The weakly negative permittivity with low-frequency-dispersion behavior in percolative carbon nanotubes/epoxy nanocomposites at radio-frequency range

Liu, Mingxiang; Wu, Haikun; Wu, Yan; Xie, Peitao; Pashameah, Rami Adel; Abo‐Dief, Hala M.; El‐Bahy, Salah M.; Wei, Yu-Lei; Li, Guixian; Li, Weiting; Liang, Gemeng; Liu, Chun-Zhao; Sun, Kai; Fan, Runhua

doi:10.1007/s42114-022-00541-z

Cited by 142 publications

(30 citation statements)

References 48 publications

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“…Its structure was displayed in Figure S8). Epoxy resin is a functional resin widely used in adhesives, coatings, bendable electronic devices, and other fields. − Micron-sized silver flakes were used as the main conductive filler. To further enhance the conductivity, the citrate-capped Sn nanoparticles (Sn-4) were used as complementary conductive fillers.…”

Section: Resultsmentioning

confidence: 99%

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Cao

Chen

Jiang

et al. 2023

ACS Appl. Electron. Mater.

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Tin (Sn) metallic material is one of the best-known metals and has been extensively studied due to its ease of processing, low melting point, and low cost. However, it is still challenging to synthesize high-processing performance and antioxidant Sn nanoparticles with tunable sizes. This research reported a facile, easy-to-scale-up polyol-mediated synthesis of Sn nanoparticles assisted by sodium citrates as a capping agent. The presence of citrate capping facilitated uniform nucleation of Sn nanoparticles and enhanced their antioxidant capacity and dispersion properties. These nanoparticles can remain stable against oxidation for more than 270 days in an ambient atmosphere, even under continuous heating at 200 °C for over 12 h. The citrate capping also inhibits interparticle agglomeration and allows the preparation of high-quality suspensions in water and many conventional organics. Moreover, efficient size tuning over a wide range (60 nm−1 μm) can be achieved simply by changing the Sn 2+ precursor concentrations. The above-mentioned antioxidant capacity and processability allow them to combine with silver flakes in thermosetting epoxy resin as complementary conductive fillers effectively, creating conductive pathways among the silver flakes to obtain high-performance electrically conductive adhesives (ECAs). By adding Sn nanoparticles as complementary conductive fillers, the resistivity of the ECAs can be reduced to 1/ 6000 of that of the ECAs filled with only the same mass ratio of silver flakes, exhibiting its great potential in future electronics.

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Section: Resultsmentioning

confidence: 99%

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Cao

Chen

Jiang

et al. 2023

ACS Appl. Electron. Mater.

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“…Among them, TPU is simply electrostatically spun into fibrous membranes, that exhibit excellent tensile properties, flexibility, and mechanical strength [58,59] . As a kind of emerging nanomaterials, CNTs are also widely used in many fields [60][61][62][63][64] . Selecting suitable materials to prepare various sensors has become the research focus of scholars at home and abroad [65][66][67][68][69][70][71] .…”

Section: Introductionmentioning

confidence: 99%

Flexible Strain Sensor Enabled by Carbon Nanotubes‐Decorated Electrospun TPU Membrane for Human Motion Monitoring

Weng

et al. 2023

Adv Materials Inter

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“…Developing a composite absorber by loading iron oxide into carbon nanofibers will be a solution for the fabrication of lightweight and high-efficiency EM wave-absorbing materials. [35][36][37][38] As a versatile technique to grow composite-based carbon materials, electrospinning is the simplest method for preparing nanofiber materials. Electrospun composites with metal oxides have been fabricated by directly adding the metal oxide to the electrospinning solution or by adding the precursor of the metal oxide and allowing oxidation to take place during the stabilization step under an air atmosphere.…”

Section: Introductionmentioning

confidence: 99%

“…Developing a composite absorber by loading iron oxide into carbon nanofibers will be a solution for the fabrication of lightweight and high-efficiency EM wave-absorbing materials. 35–38…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization study of γ-Fe₂O₃/carbon composite nanofibers: electrospinning of composite fibers using PVP and iron nitrate as precursors

Havigh

Chenari

2023

Phys. Chem. Chem. Phys.

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The weakly negative permittivity with low-frequency-dispersion behavior in percolative carbon nanotubes/epoxy nanocomposites at radio-frequency range

Cited by 142 publications

References 48 publications

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Flexible Strain Sensor Enabled by Carbon Nanotubes‐Decorated Electrospun TPU Membrane for Human Motion Monitoring

Preparation and characterization study of γ-Fe₂O₃/carbon composite nanofibers: electrospinning of composite fibers using PVP and iron nitrate as precursors

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The weakly negative permittivity with low-frequency-dispersion behavior in percolative carbon nanotubes/epoxy nanocomposites at radio-frequency range

Cited by 142 publications

References 48 publications

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Synthesis of Citrate-Capped Sn Nanoparticles with Excellent Oxidation Resistance for High-Performance Electrically Conductive Adhesives

Flexible Strain Sensor Enabled by Carbon Nanotubes‐Decorated Electrospun TPU Membrane for Human Motion Monitoring

Preparation and characterization study of γ-Fe2O3/carbon composite nanofibers: electrospinning of composite fibers using PVP and iron nitrate as precursors

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Preparation and characterization study of γ-Fe₂O₃/carbon composite nanofibers: electrospinning of composite fibers using PVP and iron nitrate as precursors