Strengthened microwave absorption properties of polymer-derived carbon-rich SiCN (Ni3Si) ceramic fibers pyrolyzed at low temperature

[1]  Xigui Yue,et al.  Facile Preparation of Light–Weight Polyetheretherketone/Graphite/FeCo Ternary Heterogeneous Composite Foam with High Compressive Strength and Excellent Integrated Electromagnetic Wave Absorption Performance , 2022, Macromolecular Materials and Engineering.

[2]  Guantong Wang,et al.  Enhanced microwave absorbing performance of Ni-containing SiCN ceramics by constructing multiple interfaces and in-situ generating MWCNTs , 2022, Ceramics International.

[3]  Rui Zhang,et al.  Multifunctional SiC@SiO2 Nanofiber Aerogel with Ultrabroadband Electromagnetic Wave Absorption , 2022, Nano-Micro Letters.

[4]  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.

[5]  H. Gong,et al.  Improved electromagnetic wave absorbing performance of PDCs-SiCN(Ni) fibers with different nickel content , 2022, Ceramics International.

[6]  Xigui Yue,et al.  Introducing MWCNTs conductive network in polymer-derived SiCN ceramics for broadband electromagnetic wave absorption , 2022, Ceramics International.

[7]  Lai-fei Cheng,et al.  Ti3C2T x /MoS2 Self‐Rolling Rod‐Based Foam Boosts Interfacial Polarization for Electromagnetic Wave Absorption , 2022, Advanced science.

[8]  H. Gong,et al.  Enhanced electromagnetic wave absorption properties of PDCs-SiCN(Ni) fibers by in-situ formed CNTs and Ni2Si , 2022, Ceramics International.

[9]  Tie-hu Li,et al.  Controllable graphitization degree of carbon foam bulk toward electromagnetic wave attenuation loss behavior. , 2022, Journal of colloid and interface science.

[10]  Xigui Yue,et al.  In situ growth of globular MnO2 nanoflowers inside hierarchical porous mangosteen shells-derived carbon for efficient electromagnetic wave absorber , 2022, Journal of Alloys and Compounds.

[11]  Xigui Yue,et al.  Electromagnetic wave absorption properties of polymer-derived magnetic carbon-rich SiCN-based composite ceramics , 2021, Ceramics International.

[12]  F. Marken,et al.  Novel hierarchical structure of MoS2/TiO2/Ti3C2Tx composites for dramatically enhanced electromagnetic absorbing properties , 2021, Journal of Advanced Ceramics.

[13]  H. Lu,et al.  Microwave induced in-situ formation of SiC nanowires on SiCNO ceramic aerogels with excellent electromagnetic wave absorption performance , 2021, Journal of Advanced Ceramics.

[14]  H. Lu,et al.  Structure regulation and microwave absorption property of SiCN ceramic aerogels produced by catalytic pyrolysis , 2021, Ceramics International.

[15]  Xigui Yue,et al.  Egg white-derived carbon/magnetic nanoparticles/water-soluble graphene oxide composite with homogeneous structure as an excellent electromagnetic wave absorber , 2021, Journal of Materials Chemistry C.

[16]  B. Fan,et al.  Lightweight graphene aerogels by decoration of 1D CoNi chains and CNTs to achieve ultra-wide microwave absorption , 2021 .

[17]  Guantong Wang,et al.  Enhanced electromagnetic wave absorption performance of SiCN(Fe) fibers by in-situ generated Fe3Si and CNTs , 2021, Ceramics International.

[18]  M. Tomar,et al.  Hydrothermal synthesis of micro-flower like morphology aluminum-doped MoS2/rGO nanohybrids for high efficient electromagnetic wave shielding materials , 2021 .

[19]  Lili Wu,et al.  Non-Magnetic Bimetallic MOF-Derived Porous Carbon-Wrapped TiO2/ZrTiO4 Composites for Efficient Electromagnetic Wave Absorption , 2021, Nano-Micro Letters.

[20]  Jiurong Liu,et al.  CuNi alloy/ carbon foam nanohybrids as high-performance electromagnetic wave absorbers , 2021 .

