Publications
Selected Publications
Triggering tau
assembly by electroreduction: a cofactor-free method to
study amyloid formation
E. Masquelier, S. Fojut, X. Faraji, S. Tochikura, L. Sepunaru, M.J. Gordon and D.E. Morse
ACS Electrochemistry 1, 11, 2353–2363 (2025).
E. Masquelier, S. Fojut, X. Faraji, S. Tochikura, L. Sepunaru, M.J. Gordon and D.E. Morse
ACS Electrochemistry 1, 11, 2353–2363 (2025).
Synthesis of
Photoresponsive Liquid Crystal Elastomers: A General Chemical Approach
J.G. Campos, M. Park, Y. Wu, S. Sandlass, E.M. Novikov, S.J. Bailey, M.J.Gordon, T.V. Timofeeva, and J. Read de Alaniz
J. Mat. Chem. A (2025), DOI: 10.1039/D5TA01043H
J.G. Campos, M. Park, Y. Wu, S. Sandlass, E.M. Novikov, S.J. Bailey, M.J.Gordon, T.V. Timofeeva, and J. Read de Alaniz
J. Mat. Chem. A (2025), DOI: 10.1039/D5TA01043H
Electrochemically
Driven Optical Dynamics of Reflectin Protein Films
Yin-Chen Lin, Changxuan Yang, Seren Tochikura, Joshua R. Uzarski, Daniel E. Morse, Lior Sepunaru, and Michael J. Gordon
Advanced Materials 2411005 (2025). DOI: 10.1002/adma.202411005
Yin-Chen Lin, Changxuan Yang, Seren Tochikura, Joshua R. Uzarski, Daniel E. Morse, Lior Sepunaru, and Michael J. Gordon
Advanced Materials 2411005 (2025). DOI: 10.1002/adma.202411005
AC Plasmas Directly
Excited in Liquid-Phase Hydrocarbons for H2
and Unsaturated C2 Hydrocarbon Production
N. Lim, E.W. McFarland, and M.J. Gordon
J. Am. Chem. Soc. 147 (1), 397-408 (2025). https://pubs.acs.org/doi/10.1021/jacs.4c11174
N. Lim, E.W. McFarland, and M.J. Gordon
J. Am. Chem. Soc. 147 (1), 397-408 (2025). https://pubs.acs.org/doi/10.1021/jacs.4c11174
Visible Light
Photolysis at Single Atom Sites in Semiconductor
Perovskite Oxides
M.G. Allan, R.A. Yang, S. Marino, M.J. Gordon, P. Christopher, and E. Nikolla
J. Am. Chem. Soc. 147, 1, 898–909 (2025). https://doi.org/10.1021/jacs.4c13821
M.G. Allan, R.A. Yang, S. Marino, M.J. Gordon, P. Christopher, and E. Nikolla
J. Am. Chem. Soc. 147, 1, 898–909 (2025). https://doi.org/10.1021/jacs.4c13821
Protein Charge
Neutralization Is the Proximate Driver Dynamically
Tuning Reflectin Assembly
R. Levenson, B. Malady, T. Lee, Y. Al Sabeh, M.J. Gordon, and D.E. Morse
Intl. J. Molec. Sci. 25(16) 8954 (2024). doi.org/10.3390/ijms25168954
R. Levenson, B. Malady, T. Lee, Y. Al Sabeh, M.J. Gordon, and D.E. Morse
Intl. J. Molec. Sci. 25(16) 8954 (2024). doi.org/10.3390/ijms25168954
Design and dynamic
characterization of a phototunable optofluidic lens
S. Sandlass and M.J. Gordon
Optics Express Vol. 32, Issue 15, pp. 26445-26457 (2024).
https://doi.org/10.1364/OE.527369
S. Sandlass and M.J. Gordon
Optics Express Vol. 32, Issue 15, pp. 26445-26457 (2024).
https://doi.org/10.1364/OE.527369
Photoactivation of
millimeters thick liquid crystal elastomers with
broadband visible light using donor-acceptor Stenhouse
adducts
J.G. Campos, C. Tobin, S. Sandlass, M. Park, Y. Wu, M.J. Gordon, and J. Read de Alaniz
Adv. Mater. 2024, 36, 2404932.
J.G. Campos, C. Tobin, S. Sandlass, M. Park, Y. Wu, M.J. Gordon, and J. Read de Alaniz
Adv. Mater. 2024, 36, 2404932.
Is there a
discernible photochemical effect beyond heating for
visible photon mediated NH3 decomposition
over Ru/Al2O3?
