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United States Military Academy

5 ARTICLES PUBLISHED IN JoVE

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Engineering

Production of Synthetic Nuclear Melt Glass
Joshua J. Molgaard 1, John D. Auxier II 2,3, Andrew V. Giminaro 2,3, Colton J. Oldham 2, Jonathan Gill 2, Howard L. Hall 2,3,4
1Department of Physics and Nuclear Engineering, United States Military Academy, 2Department of Nuclear Engineering, University of Tennessee, 3Radiochemistry Center of Excellence (RCoE), University of Tennessee, 4Institute for Nuclear Security, University of Tennessee

A protocol for the production of synthetic nuclear melt glass, similar to trinitite, is presented.

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Chemistry

A Rapid Synthesis Method for Au, Pd, and Pt Aerogels Via Direct Solution-Based Reduction
Fred J. Burpo 1, Enoch A. Nagelli 1, Lauren A. Morris 2, Joshua P. McClure 3, Madeline Y. Ryu 1, Jesse L. Palmer 1
1Department of Chemistry and Life Science, United States Military Academy, West Point, 2Armament Research, Development and Engineering Center, U.S. Army RDECOM-ARDEC, 3Sensors and Electron Devices Directorate, United States Army Research Laboratory

A rapid, direct solution-based reduction synthesis method to obtain Au, Pd, and Pt aerogels is presented.

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Chemistry

Synthesis Method for Cellulose Nanofiber Biotemplated Palladium Composite Aerogels
Fred J. Burpo 1, Jesse L. Palmer 1, Alexander N. Mitropoulos 1,2, Enoch A. Nagelli 1, Lauren A. Morris 3, Madeline Y. Ryu 1, J. Kenneth Wickiser 1
1Department of Chemistry and Life Science, United States Military Academy, 2Department of Mathematical Sciences, United States Military Academy, 3Armament Research, Development and Engineering Center, U.S. Army RDECOM-ARDEC

A synthesis method for cellulose nanofiber biotemplated palladium composite aerogels is presented.The resulting composite aerogel materials offer potential for catalysis, sensing, and hydrogen gas storage applications.

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Chemistry

A Salt-Templated Synthesis Method for Porous Platinum-based Macrobeams and Macrotubes
F. John Burpo 1,2, Anchor R. Losch 1, Enoch A. Nagelli 1,2, Stephen J. Winter 1, Stephen F. Bartolucci 3, Joshua P. McClure 4, David R. Baker 4, Jack K. Bui 1, Alvin R. Burns 1, Sean F. O’Brien 1, Greg T. Forcherio 4, Brittany R. Aikin 1, Kelsey M. Healy 1, Mason H. Remondelli 1, Alexander N. Mitropoulos 1,5, Lance Richardson 1,2, J. Kenneth Wickiser 1, Deryn D. Chu 4
1Department of Chemistry and Life Science, United States Military Academy, 2Photonics Research Center, United States Military Academy, 3U.S. Army Combat Capabilities Development Command-Armaments Center, 4United States Army Research Laboratory-Sensors and Electron Devices Directorate, 5Department of Mathematical Sciences, United States Military Academy

A synthesis method to obtain porous platinum-based macrotubes and macrobeams with a square cross section through chemical reduction of insoluble salt-needle templates is presented.

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Environment

Measuring Biomethane Potential of Food Scrap Waste Anaerobically Co-Digested with Waste-Activated Sludge Using Respirometry
Brett Krueger 1, Anand Shetty 1, David Esqueda 1, Leah Bentley 1, Jonathan Hooper 1, Amelia Zumbuhl 1, Michael Butkus 1, Andrew Pfluger 1
1Department of Geography and Environmental Engineering, United States Military Academy

This protocol describes a best practice for determining methane production and microbial kinetic parameters using respirometry for anaerobic microbiota co-digesting food scrap waste and waste-activated sludge.

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