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S. Sumathi et al.
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Reaction of NO with urea supported on activated carbons
N Shirahama et al.
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J Kaspar et al.
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N Shirahama et al.
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YW Lee et al.
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NO oxidation over activated carbon fiber (ACF). Part 1. Extended kinetics over a pitch based ACF of very large surface area
I Mochida et al.
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M Koebel et al.
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