A. Beck, J. Marlowe, M.J. Gordon, and P. Christopher
J. Phys. Chem. C 128, 8590−8600 (2024).
A. Beck, J. Marlowe, M.J. Gordon, and P. Christopher
J. Phys. Chem. C 128, 8590−8600 (2024).
Dynamic Manipulation
of Droplets on Liquid-Infused Surfaces Using
Photoresponsive Surfactant
X. Liang, K.M. Karnaukh, L. Zhao, S. Seshadri, A.J. DuBose, S.J. Bailey, Q. Cao, M. Cooper, H. Xu, M. Haggmark, M.E. Helgeson, M.J. Gordon, P. Luzzatto-Fegiz, J. Read de Alaniz, and Y. Zhu
ACS Central Science 10, 3, 684–694 (2024).
X. Liang, K.M. Karnaukh, L. Zhao, S. Seshadri, A.J. DuBose, S.J. Bailey, Q. Cao, M. Cooper, H. Xu, M. Haggmark, M.E. Helgeson, M.J. Gordon, P. Luzzatto-Fegiz, J. Read de Alaniz, and Y. Zhu
ACS Central Science 10, 3, 684–694 (2024).
Impact of pressure
and hydrogen dilution on the kinetics of methane
decomposition in AC-excited, high pressure plasmas
N. Lim, Y. Wu, and M.J. Gordon
Plasma Chemistry and Plasma Processing 44 (1), 47-64 (2024).
N. Lim, Y. Wu, and M.J. Gordon
Plasma Chemistry and Plasma Processing 44 (1), 47-64 (2024).
Selective control of donor-acceptor Stenhouse
adduct populations with non-selective stimuli
F. Stricker, J.Peterson, S.K. Sandlass, A. de Tagyos, M. Sroda, S. Seshadri, M.J. Gordon, and J. Read de Alaniz
Chem 9 (7), 1994-2005 (2023)
F. Stricker, J.Peterson, S.K. Sandlass, A. de Tagyos, M. Sroda, S. Seshadri, M.J. Gordon, and J. Read de Alaniz
Chem 9 (7), 1994-2005 (2023)
Immobilized
microdischarges in pulsed DBD plasmas for localized
deposition and patterning of polymer-like films
A. Demaude, D. Petitjean, M. Brabant, M.J. Gordon, and F. Reniers
Plasma Chem. Plasma Process., 1-18 (2023).
A. Demaude, D. Petitjean, M. Brabant, M.J. Gordon, and F. Reniers
Plasma Chem. Plasma Process., 1-18 (2023).
Voltage-Calibrated,
Finely Tunable Protein Assembly
Y-C. Lin, E. Masquelier, Y. Al Sabeh, L. Sepunaru, M.J. Gordon, and D.E. Morse
J. Royal Soc. Interface 20 (204), 20230183 (2023).
Y-C. Lin, E. Masquelier, Y. Al Sabeh, L. Sepunaru, M.J. Gordon, and D.E. Morse
J. Royal Soc. Interface 20 (204), 20230183 (2023).
Effect of polymer
host matrix on multi-stage isomerization kinetics of
DASA photochromes
S. Sandlass, F. Stricker, D. Fragosoa, J. Read de Alaniz, M.J. Gordon
J. Photochem. & Photobiology A 444, 114964 (2023).
https://doi.org/10.1016/j.jphotochem.2023.114964
S. Sandlass, F. Stricker, D. Fragosoa, J. Read de Alaniz, M.J. Gordon
J. Photochem. & Photobiology A 444, 114964 (2023).
https://doi.org/10.1016/j.jphotochem.2023.114964
Extending the
diatom’s color palette: non-iridescent,
disorder-mediated coloration in marine
diatom-inspired nanomembranes
P. Shapturenka, N. Isaac Zakaria, F. Birkholz, and M.J. Gordon
Optics Express 31 (13), 21658-21671 (2023).
https://doi.org/10.1364/OE.487180
P. Shapturenka, N. Isaac Zakaria, F. Birkholz, and M.J. Gordon
Optics Express 31 (13), 21658-21671 (2023).
https://doi.org/10.1364/OE.487180
Significant Quantum
Efficiency Enhancement of InGaN Red Micro-Light-Emitting
Diodes with a Peak External Quantum Efficiency of up to
6%
P. Li, H. Li, Y. Yao, N. Lim, M. Wong, M. Iza, M.J. Gordon, J.S. Speck, S.Nakamura, and S.P. DenBaars
ACS Photonics 10 (6), 1899-1905 (2023).
P. Li, H. Li, Y. Yao, N. Lim, M. Wong, M. Iza, M.J. Gordon, J.S. Speck, S.Nakamura, and S.P. DenBaars
ACS Photonics 10 (6), 1899-1905 (2023).
