Construction of porous carbon for high-performance microwave absorbing: An efficient method to utilize direct liquefaction coal asphalt by-products

[1]  Chengbing Wang,et al.  Fe/Fe3O4/biomass carbon derived from agaric to achieve high-performance microwave absorption , 2022, Diamond and Related Materials.

[2]  Junzhi Wu,et al.  Environmentally friendly a multifunctional cellulose-based carbon foam for superior electromagnetic wave absorption performance , 2022, Composites Communications.

[3]  Xiaochuan Lu,et al.  Polyimide-derived porous carbon/Co particle-based composites for high-performance microwave absorption , 2022, RSC advances.

[4]  Chengbing Wang,et al.  Simultaneously enhancing mechanical and microwave absorption properties of Cf/SiC composites via SiC nanowires additions , 2022, Ceramics International.

[5]  A. Meng,et al.  Rice husk derived porous carbon embedded with Co3Fe7 nanoparticles towards microwave absorption , 2022, Composites Science and Technology.

[6]  Yue Deng,et al.  Nickel/porous carbon derived from rice husk with high microwave absorption performance , 2022, Journal of Alloys and Compounds.

[7]  I. Ismail,et al.  A review on electromagnetic microwave absorption properties: their materials and performance , 2022, Journal of Materials Research and Technology.

[8]  Lei Cai,et al.  Construction of 1d Biomass-Derived Tubular Carbon Fiber/Ni Nanoparticles Composite for Broadband and Lightweight Microwave Absorbers , 2022, SSRN Electronic Journal.

[9]  Bo Jiang,et al.  Lightweight 3d Interconnected Porous Carbon with Robust Cavity Skeleton Derived from Petroleum Pitch for Effective Multi-Band Electromagnetic Wave Absorption , 2022, SSRN Electronic Journal.

[10]  Jingwei Zhang,et al.  Reduced graphene oxide@carbon sphere based metacomposites for temperature-insensitive and efficient microwave absorption , 2022, Nano Research.

[11]  Haibo Yang,et al.  Two-dimensional CoNi@mesoporous carbon composite with heterogeneous structure toward broadband microwave absorber , 2022, Nano Research.

[12]  Shan Jiang,et al.  FeNi LDH/Loofah Sponge-Derived Magnetic FeNi Alloy Nanosheet Array/Porous Carbon Hybrids with Efficient Electromagnetic Wave Absorption , 2022, Industrial & Engineering Chemistry Research.

[13]  Xiaodong Tian,et al.  Insight into the molecular structure of coal liquefaction residue fractions for optimizing the electrochemical performance of PAN based carbon nanofiber nonwovens , 2022, Journal of Alloys and Compounds.

[14]  R. Cheng,et al.  Heterostructure Design of Carbon Fiber@Graphene@Layered Double Hydroxides  Synergistic Microstructure for Lightweight and Flexible Microwave Absorption , 2022, SSRN Electronic Journal.

[15]  Weibo Huang,et al.  A review of epoxy-based composite materials: Synthesis, structure and application for electromagnetic wave absorption , 2022, Journal of Alloys and Compounds.

[16]  C. Xiong,et al.  Efficient and thin microwave absorption materials fabricated by polyzwitterion wrapped carbon nanotube , 2022, Applied Surface Science.

[17]  Xiaoran Wang,et al.  Broadband microwave absorption enabled by a novel carbon nanotube gratings/Cement composite metastructure , 2022, Composites Part B: Engineering.

[18]  G. Wang,et al.  Lightweight, Stiff and Heat-Resistant Bamboo-Derived Carbon Scaffolds with Gradient Aligned Microchannels for Highly Efficient EMI Shielding , 2022, Chemical Engineering Journal.

[19]  Hai-Bo Zhao,et al.  Porous carbon/Fe composites from waste fabric for high-efficiency electromagnetic wave absorption , 2022, Journal of Materials Science & Technology.