[21]  M. Ashfaq,et al.  Electromagnetic wave absorption properties of magnetic particle-doped SiCN (C) composite ceramics , 2021, Journal of Materials Science: Materials in Electronics.

[22]  Lai-fei Cheng,et al.  Controllable synthesis of mesoporous carbon hollow microsphere twined by CNT for enhanced microwave absorption performance , 2020 .

[23]  Jiurong Liu,et al.  Constructing 1T/2H MoS2 nanosheets/3D carbon foam for high-performance electromagnetic wave absorption. , 2020, Journal of colloid and interface science.

[24]  Zhou Wang,et al.  Facile fabrication of Ni embedded TiO2/C core-shell ternary nanofibers with multicomponent functional synergy for efficient electromagnetic wave absorption , 2020 .

[25]  Lai-fei Cheng,et al.  In situ construction of CNWs/SiC-NWs hybrid network reinforced SiCN with excellent electromagnetic wave absorption properties in X band , 2020 .

[26]  Yujun Zhang,et al.  Enhanced electromagnetic microwave absorption of Fe/C/SiCN composite ceramics targeting in integrated structure and function , 2020 .

[27]  R. Riedel,et al.  The fate and role of in situ formed carbon in polymer-derived ceramics , 2020 .

[28]  P. Cui,et al.  Tailoring electromagnetic absorption performances of TiO2/Co/carbon nanofibers through tuning graphitization degrees , 2020 .

[29]  L. Wang,et al.  MOF-derived yolk-shell Ni@C@ZnO Schottky contact structure for enhanced microwave absorption , 2020 .

[30]  Haibin Sun,et al.  Electrospinning preparation and electromagnetic wave absorption properties of SiCN fibers , 2020, Ceramics International.

[31]  M. Ashfaq,et al.  Microwave absorption properties of SiCN ceramics doped with cobalt nanoparticles , 2020, Journal of Materials Science: Materials in Electronics.

[32]  P. Cui,et al.  A MOF-derived ZrO2/C nanocomposite for efficient electromagnetic wave absorption , 2020 .

[33]  Wei Liu,et al.  Design and synthesis of TiO2/Co/carbon nanofibers with tunable and efficient electromagnetic absorption , 2020 .

[34]  Yichun Liu,et al.  Nitrogen doping polyvinylpyrrolidone-based carbon nanofibers via pyrolysis of g-C3N4 with tunable chemical states and capacitive energy storage , 2020 .

[35]  Lai-fei Cheng,et al.  Induced crystallization behavior and EMW absorption properties of CVI SiCN ceramics modified with carbon nanowires , 2019 .

[36]  Hongjing Wu,et al.  Ultra-thin broccoli-like SCFs@TiO2 one-dimensional electromagnetic wave absorbing material , 2019 .

[37]  Jie Kong,et al.  Constructing interconnected spherical hollow conductive networks in silver platelets/reduced graphene oxide foam/epoxy nanocomposites for superior electromagnetic interference shielding effectiveness. , 2019, Nanoscale.

[38]  Hongjing Wu,et al.  Facile synthesis of ellipsoid-like MgCo2O4/Co3O4 composites for strong wideband microwave absorption application , 2019, Composites Part B: Engineering.

[39]  Xianyou Wang,et al.  Sb2S3 embedded in carbon–silicon oxide nanofibers as high-performance anode materials for lithium-ion and sodium-ion batteries , 2019, Journal of Power Sources.

[40]  A. Volinsky,et al.  Co effects on Cu-Ni-Si alloys microstructure and physical properties , 2019, Journal of Alloys and Compounds.

[41]  Lai-fei Cheng,et al.  Hierarchical carbon nanowires network modified PDCs-SiCN with improved microwave absorption performance , 2019, Ceramics International.

[42]  Nannan Wu,et al.  Facile Synthesis of Three-Dimensional Porous Co/MnO Composites Derived from Bimetal Oxides for Highly Efficient Electromagnetic Wave Absorption , 2019, ACS Sustainable Chemistry & Engineering.

[43]  Z. Abbas,et al.  Preparation of a Chemically Reduced Graphene Oxide Reinforced Epoxy Resin Polymer as a Composite for Electromagnetic Interference Shielding and Microwave-Absorbing Applications , 2018, Polymers.