InGaN amber
micrometer-scale light-emitting diodes with a peak
external quantum efficiency of 5.5%
P. Li, H. Li, Y. Yang, M.S. Wong, M.Iza, M.J. Gordon, J.S. Speck, S. Nakamura, and S.P. Denbaars
Applied Physics Express 16 (6), 064002 (2023). DOI 10.35848/1882-0786/acd1cf
P. Li, H. Li, Y. Yang, M.S. Wong, M.Iza, M.J. Gordon, J.S. Speck, S. Nakamura, and S.P. Denbaars
Applied Physics Express 16 (6), 064002 (2023). DOI 10.35848/1882-0786/acd1cf
A new electrochemical
method that mimics phosphorylation of the core tau
peptide K18 enables kinetic and structural analysis of
intermediates and assembly
E. Masquelier, E. Taxon, S.-P. Liang, Y. Al Sabeh, L. Sepunaru, M.J. Gordon, and D.E. Morse
Journal of Biological Chemistry 299 (3) (2023).
E. Masquelier, E. Taxon, S.-P. Liang, Y. Al Sabeh, L. Sepunaru, M.J. Gordon, and D.E. Morse
Journal of Biological Chemistry 299 (3) (2023).
Structural, Optical,
and Electrical Characterization of 643 nm Red InGaN
Multiquantum Wells Grown on Strain‐Relaxed InGaN
Templates
N. Lim, P. Chan, H.M. Chang, V. Rienzi, M.J. Gordon (corresponding author), and S. Nakamura
Advanced Photonics Research 4 (3), 2200286 (2023).
N. Lim, P. Chan, H.M. Chang, V. Rienzi, M.J. Gordon (corresponding author), and S. Nakamura
Advanced Photonics Research 4 (3), 2200286 (2023).
Computational design
and optimization of nanostructured AlN deep-UV grating
reflectors
P. Shapturenka, A. Devata, S.P. DenBaars, S. Nakamura, and M.J. Gordon
Optics Express 30(7), 12120 (2022).
P. Shapturenka, A. Devata, S.P. DenBaars, S. Nakamura, and M.J. Gordon
Optics Express 30(7), 12120 (2022).
Low Voltage
Voltammetry Probes Proton Dissociation Equilibria of
Amino Acids and Peptides
S.-P. Liang, E. Masquelier, D.E. Morse, M.J. Gordon, and L. Sepunaru
Analytical Chemistry 94 (12), 4948 (2022).
S.-P. Liang, E. Masquelier, D.E. Morse, M.J. Gordon, and L. Sepunaru
Analytical Chemistry 94 (12), 4948 (2022).
InGaN Based C-Plane
Blue Laser Diodes on Strain Relaxed Template with
Reduced Absorption Loss
H.-M. Chang, P. Chan, N. Lim, V. Rienzi, H. Zhang, D.A. Cohen, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (9), 1230 (2022).
H.-M. Chang, P. Chan, N. Lim, V. Rienzi, H. Zhang, D.A. Cohen, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (9), 1230 (2022).
Demonstration of
C-Plane InGaN-Based Blue Laser Diodes Grown on a
Strain-Relaxed Template
H.-M. Chang, P. Chan, N. Lim, V. Rienzi, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (9), 1208 (2022).
H.-M. Chang, P. Chan, N. Lim, V. Rienzi, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (9), 1208 (2022).
Demonstration of
III-Nitride Red LEDs on Si Substrates via Strain-Relaxed
Template by InGaN Decomposition Layer
V. Rienzi, J. Smith, N. Lim, H.-M. Chang, P. Chan, M.S. Wong, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (8), 1144 (2022).
V. Rienzi, J. Smith, N. Lim, H.-M. Chang, P. Chan, M.S. Wong, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Crystals 12 (8), 1144 (2022).
Simple and Scalable
Chemical Surface Patterning via Direct Deposition from
Immobilized Plasma Filaments in a Dielectric Barrier
Discharge
Annaëlle Demaude, Kitty Baert, David Petitjean, Juliette Zveny, Erik Goormaghtigh, Tom Hauffman, Michael J Gordon, François Reniers
Advanced Science 9 (15), 2200237 (2022).
Annaëlle Demaude, Kitty Baert, David Petitjean, Juliette Zveny, Erik Goormaghtigh, Tom Hauffman, Michael J Gordon, François Reniers
Advanced Science 9 (15), 2200237 (2022).