[20]  Baoliang Zhang,et al.  Hollow nitrogen-doped carbon nanofibers filled with MnO2 nanoparticles/nanosheets as high-performance microwave absorbing materials , 2022, Carbon.

[21]  Yue Deng,et al.  Biomass‐Derived Crocodile Skin‐Like Porous Carbon for High‐Performance Microwave Absorption , 2022, Advanced Sustainable Systems.

[22]  Jiawen Sun,et al.  Rational design of hierarchical structure of carbon@polyaniline composite with enhanced microwave absorption properties , 2022, Carbon.

[23]  Bo Jiang,et al.  Crumpled Nitrogen-Doped Porous Carbon Nanosheets Derived from Petroleum Pitch for High-Performance and Flexible Electromagnetic Wave Absorption , 2022, Industrial & Engineering Chemistry Research.

[24]  Jie Cheng,et al.  Phase engineering reinforced multiple loss network in apple tree-like liquid metal/Ni-Ni3P/N-doped carbon fiber composites for high-performance microwave absorption , 2022, Chemical Engineering Journal.

[25]  Yubing Dong,et al.  Self-assembled lightweight three-dimensional hierarchically porous Ti3C2Tx MXene@polyaniline hybrids for superior microwave absorption , 2022, Journal of Alloys and Compounds.

[26]  Jiqiang Ma,et al.  Design and synthesis of magnetic porous carbon nanofibers with excellent microwave absorption , 2022, Journal of Alloys and Compounds.

[27]  Yuehua Wu,et al.  Research progress on nanostructure design and composition regulation of carbon spheres for the microwave absorption , 2022, Carbon.

[28]  Guoli Zhang,et al.  Rice husk derived hierarchical porous carbon with lightweight and efficient microwave absorption , 2022, Materials Chemistry and Physics.

[29]  M. Nogi,et al.  Chitin-derived-carbon nanofibrous aerogel with anisotropic porous channels and defective carbon structures for strong microwave absorption , 2022, Chemical Engineering Journal.

[30]  Xitian Zhang,et al.  Grafting thin N-doped carbon nanotubes on hollow N-doped carbon nanoplates encapsulated with ultrasmall cobalt particles for microwave absorption , 2022, Chemical Engineering Journal.

[31]  Yubing Dong,et al.  A deformable honeycomb sandwich composite felt with excellent microwave absorption performance at a low absorbent loading content , 2021, Composite Structures.

[32]  Zirui Jia,et al.  Controlling the heterogeneous interfaces of Fe3O4/N-doped porous carbon via facile swelling for enhancing the electromagnetic wave absorption , 2021, Composites Communications.

[33]  Haibo Yang,et al.  MOFs derived flower-like nickel and carbon composites with controllable structure toward efficient microwave absorption , 2021, Composites Part A: Applied Science and Manufacturing.

[34]  Xiuzhi Tang,et al.  Three-Dimensional Carbon Foam Modified with Starlike-ZnO@Reduced Graphene Oxide for Microwave Absorption with Low Filler Content , 2021, Journal of Alloys and Compounds.

[35]  P. Dai,et al.  Fe3O4 nanoparticles anchored on hierarchical porous carbon derived from egg white for efficient microwave absorption performance , 2021 .

[36]  Yuhan Wu,et al.  A Hierarchically Three-Dimensional Coni/N-Doped Porous Carbon Nanosheets with High Performance of Electromagnetic Wave Absorption , 2021, SSRN Electronic Journal.

[37]  Zirui Jia,et al.  MOF-derived NiFe2S4/Porous carbon composites as electromagnetic wave absorber. , 2021, Journal of colloid and interface science.

[38]  M. Cao,et al.  Implantation of WSe2 nanosheets into multi-walled carbon nanotubes for enhanced microwave absorption. , 2021, Journal of colloid and interface science.

[39]  Zihao Li,et al.  Synthesis of carbon/SiO2 core-sheath nanofibers with Co-Fe nanoparticles embedded in via electrospinning for high-performance microwave absorption , 2021, Advanced Composites and Hybrid Materials.

