John Landers
John Landers
U.S. Army Combat Capabilities Development Command-CBC
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Cited by
Density functional theory methods for characterization of porous materials
J Landers, GY Gor, AV Neimark
Colloids and Surfaces A: Physicochemical and Engineering Aspects 437, 3-32, 2013
Biohybrid carbon nanotube/agarose fibers for neural tissue engineering
DY Lewitus, J Landers, JR Branch, KL Smith, G Callegari, J Kohn, ...
Advanced functional materials 21 (14), 2624-2632, 2011
Insight into the effect of dealumination on mordenite using experimentally validated simulations
S Ban, ANC Van Laak, J Landers, AV Neimark, PE De Jongh, KP De Jong, ...
The Journal of Physical Chemistry C 114 (5), 2056-2065, 2010
Carbon nanotube composites as multifunctional substrates for in situ actuation of differentiation of human neural stem cells
J Landers, JT Turner, G Heden, AL Carlson, NK Bennett, PV Moghe, ...
Advanced healthcare materials 3 (11), 1745, 2014
Polyoxometalate hybrid catalyst for detection and photodecomposition of mustard gas surrogate vapors
DA Giannakoudakis, J Colón-Ortiz, J Landers, S Murali, M Florent, ...
Applied Surface Science 467, 428-438, 2019
Bioactive carbon-nanotube agarose composites for neural engineering
D Lewitus, JB Kohn, A Neimark, J Landers
US Patent App. 13/308,510, 2012
Large scale graphene/h-BN heterostructures obtained by direct CVD growth of graphene using high-yield proximity-catalytic process
H Arjmandi-Tash, D Kalita, Z Han, R Othmen, G Nayak, C Berne, ...
Journal of Physics: Materials 1 (1), 015003, 2018
Bioactive agarose carbon‐nanotube composites are capable of manipulating brain–implant interface
DY Lewitus, KL Smith, J Landers, AV Neimark, J Kohn
Journal of applied polymer science 131 (14), 2014
Disordered mesoporous zirconium (hydr) oxides for decomposition of dimethyl chlorophosphate
J Colón-Ortiz, JM Landers, WO Gordon, A Balboa, CJ Karwacki, ...
ACS applied materials & interfaces 11 (19), 17931-17939, 2019
In situ growth and characterization of metal oxide nanoparticles within polyelectrolyte membranes
J Landers, J Colon‐Ortiz, K Zong, A Goswami, T Asefa, A Vishnyakov, ...
Angewandte Chemie 128 (38), 11694-11699, 2016
Laponite-Incorporated UiO-66-NH2-Polyethylene Oxide Composite Membranes for Protection against Chemical Warfare Agent Simulants
MA Browe, J Landers, TM Tovar, JJ Mahle, A Balboa, WO Gordon, ...
ACS Applied Materials & Interfaces 13 (8), 10500-10512, 2021
Dry Reactive H2O2–Polymer Complexes for the Degradation of Mustard Gas
J Landers, H Wang, M Hall, E Bruni, J Mahle, WO Gordon, A Balboa, ...
ACS Applied Polymer Materials 2 (11), 4640-4646, 2020
Effect of mixing on the pore structure of alumina extrudates
J Landers, M Devadas, AV Neimark, HK Timken, A Ojo, AW Chester
Particle & Particle Systems Characterization 27 (1‐2), 42-47, 2010
Convergent fabrication of a nanoporous two-dimensional carbon network from an aldol condensation on metal surfaces
J Landers, F Chérioux, M De Santis, N Bendiab, S Lamare, L Magaud, ...
2D Materials 1 (3), 034005, 2014
In-situ growth and characterization of metal oxide nanoparticles within block-copolymer polyelectrolyte membranes
J Colón-Ortiz, SY Patel, A Berninzon, G Gabounia, JM Landers, ...
Colloids and Surfaces A: Physicochemical and Engineering Aspects 601, 125028, 2020
Single threaded composite fibers and yarns for the degradation of and protection against toxic chemicals and biological agents
JM Landers, CJ Karwacki, TM Tovar, GW Peterson
US Patent 11,648,548, 2023
Multicatalyst polyelectrolyte membranes and materials and methods utilizing the same
J Landers, AV Neimark, T Asefa, A Vishnyakov, A Goswami, JC Ortiz
US Patent 10,722,743, 2020
High-Yield Proximity-Induced Chemical Vapor Deposition of Graphene Over Millimeter-Sized Hexagonal Boron Nitride
H Arjmandi-Tash, D Kalita, Z Han, R Othmen, C Berne, J Landers, ...
arXiv preprint arXiv:1701.06057, 2017
All-Weather Dry Decontaminant Polymer-H2O2 Complex for HD Degradation
J Landers, H Wang, J Mahle, J Myers, D Nichols, E Emmons, A Tripathi, ...
ACS Applied Materials & Interfaces, 2024
Polymer-based composite beads comprised of metal-organic frameworks and metal oxides for toxic chemical removal
GW Peterson, TH Epps, JM Landers
US Patent 11,998,785, 2024
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