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Michael Stadermann
Michael Stadermann
Lawrence Livermore National Laboratory
Bestätigte E-Mail-Adresse bei llnl.gov
Titel
Zitiert von
Zitiert von
Jahr
Fast mass transport through sub-2-nanometer carbon nanotubes
JK Holt, HG Park, Y Wang, M Stadermann, AB Artyukhin, ...
Science 312 (5776), 1034-1037, 2006
35242006
Ion exclusion by sub-2-nm carbon nanotube pores
F Fornasiero, HG Park, JK Holt, M Stadermann, CP Grigoropoulos, A Noy, ...
Proceedings of the National Academy of Sciences 105 (45), 17250-17255, 2008
8152008
Review of the national ignition campaign 2009-2012
J Lindl, O Landen, J Edwards, E Moses, NIC team
Physics of Plasmas 21 (2), 2014
8092014
Advanced carbon aerogels for energy applications
J Biener, M Stadermann, M Suss, MA Worsley, MM Biener, KA Rose, ...
Energy & Environmental Science 4 (3), 656-667, 2011
7612011
Burning plasma achieved in inertial fusion
AB Zylstra, OA Hurricane, DA Callahan, AL Kritcher, JE Ralph, HF Robey, ...
Nature 601 (7894), 542-548, 2022
4972022
Capacitive desalination with flow-through electrodes
ME Suss, TF Baumann, WL Bourcier, CM Spadaccini, KA Rose, ...
Energy & Environmental Science 5 (11), 9511-9519, 2012
4842012
Lawson criterion for ignition exceeded in an inertial fusion experiment
H Abu-Shawareb, R Acree, P Adams, J Adams, B Addis, R Aden, P Adrian, ...
Physical review letters 129 (7), 075001, 2022
3842022
Fusion energy output greater than the kinetic energy of an imploding shell at the National Ignition Facility
S Le Pape, LF Berzak Hopkins, L Divol, A Pak, EL Dewald, S Bhandarkar, ...
Physical Review Letters 120 (24), 245003, 2018
2872018
Mechanically robust 3D graphene macroassembly with high surface area
MA Worsley, SO Kucheyev, HE Mason, MD Merrill, BP Mayer, J Lewicki, ...
Chemical Communications 48 (67), 8428-8430, 2012
2782012
Performance metrics for the objective assessment of capacitive deionization systems
SA Hawks, A Ramachandran, S Porada, PG Campbell, ME Suss, ...
Water research 152, 126-137, 2019
2582019
Nanoscale study of conduction through carbon nanotube networks
M Stadermann, SJ Papadakis, MR Falvo, J Novak, E Snow, Q Fu, J Liu, ...
Physical Review B 69 (20), 201402, 2004
2582004
Ultrafast gas chromatography on single-wall carbon nanotube stationary phases in microfabricated channels
M Stadermann, AD McBrady, B Dick, VR Reid, A Noy, RE Synovec, ...
Analytical chemistry 78 (16), 5639-5644, 2006
1792006
Energy consumption analysis of constant voltage and constant current operations in capacitive deionization
Y Qu, PG Campbell, L Gu, JM Knipe, E Dzenitis, JG Santiago, ...
Desalination 400, 18-24, 2016
1772016
Design of inertial fusion implosions reaching the burning plasma regime
AL Kritcher, CV Young, HF Robey, CR Weber, AB Zylstra, OA Hurricane, ...
Nature Physics 18 (3), 251-258, 2022
1742022
Experimental achievement and signatures of ignition at the National Ignition Facility
AB Zylstra, AL Kritcher, OA Hurricane, DA Callahan, JE Ralph, DT Casey, ...
Physical Review E 106 (2), 025202, 2022
1732022
Two-dimensional porous electrode model for capacitive deionization
A Hemmatifar, M Stadermann, JG Santiago
The Journal of Physical Chemistry C 119 (44), 24681-24694, 2015
1652015
Achievement of target gain larger than unity in an inertial fusion experiment
H Abu-Shawareb, R Acree, P Adams, J Adams, B Addis, R Aden, P Adrian, ...
Physical Review Letters 132 (6), 065102, 2024
1602024
Design of an inertial fusion experiment exceeding the Lawson criterion for ignition
AL Kritcher, AB Zylstra, DA Callahan, OA Hurricane, CR Weber, DS Clark, ...
Physical Review E 106 (2), 025201, 2022
1542022
Characterization of resistances of a capacitive deionization system
Y Qu, TF Baumann, JG Santiago, M Stadermann
Environmental science & technology 49 (16), 9699-9706, 2015
1522015
Demonstration of ignition radiation temperatures in indirect-drive inertial confinement fusion hohlraums
SH Glenzer, BJ MacGowan, NB Meezan, PA Adams, JB Alfonso, ET Alger, ...
Physical review letters 106 (8), 085004, 2011
1512011
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