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316 Result(s)
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Article
Improvement in sintering behavior and microwave dielectric properties in CaMgGe2O6 via zn substitution
A series of CaMgGe2O6 ceramics doped with Zn2+ ions were designed and fabricated using the solid-state reaction method. The impact of cation do** on sintering behavior, crystal structure, microstructure, and di...
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Article
An ultra-thin tri-functional coding metasurface based on frequency and polarization selection
In this paper, an ultra-thin tri-functional coding metasurface based on frequency and polarization selection is proposed to achieve different functions at different polarizations and frequencies. The proposed ...
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Article
Study on mechanism of micro-cutting iron-carbon alloys of silicon carbide particles based on molecular dynamics
This paper studies the process of SiC abrasive particles abrasive flow machining iron-carbon alloy surface through molecular dynamics simulation from the microscopic angle of different cutting angles SiC parti...
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Article
Molecular dynamic study of heterocyclic compounds and carbon nanotube
This manuscript uses molecular dynamics simulations to research the self-assembly process between heterocyclic compounds and carbon nanotubes. These results show that multiple polybenzothiazole chains self-cur...
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Article
Atomic-scale frictional behavior of nickel-based single-crystal alloys under different modulation cycles
In order to systematically study the effect of different modulation periods on the friction and wear behavior of nickel-based single-crystal superalloy materials during micromotion wear, molecular dynamics met...
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Article
Molecular dynamics investigation on the thermal-oxidative aging and mechanical properties of nitrile butadiene rubber composites with molybdenum disulfide
Rubber has a wide range of application prospects as an important material in the field of oil extraction and sealing rings. The effect of molybdenum disulfide (2H-MoS2) on the properties of the composites of anti...
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Improving the luminescence intensity of Mn2+ doped B-P-Zn-K based glass–ceramics through tuning structure of Mn2+
For photoluminescence (PL) properties of Mn2+ in glass–ceramics are highly dependent on the concentration of Mn2+, we experimentally observed the change of Mn2+ structures from isolated Mn2+ ion as a tetrahedron,...
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Article
Lattice occupation and luminous properties of the K3YSi2O7:Tm3+,Dy3+ phosphor for NUV-excited white LEDs
A series of K3YSi2O7:xTm3+,yDy3+ (0 ≤ x ≤ 0.13, 0 ≤ y ≤ 0.13) white emitting phosphors were synthesized by high temperature solid state method. The crystal structure, crystal lattice occupation and luminous prope...
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Article
Ca3TeO6:Er3+, Yb3+ up-conversion phosphors for optical temperature sensor based on FIR technique
In recent years, the rare earth doped upconversion luminescent materials have been widely used in many fields. In practical applications, we observed that various dopants have distinct effects on different sub...
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Article
Enhanced thermoelectric properties of Bi2Sr2Co2Oy ceramics by dispersing B2O3 additive
In this study, ceramic samples of Bi2Sr2Co2Oy + v wt% B2O3 (v = 0.0, 0.1, 0.2, 0.3, 0.4) were synthesized using the solid state reaction method, and the influence of B2O3 additive on their microstructure and ther...
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Article
Preparation of ZrO2/γ-Al2O3 albumen type catalyst and its catalytic performance for carbonyl sulfide hydrolysis
In order to realize the efficient removal of COS from blast furnace gas, a ZrO2/γ-Al2O3 albumen type catalyst with low energy consumption and high hydrolysis efficiency using γ-Al2O3 as the carrier and zirconium ...
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Article
Equivalence ionisation effect of 1 MeV electron and proton space particles and γ-rays on optical silica
At present, to evaluate the service life of space optical materials on the ground, 60Co γ-rays are usually used. However, the irradiation effect of the main space particles (protons, electrons) on materials is ob...
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Article
Investigation on the surface roughness of glass–ceramic by in-situ laser-assisted machining
Glass–ceramic is a widely used and difficult to machine material with high hardness and brittleness. For this reason, in-situ laser-assisted machining (LAM) of glass–ceramic was carried out with surface roughn...
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Article
Nanoarchitectonics of binary semiconductor Sb–Y for the application of phase-change memory device
This work systematically investigates the improvement in phase change properties and crystallization mechanism of Sb films after Y do**. Compared with the pure Sb thin films, Sb51Y49 has a higher crystallizing ...
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Article
Enhancing magnetic properties of Ni3Si/Fe3O4@PVDF composites via lamellar Ni3Si template fabrication under pulsed magnetic fields
This study introduces a novel Ni3Si/Fe3O4@polyvinylidene fluoride (PVDF) composite, which is fabricated using a lamellar Ni3Si template under pulsed magnetic fields. The results reveal that increasing the content...
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Article
High rectification efficiency direct bandgap GePb quantum well trench N-MOSFET for 2.45G weak energy microwave wireless transmission
RF-DC rectifier circuit is a key component of microwave wireless energy transmission system (MWPT), and the performance of its core rectifier components (MOS field effect transistors or Schottky diodes) determ...
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Article
Enhanced photoluminescence of CsPbBr \({{}_{3}}\) quantum dots by localized surface plasmon
In this paper, we report a new method to fabricate the all-inorganic perovskites CsPbBr \({{}_{3}}\) ...
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Article
Pyridyl anchoring squaraine as a near-infrared dye sensitizer for effective sensitized hydrogen production over a titanium dioxide photocatalyst in water medium
Squaraine dyes are organic dyes having strong and narrow absorption properties in the near-infrared region that are widely used in photovoltaic and biomedical applications. In this work, squaraine dye (SA1) was s...
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Article
Thermoelectric properties in nano Y2O3 dispersed Cu2Se
Introducing the nanosecond phase into thermoelectric materials is an effective strategy to improve their thermoelectric properties. In this study, the influence of nano Y2O3 dispersion on the resistivity, Seebeck...
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Article
Improving the thermoelectric properties of Bi2Te2.7Se0.3 through La2O3 dispersion
Theoretically, nanosecond phase dispersion is an effective method to optimize the performance of thermoelectric materials due to the energy filtering effect and strong phonon scattering. Because of the chemica...