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Catalyst Characterization Mimi Daniel FAMU-FSU College of Engineering

b). c). a). e). d). f). 0.7 µm. 350 nm. 120 nm. 40 nm. 100 nm. 400 nm. Catalyst Characterization Mimi Daniel FAMU-FSU College of Engineering.

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Catalyst Characterization Mimi Daniel FAMU-FSU College of Engineering

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  1. b) c) a) e) d) f) 0.7 µm 350 nm 120 nm 40 nm 100 nm 400 nm Catalyst Characterization Mimi Daniel FAMU-FSU College of Engineering Observed formation of catalytic surfaces by thermal treatment of thin film of polymer metal salt composite studies.*Noble metal salts acted as oxidizing agent to oxidize the polymer matrix.*Nanoparticles were synthesized in polymer/salt films to form this catalytic surfaces.*This NP have a wide range of potential application in electrochemistry studies such as fuel cells, bioful cells …etc. TEM Images of NP of Pd/PVB and Pt/Cellulose

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