Demonstration of
ultra-small 5 × 5 μm2 607 nm
InGaN amber micro-light-emitting diodes with an external
quantum efficiency over 2%
P. Li, H. Li, Y. Yang, H. Zhang, P. Shapturenka, M.Wong, C. Lynsky, M. Iza, M.J. Gordon, J.S. Speck, S. Nakamura, and S.P. DenBaars
Applied Physics Letters 120 (12), 121102 (2022).
P. Li, H. Li, Y. Yang, H. Zhang, P. Shapturenka, M.Wong, C. Lynsky, M. Iza, M.J. Gordon, J.S. Speck, S. Nakamura, and S.P. DenBaars
Applied Physics Letters 120 (12), 121102 (2022).
Influence of
hydrocarbon feed additives on the high-temperature
pyrolysis of methane in molten salt bubble column
reactors
C. Palmer, M.J. Gordon, H. Metiu, E.W. McFarland
Reaction Chemistry & Engineering 7 (5), 1199-1209 (2022).
C. Palmer, M.J. Gordon, H. Metiu, E.W. McFarland
Reaction Chemistry & Engineering 7 (5), 1199-1209 (2022).
Reversible
electrochemical triggering and optical interrogation of
polylysine α-helix formation
E. Masquelier, S.P. Liang, L. Sepunaru, D.E. Morse, and M.J. Gordon
Bioelectrochemistry 144, 108700 (2022).
E. Masquelier, S.P. Liang, L. Sepunaru, D.E. Morse, and M.J. Gordon
Bioelectrochemistry 144, 108700 (2022).
Optical emission
spectroscopy and Langmuir probe studies of an
intermediate pressure, supersonic plasma jet
K.E. Mackie and M.J. Gordon
J. Vac. Sci. Tech. A 40, 013002 (2022).
K.E. Mackie and M.J. Gordon
J. Vac. Sci. Tech. A 40, 013002 (2022).
Depinning of
multiphase fluid using light and photo-responsive
surfactants
L. Zhao, S. Seshadri, X. Liang, S.J. Bailey, M.J. Gordon, M.E. Helgeson, J. Read de Alanaz, P. Luzattatto-Fegiz, and Y. Zhu
ACS Cent. Sci. (2022), https://doi.org/10.1021/acscentsci.1c01127
L. Zhao, S. Seshadri, X. Liang, S.J. Bailey, M.J. Gordon, M.E. Helgeson, J. Read de Alanaz, P. Luzattatto-Fegiz, and Y. Zhu
ACS Cent. Sci. (2022), https://doi.org/10.1021/acscentsci.1c01127
Precise localization
of DBD plasma streamers using topographically patterned
insulators for maskless structural and chemical
modification of surfaces
O. Polonskyi, T. Hartig, J.R. Uzarski, and M.J. Gordon
Appl. Phys. Lett. 119, 211601 (2021).
O. Polonskyi, T. Hartig, J.R. Uzarski, and M.J. Gordon
Appl. Phys. Lett. 119, 211601 (2021).
Methane pyrolysis in
low-cost, alkali-halide molten salts at high
temperatures
C. Palmer, M. Tarazkar, M.J. Gordon, H. Metiu, and E.W. McFarland
Sustainable Energy & Fuels 5, 6107-6123 (2021).
C. Palmer, M. Tarazkar, M.J. Gordon, H. Metiu, and E.W. McFarland
Sustainable Energy & Fuels 5, 6107-6123 (2021).
Demonstration of
relaxed InGaN-based red LEDs grown with high active
region temperature
P. Chan, V. Rienzi, N. Lim, H-M. Chang, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Appl. Phys. Express 14 (10) 101002 (2021).
P. Chan, V. Rienzi, N. Lim, H-M. Chang, M.J. Gordon, S.P. DenBaars, and S. Nakamura
Appl. Phys. Express 14 (10) 101002 (2021).
