Van-Hien Hoang,Nam-Suk Lee,Heon-Jung Kim
Van-Hien Hoang
This study investigates the microstructure of Fe2O3 polymorphs in films of various thicknesses deposited on yttria-stabilized zirconia (001) substrates. The results reveal that the ε-Fe2O3 phase is formed and stabilized at thicknesses below a critical threshold of 20 nm.
Effect of Zircos-E etching as surface treatment on monotonic and fatigue strength of a 4YSZ [0.03%]
用Zircos-E侵蚀处理作为表面处理对4YSZ的拉伸强度和疲劳强度的影响
Duvan Cala Castillo,Luiza Freitas Brum Souza,Gabriel Bauken et al.
Duvan Cala Castillo et al.
This study evaluated the effect of Zircos-E etching as a surface treatment on the monotonic and fatigue strength of 4 mol% yttria-stabilized zirconia (4YSZ), with and without resin cement.
Phase transformation of yttria-stabilized zirconia after the use of various bur types in dry and wet conditions: A systematic review and meta-analysis [0.03%]
不同车针类型在干湿环境下使用后对氧化钇稳定氧化锆全瓷修复体基材的影响:系统评价和meta分析
Z Rautenbach,M Haiek,E Ruales-Carrera et al.
Z Rautenbach et al.
Purpose: The objective of this systematic review and meta-analysis was to analyze the impact of grinding using burs with different grain size under dry and wet conditions for conventional and translucent zirconia on the d...
Efficient ppt-Level H2S Gas Sensor Based on YSZ and α-Fe2O3 Nanofoam Sensing Electrode [0.03%]
基于YSZ和α-Fe2O3纳米多孔泡沫敏感电极的高效级H2S气体传感器
Xidong Hao,Xiangli Meng,Tianling Yu et al.
Xidong Hao et al.
Herein, porous α-Fe2O3 nanofoam was successfully synthesized and used as a sensing electrode to fabricate a yttria-stabilized zirconia (YSZ) mixed-potential hydrogen sulfide (H2S) sensor for real-time monitoring of hazardous H2S gas.
Wearable, Breathable, and Wireless Gas Sensor Enables Highly Selective Exhaled Ammonia Detection and Real-Time Noninvasive Illness Diagnosis [0.03%]
一种可穿戴、透气和无线气体传感器能够进行高选择性的呼出氨检测及实时无创诊断
Haipeng Dong,Xiaowei Li,Yu Liu et al.
Haipeng Dong et al.
Herein, we propose a wearable gas sensor by anchoring a SnS2 nanosheets/polyaniline (PANI) sensing layer in situ onto a permeable and flexible yttria-stabilized zirconia (YSZ) nanofiber substrate for the analysis of exhaled NH3.
Wear Resistance of the Refractory WC-Co Diamond-Reinforced Composite with Zirconia Additive [0.03%]
添加氧化锆的WC-Co金刚石增强复合材料的耐磨性研究
Boranbay Ratov,Volodymyr Mechnik,Edvin Hevorkian et al.
Boranbay Ratov et al.
It was found that the addition of yttria-stabilized zirconia increased the plasticity of the matrix and thus introduced the ductile fracture mechanism, reducing the role of abrasive wear.
Design and development of a novel device to identify the individual concentration of NO and NO2 in a gas mixture [0.03%]
一种新型设备的设计与开发用于识别气体内NO和NO2的个体浓度
Md Abu Sayeed Sujan,Suman Chatterjee
Md Abu Sayeed Sujan
This study investigates the performance of advanced potentiometric sensors utilizing yttria-stabilized zirconia (YSZ) substrates coated with lanthanum copper oxide (La2CuO4) or tungsten oxide (WO3) for the selective detection of nitrogen oxides (NO and NO2).
Mechanisms of Enhanced Thermal Durability in Porosity-Controlled Multilayer Thermal Barrier Coatings [0.03%]
具有孔隙率调控多层结构的热障涂层提高其耐温性能的机理研究
Janghyeok Pyeon,Kyung-Moo Kang,Bong-Gu Kim et al.
Janghyeok Pyeon et al.
This study investigates the enhancement of thermal durability in multilayer yttria-stabilized zirconia (YSZ) thermal barrier coatings (TBC) with porosity-controlled structures.
New Insights into the Hydrogen Evolution Mechanism near the Ni/YSZ Triple Phase Boundary during Steam Electrolysis: A Patterned Model Electrode Study [0.03%]
蒸汽电解过程中Ni/YSZ三相边界附近析氢机制的新见解:图案化模型电极研究
Christoph W Thurner,Kevin Ploner,Daniel Werner et al.
Christoph W Thurner et al.
Despite its significance, limited in situ spectroscopic research focusing on nickel and yttria-stabilized zirconia (Ni/YSZ) is available.
Room-Temperature Wearable Chemiresistor Based on a Flexible Inorganic Photoactive Anatase-Rutile TiO2/Yttria-Stabilized Zirconia Nanofiber Network [0.03%]
基于柔性无机光敏锐钛矿-金红石TiO2/氧化钇稳定氧化锆纳米纤维网络的室温可穿戴化学电阻器
Wanying Cheng,Xiaowei Li,Chaohan Han et al.
Wanying Cheng et al.
Herein, an all-inorganic wearable oxide semiconductor gas sensor is fabricated by depositing the anatase/rutile TiO2 (TiO2-A/R) homojunction on a flexible yttria-stabilized zirconia (YSZ) nanofiber substrate using atomic layer deposition technology.
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