High Aspect Ratio Carbon Nanotube Membranes Decorated with Pt Nanoparticle Urchins for Micro Underwater Vehicle Propulsion via H2O2 Decomposition

The utility of unmanned micro underwater vehicles (MUVs) is paramount for exploring confined spaces, but their spatial agility is often impaired when maneuvers require burst-propulsion. Herein we develop high-aspect ratio (150:1), multiwalled carbon nanotube microarray membranes (CNT-MMs) for propul...

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Published in:ACS nano 2015-08, Vol.9 (8), p.7791-7803
Main Authors: Marr, Kevin M, Chen, Bolin, Mootz, Eric J, Geder, Jason, Pruessner, Marius, Melde, Brian J, Vanfleet, Richard R, Medintz, Igor. L, Iverson, Brian D, Claussen, Jonathan C
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container_issue 8
container_start_page 7791
container_title ACS nano
container_volume 9
creator Marr, Kevin M
Chen, Bolin
Mootz, Eric J
Geder, Jason
Pruessner, Marius
Melde, Brian J
Vanfleet, Richard R
Medintz, Igor. L
Iverson, Brian D
Claussen, Jonathan C
description The utility of unmanned micro underwater vehicles (MUVs) is paramount for exploring confined spaces, but their spatial agility is often impaired when maneuvers require burst-propulsion. Herein we develop high-aspect ratio (150:1), multiwalled carbon nanotube microarray membranes (CNT-MMs) for propulsive, MUV thrust generation by the decomposition of hydrogen peroxide (H2O2). The CNT-MMs are grown via chemical vapor deposition with diamond shaped pores (nominal diagonal dimensions of 4.5 × 9.0 μm) and subsequently decorated with urchin-like, platinum (Pt) nanoparticles via a facile, electroless, chemical deposition process. The Pt-CNT-MMs display robust, high catalytic ability with an effective activation energy of 26.96 kJ mol–1 capable of producing a thrust of 0.209 ± 0.049 N from 50% [w/w] H2O2 decomposition within a compact reaction chamber of eight Pt-CNT-MMs in series.
doi_str_mv 10.1021/acsnano.5b02124
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title High Aspect Ratio Carbon Nanotube Membranes Decorated with Pt Nanoparticle Urchins for Micro Underwater Vehicle Propulsion via H2O2 Decomposition
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