[44]  Wei Liu,et al.  Self-Assembled ZnO/Co Hybrid Nanotubes Prepared by Electrospinning for Lightweight and High-Performance Electromagnetic Wave Absorption , 2018, ACS Applied Nano Materials.

[45]  Yujun Zhang,et al.  The influence of carbon materials on the absorption performance of polymer-derived SiCN ceramics in X-band , 2018, Ceramics International.

[46]  B. Wen,et al.  Thermally Driven Transport and Relaxation Switching Self-Powered Electromagnetic Energy Conversion. , 2018, Small.

[47]  Yujun Zhang,et al.  Electromagnetic wave absorption properties of nickel-containing polymer-derived SiCN ceramics , 2018, Ceramics International.

[48]  Yujun Zhang,et al.  Microwave absorption performance of PDCs-SiCN(Fe) ceramics with negative imaginary permeability , 2018, Ceramics International.

[49]  Yujun Zhang,et al.  Electromagnetic wave absorption properties of europium-doped SiCN (Fe) polymer-derived ceramics , 2018, Journal of Materials Science: Materials in Electronics.

[50]  Yang Liu,et al.  The effect of passivation film in preparation 3D structural carbon paper/tin oxide@carbon as freestanding anode for lithium-ion batteries , 2018 .

[51]  Yujun Zhang,et al.  Cross-linking behavior and dielectric properties of SiCN precursor , 2017 .

[52]  Youwei Du,et al.  Tunable Dielectric Performance Derived from the Metal–Organic Framework/Reduced Graphene Oxide Hybrid with Broadband Absorption , 2017 .

[53]  Yujun Zhang,et al.  The dielectric and microwave absorption properties of polymer-derived SiCN ceramics , 2017 .

[54]  Guo-zhang Wu,et al.  Synthesis of Fe3O4/polypyrrole/polyaniline nanocomposites by in-situ method and their electromagnetic absorbing properties , 2017 .

[55]  B. Fan,et al.  Yolk-Shell Ni@SnO2 Composites with a Designable Interspace To Improve the Electromagnetic Wave Absorption Properties. , 2016, ACS applied materials & interfaces.

[56]  Xiaolong Jia,et al.  Regulating micro-structure and biomineralization of electrospun PVP-based hybridized carbon nanofibers containing bioglass nanoparticles via aging time , 2016 .

[57]  Q. Cao,et al.  Dependency of magnetic microwave absorption on surface architecture of Co20Ni80 hierarchical structures studied by electron holography. , 2015, Nanoscale.

[58]  Jianguo Guan,et al.  Facile preparation, formation mechanism and microwave absorption properties of porous carbonyl iron flakes , 2014 .

[59]  Xiaowei Yin,et al.  Dielectric and microwave absorption properties of polymer derived SiCN ceramics annealed in N2 atmosphere , 2014 .

[60]  Wei Wang Aimin WANGJianguo Guan Jinghua He Electromagnetic parameters and microwave-absorption properties for the mixtures of mechanically milled spherical and flaky carbonyl iron powders , 2012 .

[61]  Y. Wang,et al.  Fabrication of monodispersed nickel flower-like architectures via a solvent-thermal process and analysis of their magnetic and electromagnetic properties , 2011 .

[62]  Hejun Li,et al.  Effect of chemical vapor deposition treatment of carbon fibers on the reflectivity of carbon fiber-reinforced cement-based composites , 2008 .

[63]  C. Cabral,et al.  Interfacial microstructure of NiSix/HfO2/SiOx/Si gate stacks , 2007 .

[64]  C. Koch,et al.  The oxidation of Ni3Si-base alloys , 1995 .

[65]  M. Ashfaq,et al.  Microwave absorption properties of polymer-derived SiCN(CNTs) composite ceramics , 2021 .

[66]  Qiangqiang Hu,et al.  Fe-doped SiCN composite fibers for electromagnetic waves absorption , 2021 .

[67]  M. Ashfaq,et al.  Electromagnetic wave absorption properties of polymer-derived SiCN ceramics doped with Co3C particles , 2020 .