[40]  Z. Yao,et al.  Regulating pyrolysis strategy to construct CNTs-linked porous cubic Prussian blue analogue derivatives for lightweight and broadband microwave absorption , 2021, Chemical Engineering Journal.

[41]  Z. Yao,et al.  Heterogeneous ZnO@CF Structures and Their Excellent Microwave Absorbing Properties with Thin Thickness and Low Filling , 2021, Journal of Materials Science & Technology.

[42]  Yibin Li,et al.  Environmentally Friendly Bark-Derived Co-Doped Porous Carbon Composites for Microwave Absorption , 2021, SSRN Electronic Journal.

[43]  Qiuyu Zhang,et al.  Fabrication of folded MXene/MoS2 composite microspheres with optimal composition and their microwave absorbing properties. , 2021, Journal of colloid and interface science.

[44]  C. Hong,et al.  Hollow carbon microspheres modified with NiCo2S4 nanosheets as a high-performance microwave absorber , 2021, Advanced Composites and Hybrid Materials.

[45]  Juan Ding,et al.  Core-shell Fe3O4@SiO2@PANI composite: Preparation, characterization, and applications in microwave absorption , 2021 .

[46]  D. Gunwant,et al.  Microwave absorbing properties of carbon fiber based materials: A review and prospective , 2021 .

[47]  Jiqi Wang,et al.  Efficient synthesis of N-doped porous carbon nanoribbon composites with selective microwave absorption performance in common wavebands , 2021 .

[48]  Shenmin Zhang,et al.  Hierarchical porous carbon derived from green cyclodextrin metal‐organic framework and its application in microwave absorption , 2021 .

[49]  Ying Huang,et al.  MOFs derived magnetic porous carbon microspheres constructed by core-shell Ni@C with high-performance microwave absorption , 2021 .

[50]  Hongjing Wu,et al.  Electromagnetic wave-absorbing performance of carbons, carbides, oxides, ferrites and sulfides: review and perspective , 2021 .

[51]  Lu Linlin,et al.  Facile preparation and excellent microwave absorption properties of cobalt-iron/porous carbon composite materials , 2021 .

[52]  Xianglong Wang,et al.  Self‐template porous carbon by direct activation of high‐ash coal liquefaction residue for high‐rate supercapacitor electrodes , 2020, International Journal of Energy Research.

[53]  Zhichuan J. Xu,et al.  Green synthesis of hierarchically porous carbons with tunable dielectric response for microwave absorption , 2020 .

[54]  Na Liu,et al.  Enhanced microwave absorption performance of sulfur-doped hollow carbon microspheres with mesoporous shell as a broadband absorber , 2020, Composites Communications.

[55]  Yan Song,et al.  Electrospun Coal Liquefaction Residues/Polyacrylonitrile Composite Carbon Nanofiber Nonwoven Fabrics as High-Performance Electrodes for Lithium/Potassium Batteries , 2020 .

[56]  Tianshu Zhang,et al.  Hollow Fe3O4 microspheres/graphene composites with adjustable electromagnetic absorption properties , 2019, Diamond and Related Materials.

[57]  K. Kar,et al.  Hierarchical Carbon Nanotube-Coated Carbon Fiber: Ultra Lightweight, Thin, and Highly Efficient Microwave Absorber. , 2018, ACS applied materials & interfaces.

[58]  Xu Yang,et al.  Performance Analysis of Direct Coal Liquefaction Residue (DCLR) and Trinidad Lake Asphalt (TLA) for the Purpose of Modifying Traditional Asphalt , 2016 .

[59]  Duoduo Gao,et al.  Synthesis and microwave absorption properties of PPy/Co nanocomposites , 2014 .

[60]  Renxin Xu,et al.  CoFe2O4/porous carbon nanosheet composites for broadband microwave absorption , 2022 .