(PDF) Effect of H 2 S and HCl on Solid Oxide Fuel Cells Fed

Effect of H 2 S and HCl on Solid Oxide Fuel Cells Fed With Simulated Biosyngas Containing Primary Tar

Energy Science and Engineering - United Kingdom

doi 10.1002/ese3.434

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Date

August 29, 2019

Authors

Alessandro Cavalli

Roberta Bernardini

Tommaso Del Carlo

Purushothaman Vellayani Aravind

Publisher

Wiley

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Effect of H 2 S and HCl on Solid Oxide Fuel Cells Fed With Simulated Biosyngas Containing Primary Tar

Energy Science and Engineering - United Kingdom

doi 10.1002/ese3.434

Full Text

Abstract

Categories

Date

Authors

Publisher

Related search

LCK-Dependent Fyn Activation Requires C Terminus-Dependent Targeting of Kinase-Active LCK to Lipid Rafts

LCK Regulates the Threshold of Activation in Primary T Cells, While Both LCK and Fyn Contribute to the Magnitude of the Extracellular Signal-Related Kinase Response

LCK-Dependent Tyrosine Phosphorylation of Diacylglycerol Kinase Α Regulates Its Membrane Association in T Cells

Selective Interaction of LAT (Linker of Activated T Cells) With the Open-Active Form of LCK in Lipid Rafts Reveals a New Mechanism for the Regulation of LCK in T Cells

Bacterial Superantigens Bypass LCK-Dependent T Cell Receptor Signaling by Activating a Gα11-Dependent, PLC-β-Mediated Pathway

Lipid-Dependent Membrane Enzymes. Kinetic Modelling of the Activation of Protein Kinase C by Phosphatidylserine.

The C Terminus of Ku80 Activates the DNA-Dependent Protein Kinase Catalytic Subunit

Biophysical Basis Underlying Dynamic LCK Activation Visualized by ZapLck FRET Biosensor

Rapid T-Cell Receptor-Mediated Tyrosine Phosphorylation of P120, an Fyn/LCK SRC Homology 3 Domain-Binding Protein.

TCR Triggering Induces the Formation of Lck–RACK1–Actinin-1 Multiprotein Network Affecting LCK Redistribution