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Ultralight pyrolytic carbon foam reinforced with amorphous carbon nanotubes for broadband electromagnetic absorption
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作者 luo Kong sihan luo +2 位作者 Shuyu Zhang Guiqin Zhang Yi Liang 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2023年第3期570-580,共11页
For electromagnetic wave-absorbing materials,maximizing absorption at a specific frequency has been constantly achieved,but enhancing the absorption properties in the entire band remains a challenge.In this work,a 3D ... For electromagnetic wave-absorbing materials,maximizing absorption at a specific frequency has been constantly achieved,but enhancing the absorption properties in the entire band remains a challenge.In this work,a 3D porous pyrolytic carbon(PyC)foam matrix was synthesized by a template method.Amorphous carbon nanotubes(CNTs)were then in-situ grown on the matrix surface to obtain ultralight CNTs/Py C foam.These in-situ grown amorphous CNTs were distributed uniformly and controlled by the catalytic growth time and can enhance the interface polarization and conduction loss of composites.When the electromagnetic wave enters the internal holes,the electromagnetic energy can be completely attenuated under the combined action of polarization,conductivity loss,and multiple reflections.The ultralight CNTs/Py C foam had a density of 22.0 mg·cm^(-3)and a reflection coefficient lower than-13.3 d B in the whole X-band(8.2-12.4 GHz),which is better than the conventional standard of effective absorption bandwidth(≤-10 dB).The results provide ideas for researching ultralight and strong electromagnetic wave absorbing materials in the X-band. 展开更多
关键词 ultralight carbon foam amorphous carbon nanotubes broadband electromagnetic absorption
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自愈合导电复合水凝胶用于监测人体运动和3D细胞培养 被引量:1
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作者 陈莹 况培培 +5 位作者 王宇舒 罗思涵 石静怡 吕晓薇 刘玉鹏 范曲立 《Science China Materials》 SCIE EI CAS CSCD 2023年第12期4853-4864,共12页
导电水凝胶已在多个领域崭露头角,因为它具备将外界压力和形变转化为电信号的能力,可实现对物理和化学刺激的灵敏感知.然而,在导电水凝胶的研发中,需要克服平衡导电性和机械强度的挑战.本项工作中,为了提高导电水凝胶的力学性能,我们采... 导电水凝胶已在多个领域崭露头角,因为它具备将外界压力和形变转化为电信号的能力,可实现对物理和化学刺激的灵敏感知.然而,在导电水凝胶的研发中,需要克服平衡导电性和机械强度的挑战.本项工作中,为了提高导电水凝胶的力学性能,我们采用了多重策略.首先,引入了木质素-丹宁酸(lignin-TA)颗粒作为物理交联剂,同时充分利用羟丙基纤维素分子的多羟基结构,促进水凝胶半互穿聚合物网络的形成.随后,通过利用Fe^(3+)离子和TA分子之间的静电力和金属配位相互作用,进一步增强了聚合物网络之间的键合强度,提高了水凝胶的导电性.最终,所制备的导电水凝胶以其独特的网络结构,成功融合了物理和化学键的特性,并展现出卓越的自粘附、自愈合能力、电机械性能和生物相容性.这使其成为一个可用于监测人体活动和细胞增殖的理想材料. 展开更多
关键词 3D cell culture monitoring conductive hydrogel selfhealing nanocomposite hydrogel
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