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Scott Holdren
Scott Holdren
Johns Hopkins University Applied Physics Lab
Verified email at jhuapl.edu
Title
Cited by
Cited by
Year
Adsorption and destruction of the G-series nerve agent simulant dimethyl methylphosphonate on zinc oxide
S Holdren, R Tsyshevsky, K Fears, J Owrutsky, T Wu, X Wang, ...
ACS Catalysis 9 (2), 902-911, 2018
672018
Spectroscopic and computational investigation of room-temperature decomposition of a chemical warfare agent simulant on polycrystalline cupric oxide
L Trotochaud, R Tsyshevsky, S Holdren, K Fears, AR Head, Y Yu, ...
Chemistry of Materials 29 (17), 7483-7496, 2017
632017
Three-step cascade over a single catalyst: synthesis of 5-(ethoxymethyl) furfural from glucose over a hierarchical lamellar multi-functional zeolite catalyst
Y Bai, L Wei, M Yang, H Chen, S Holdren, G Zhu, DT Tran, C Yao, R Sun, ...
Journal of Materials Chemistry A 6 (17), 7693-7705, 2018
542018
Combustion of 3D printed 90 wt% loading reinforced nanothermite
J Shen, H Wang, DJ Kline, Y Yang, X Wang, M Rehwoldt, T Wu, ...
Combustion and Flame 215, 86-92, 2020
512020
Mesoporous silica spheres incorporated aluminum/poly (vinylidene fluoride) for enhanced burning propellants
H Wang, JB DeLisio, S Holdren, T Wu, Y Yang, J Hu, MR Zachariah
Advanced Engineering Materials 20 (2), 1700547, 2018
512018
Ignition of nanoscale titanium/potassium perchlorate pyrotechnic powder: reaction mechanism study
MC Rehwoldt, Y Yang, H Wang, S Holdren, MR Zachariah
The Journal of Physical Chemistry C 122 (20), 10792-10800, 2018
422018
Quantitative determination of calcium, magnesium, and zinc in fingernails by laser-induced breakdown spectroscopy
DA Rusak, AE Zeleniak, JL Obuhosky, SM Holdren, CA Noldy
Talanta 117, 55-59, 2013
362013
Room temperature decomposition of dimethyl methylphosphonate on cuprous oxide yields atomic phosphorus
L Trotochaud, AR Head, C Büchner, Y Yu, O Karslıoğlu, R Tsyshevsky, ...
Surface Science 680, 75-87, 2019
352019
Dimethyl methylphosphonate adsorption capacities and desorption energies on ordered mesoporous carbons
K Huynh, S Holdren, J Hu, L Wang, MR Zachariah, BW Eichhorn
ACS applied materials & interfaces 9 (46), 40638-40644, 2017
342017
Vapor-phase strategy to pillaring of two-dimensional zeolite
L Wei, K Song, W Wu, S Holdren, G Zhu, E Shulman, W Shang, H Chen, ...
Journal of the American Chemical Society 141 (22), 8712-8716, 2019
312019
Preparation and combustion of laminated iodine containing aluminum/polyvinylidene fluoride composites
H Wang, S Holdren, MR Zachariah
Combustion and Flame 197, 120-126, 2018
292018
Thermal desorption of dimethyl methylphosphonate from MoO3
AR Head, X Tang, Z Hicks, L Wang, H Bleuel, S Holdren, L Trotochaud, ...
Catalysis, Structure & Reactivity 3 (1-2), 112-118, 2017
282017
Carbon addition lowers initiation and iodine release temperatures from iodine oxide-based biocidal energetic materials
T Wu, X Wang, JB DeLisio, S Holdren, MR Zachariah
Carbon 130, 410-415, 2018
242018
Sarin decomposition on pristine and hydroxylated ZnO: quantum-chemical modeling
R Tsyshevsky, S Holdren, BW Eichhorn, MR Zachariah, MM Kuklja
The Journal of Physical Chemistry C 123 (43), 26432-26441, 2019
232019
Quantification of rhenium oxide dispersion on zeolite: Effect of zeolite acidity and mesoporosity
Y Wu, S Holdren, Y Zhang, SC Oh, DT Tran, L Emdadi, Z Lu, M Wang, ...
Journal of Catalysis 372, 128-141, 2019
222019
Growth of sub-5 nm metal nanoclusters in polymer melt aerosol droplets
Y Yang, M Romano, G Feng, X Wang, T Wu, S Holdren, MR Zachariah
Langmuir 34 (2), 585-594, 2018
212018
Ultrafast, scalable laser photothermal synthesis and writing of uniformly dispersed metal nanoclusters in polymer films
P Ghildiyal, Y Yang, DJ Kline, S Holdren, MR Zachariah
Nanoscale 11 (28), 13354-13365, 2019
82019
Rapid carbothermal shock enhances the double-layer response of graphene oxide–carbon nanotube electrodes
JS Ko, PY Meng, H Elazar-Mittelman, JK Johnson, Z Xia, S Holdren
Energy & Fuels 35 (21), 17919-17929, 2021
62021
Fixed Feed Temperature-Programmed Modulation—A Quantitative Method To Obtain Thermophysical Parameters: Application to Chemical Warfare Agent Adsorbents
WT Gibbons, S Holdren, J Hu, BW Eichhorn, MR Zachariah
The Journal of Physical Chemistry C 123 (20), 12694-12705, 2019
22019
Corrigendum to" Carbon addition lowers initiation and iodine release temperatures from iodine oxide-based biocidal energetic materials"[Carbon 130 (2018) 410-415]
T Wu, X Wang, JB DeLisio, S Holdren, MR Zachariah
Carbon 153, 807-807, 2019
2019
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