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Cell reorientation 1

Cell rotation 1

KCl 1

KCl-KCO/NdO 1

KCl-KCO/YO 1

Mg corrosion inhibitor 1

Mg–Ni intermetallic 1

Microfluidics 1

Micromanipulation 1

abrasion resistance 1

activity coefficient 1

attrition 1

catalytic 1

coated monolith 1

concentrated solar power (CSP) 1

dissolution 1

increase 1

low-temperature denitration 1

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salt purification 1

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Direct synthesis of dimethyl carbonate over rare earth oxide supported catalyst

JIANG Qi, CHENG Jiye, GAO Zhiqin

Frontiers of Chemical Science and Engineering 2007, Volume 1, Issue 3,   Pages 300-303 doi: 10.1007/s11705-007-0055-z

Abstract: and KCO on the surface of LaO, YO, CeO and NdO.The optimal loading amount of KCO is 17.6% (mass) for KCl-KCO/YO and 22.2% for other catalysts.KCl-KCO/NdO exhibited the highest activity.The activity of KCl-KCO/YO increased with the increase of calcination temperature in the range of 800ºCThe formation of KYO, YOCl or YO species probably promoted the catalysts.

Keywords: thermogravimetric analysis     increase     KCl-KCO/NdO     catalytic     KCl-KCO/YO    

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Corrosion behavior of Fe–Cr–Ni based alloys exposed to molten MgCl2KCl–NaCl salt with over-added

Frontiers of Chemical Science and Engineering 2023, Volume 17, Issue 10,   Pages 1608-1619 doi: 10.1007/s11705-023-2349-1

Abstract: MgCl2–NaCl–KCl salts mixture shows great potential as a high-temperature (> 700 °C) thermalAdding Mg into molten MgCl2–NaCl–KCl salt as a corrosion inhibitor is one of the most effectiveNi-containing alloys should be avoided during using Mg as a corrosion inhibitor for MgCl2–NaCl–KCl

Keywords: concentrated solar power (CSP)     Mg corrosion inhibitor     Mg–Ni intermetallic     salt purification     thermal energy storage (TES)    

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Rotation of Biological Cells: Fundamentals and Applications Review

Tao Tang, Yoichiroh Hosokawa, Takeshi Hayakawa, Yo Tanaka, Weihua Li, Ming Li, Yaxiaer Yalikun

Engineering 2022, Volume 10, Issue 3,   Pages 110-126 doi: 10.1016/j.eng.2020.07.031

Abstract:

Cell rotation is one of the most important techniques for cell manipulation in modern bioscience, as it not only permits cell observation from any arbitrary angle, but also simplifies the procedures for analyzing the mechanical properties of cells, characterizing cell physiology, and performing microsurgery. Numerous approaches have been reported for rotating cells in a wide range of academic and industrial applications. Among them, the most popular are micro-robot-based direct contact manipulation and field-based non-contact methods (e.g., optical, magnetic, electric, acoustic, and hydrodynamic methods). This review first summarizes the fundamental mechanisms, merits, and demerits of these six main groups of approaches, and then discusses their differences and limitations in detail. We aim to bridge the gap between each method and illustrate the development progress, current advances, and prospects in the field of cell rotation.

Keywords: Cell rotation     Cell reorientation     Micromanipulation     Microfluidics    

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Development of highly active coated monolith SCR catalyst with strong abrasion resistance for low-temperature application

Lina GAN,Shan LEI,Jian YU,Hongtao MA,Yo YAMAMOTO,Yoshizo SUZUKI,Guangwen XU,Zhanguo ZHANG

Frontiers of Environmental Science & Engineering 2015, Volume 9, Issue 6,   Pages 979-987 doi: 10.1007/s11783-015-0824-8

Abstract: Monolith SCR catalysts coated with V O -WO /TiO were prepared by varying binder and coating thickness. Comparing with a monolith extruded with 100% V O -WO /TiO powder, a coated monolith with a catalyst-coating layer of 260 μm in thickness exhibited the similar initial NO reduction activity at 250°C. After 4 h abrasion (attrition) in an air stream containing 300 g·m fine sands (50–100 μm) at a superficial gas velocity of 10 m·s , the catalyst still has the activity as a 100% molded monolith does in a 24-h activity test and it retains about 92% of its initial activity at 250°C. Estimation of the equivalent durable hours at a fly ash concentration of 1.0 g·m in flue gas and a gas velocity of 5 m·s demonstrated that this coated monolith catalyst is capable of resisting abrasion for 13 months without losing more than 8% of its initial activity. The result suggests the great potential of the coated monolith for application to de-NO of flue gases with low fly ash concentrations from, such as glass and ceramics manufacturing processes.

Keywords: coated monolith     low-temperature denitration     abrasion resistance     attrition    

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Modeling of specific structure crystallization coupling with dissolution

Yuanhui JI, Hongliang QIAN, Chang LIU, Xiaohua LU, Xin FENG, Xiaoyan JI,

Frontiers of Chemical Science and Engineering 2010, Volume 4, Issue 1,   Pages 52-56 doi: 10.1007/s11705-009-0301-7

Abstract: Moreover, the formation mechanism of the porous KCl has been analyzed, which may provide a reference

Keywords: structure crystallization     activity coefficient     reference     KCl     dissolution    

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Title Author Date Type Operation

Direct synthesis of dimethyl carbonate over rare earth oxide supported catalyst

JIANG Qi, CHENG Jiye, GAO Zhiqin

Journal Article

Corrosion behavior of Fe–Cr–Ni based alloys exposed to molten MgCl2KCl–NaCl salt with over-added

Journal Article

Rotation of Biological Cells: Fundamentals and Applications

Tao Tang, Yoichiroh Hosokawa, Takeshi Hayakawa, Yo Tanaka, Weihua Li, Ming Li, Yaxiaer Yalikun

Journal Article

Development of highly active coated monolith SCR catalyst with strong abrasion resistance for low-temperature application

Lina GAN,Shan LEI,Jian YU,Hongtao MA,Yo YAMAMOTO,Yoshizo SUZUKI,Guangwen XU,Zhanguo ZHANG

Journal Article

Modeling of specific structure crystallization coupling with dissolution

Yuanhui JI, Hongliang QIAN, Chang LIU, Xiaohua LU, Xin FENG, Xiaoyan JI,

Journal Article