Q. Liu scite author profile

The cathode performance of various LSCM-based composites for high temperature H 2 O electrolysis has been studied by examining their electrochemical behavior under current loading using three-electrode electrolysis cells with Pt as counter and reference electrodes. Experimental results among pure LSCM, LSCM-GDC, LSCM-YSZ and LSCM-(GDC-YSZ) have shown that LSCM-GDC exhibits the highest H 2 O electrolysis performance. The ratio between LSCM and GDC is further optimized and it is shown that the LSCM-GDC with 50-50 wt.% for each component exhibits the highest performance. Benchmarking with a 60-40 wt.% Ni-YSZ cathode have shown that the optimized LSCM-GDC cathode exhibits better performance for H 2 O electrolysis with a lower area specific resistance. Under a cathodic current of -0.1 A cm -2 , the optimized LSCM-GDC cathode shows much slower degradation, about 10 times slower as compared to the Ni-YSZ cathode when exposed to 10 ppm of SO 2 for up to 72 h. All the above electrochemical tests have been conducted at 800°C and 70/30 pH 2 O/pH 2 . Without the use of reducing agent, the optimized LSCM-GDC cathode also shows promising performance for co-electrolysis of H 2 O and CO 2 at high current densities and stable performance with 5 ppm of SO 2 in the feedstock gas.

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Underground cavern development in the Jurong sedimentary rock formation

Zhao¹,

Liu²,

Lee³

et al. 1999

Tunnelling and Underground Space Technology

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Decapsulation of 3D multi-die stacked package

Kör

Liu

Siah

et al. 2015

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Although a combination of laser, mechanical and chemical techniques can be used to expose a very large and thin die from a multi-die stacked package, package warping and die crack occur in the process of gaining access to each die. The aim of this paper is to investigate the sample preparation technique to access each individual die from a four-die stacked package, while maintaining the structural integrity of each die for further failure analysis.

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Q. Liu

Pulsed laser ablation of preferentially orientated ZnO:Co diluted magnetic semiconducting thin films on Si substrates

Sulfur Tolerant LSCM‐based Composite Cathode for High Temperature Electrolysis/Co‐electrolysis of H₂O and CO₂

Underground cavern development in the Jurong sedimentary rock formation

Decapsulation of 3D multi-die stacked package

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Resources

About

Q. Liu

Pulsed laser ablation of preferentially orientated ZnO:Co diluted magnetic semiconducting thin films on Si substrates

Sulfur Tolerant LSCM‐based Composite Cathode for High Temperature Electrolysis/Co‐electrolysis of H2O and CO2

Underground cavern development in the Jurong sedimentary rock formation

Decapsulation of 3D multi-die stacked package

Contact Info

Product

Resources

About

Sulfur Tolerant LSCM‐based Composite Cathode for High Temperature Electrolysis/Co‐electrolysis of H₂O and CO₂