabricated via the in situ growth of nano Fe3O4 on A-MPCF.Consequently,the R value of Fe3O4/A-MPCF was reduced from 0.90 to 0.74,whereas the MWA performance was only slightly decreased.This work proposes a simple strategy for simultaneously adjusting MWA and EMI shielding performances of materials.
葛媛媛;王禹哲;徐国忠;朱亚明;袁霞;史桂梅;钟祥云
辽宁省煤化工工程研究中心,辽宁省煤化工专业技术创新中心,辽宁科技大学化学工程学院,鞍山 114051,中国辽宁省煤化工工程研究中心,辽宁省煤化工专业技术创新中心,辽宁科技大学化学工程学院,鞍山 114051,中国辽宁省煤化工工程研究中心,辽宁省煤化工专业技术创新中心,辽宁科技大学化学工程学院,鞍山 114051,中国辽宁省煤化工工程研究中心,辽宁省煤化工专业技术创新中心,辽宁科技大学化学工程学院,鞍山 114051,中国沈阳理工大学材料科学与工程学院,沈阳 110159,中国沈阳工业大学理学院,沈阳 111003,中国辽宁省煤化工工程研究中心,辽宁省煤化工专业技术创新中心,辽宁科技大学化学工程学院,鞍山 114051,中国
化学化工
炭泡沫微波吸收电磁干扰屏蔽中间相沥青
carbon foammicrowave absorptionelectromagnetic interference shieldingmesophase pitch
《燃料化学学报(中英文)》 2026 (1)
133-147,117-120,19
Supported by the National Natural Science Foundation of China(22378181).
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