The Initial Steps in CH4 Pyrolysis on Cu and Ni
J. Zeng, M. Tarazkar, C. Palmer, M.J. Gordon, H. Metiu, E.W. McFarland
J. Phys. Chem. C doi.org/10.1021/acs.jpcc.1c03606 (2021).
J. Zeng, M. Tarazkar, C. Palmer, M.J. Gordon, H. Metiu, E.W. McFarland
J. Phys. Chem. C doi.org/10.1021/acs.jpcc.1c03606 (2021).
Polymethylmethacrylate wettability change
spatially correlates with self-organized streamer
microdischarge patterns in dielectric barrier discharge
plasmas
O. Polonskyi, T. Hartig, J.R. Uzarski, and M.J. Gordon.
J. Vac. Sci. Tech. A 39(6), 063001 (2021). Editors Pick and Journal Cover
O. Polonskyi, T. Hartig, J.R. Uzarski, and M.J. Gordon.
J. Vac. Sci. Tech. A 39(6), 063001 (2021). Editors Pick and Journal Cover
Hierarchical colloid-based lithography for wettability
tuning of semiconductor surfaces
P. Shapturenka, P. Gaillard, L. Chan, O. Polonskyi, and M.J. Gordon. Editor's Pick
J. Vac. Sci. Tech. A 39(5) 053209 (2021).
P. Shapturenka, P. Gaillard, L. Chan, O. Polonskyi, and M.J. Gordon. Editor's Pick
J. Vac. Sci. Tech. A 39(5) 053209 (2021).
Demonstration of
ultra-small (10 micron) 632 nm red InGaN micro-LEDs
with useful on-wafer external quantum efficiency
(>0.2%) for mini-displays
S.S. Pasayat, C. Gupta, M.S.Wong, R. Ley, M.J. Gordon, S.P. DenBaars, S. Nakamura, S. Keller, U.K. Mishra
Appl. Phys. Exp. 14,1 011004 (2021).
S.S. Pasayat, C. Gupta, M.S.Wong, R. Ley, M.J. Gordon, S.P. DenBaars, S. Nakamura, S. Keller, U.K. Mishra
Appl. Phys. Exp. 14,1 011004 (2021).
CO2-Free Hydrogen
Production by Catalytic Pyrolysis of Hydrocarbon
Feedstocks in Molten Ni–Bi
C. Palmer, E. Bunyan, J. Gelinas, M.J. Gordon, H. Metiu, and E.W. McFarland
Energy Fuels 34(12), 16073–16080 (2020).
C. Palmer, E. Bunyan, J. Gelinas, M.J. Gordon, H. Metiu, and E.W. McFarland
Energy Fuels 34(12), 16073–16080 (2020).
Fabrication and
chemical lift-off of III-nitride nanoLEDs
L. Chan, T. Karmstrand, A. Chan, P. Shapturenka, D. Hwang, T.Margalith, S.P. DenBaars, and M.J. Gordon
Optics Express, 28(23), 35038-35046 (2020). https://doi.org/10.1364/OE.403299
L. Chan, T. Karmstrand, A. Chan, P. Shapturenka, D. Hwang, T.Margalith, S.P. DenBaars, and M.J. Gordon
Optics Express, 28(23), 35038-35046 (2020). https://doi.org/10.1364/OE.403299
Electrochemistry as a
Surrogate for Protein Phosphorylation:
Voltage-Controlled Assembly of Reflectin A1
S.P. Liang, R. Levenson, B. Malady, M.J. Gordon, D.E. Morse, and L. Sepunaru
J. Roy. Soc. Interface 17 20200774 (2020).
S.P. Liang, R. Levenson, B. Malady, M.J. Gordon, D.E. Morse, and L. Sepunaru
J. Roy. Soc. Interface 17 20200774 (2020).
Color-changing
refractive index sensor based on Fano-resonant filtering
of optical modes in a porous dielectric Fabry-Pérot
microcavity
P. Shapturenka, H. Stute, N.I. Zakaria, S.P. DenBaars, and M.J. Gordon
Optics Express, 28(19), 28226-28233 (2020).
P. Shapturenka, H. Stute, N.I. Zakaria, S.P. DenBaars, and M.J. Gordon
Optics Express, 28(19), 28226-28233 (2020).
Quasiordered,
subwavelength TiO2 hole arrays with tunable,
omnidirectional color response
P. Shapturenka, F. Birkholz, N.I. Zakaria, S.P. DenBaars, and M.J. Gordon
JVST A 38, 053403 (2020)
https://doi.org/10.1116/6.0000328.
Editor's Pick. SCILITE: https://doi.org/10.1063/10.0001739
P. Shapturenka, F. Birkholz, N.I. Zakaria, S.P. DenBaars, and M.J. Gordon
JVST A 38, 053403 (2020)
https://doi.org/10.1116/6.0000328.
Editor's Pick. SCILITE: https://doi.org/10.1063/10.0001739
Lift-Off of Semipolar
Blue and Green III-Nitride nanoLEDs Grown on
Free-Standing GaN
L. Chan, P. Shapturenka, C.D. Pynn, T. Margalith, S.P. DenBaars, and M.J. Gordon
Appl. Phys. Lett. 117, 021104 (2020). https://doi.org/10.1063/5.0013453
L. Chan, P. Shapturenka, C.D. Pynn, T. Margalith, S.P. DenBaars, and M.J. Gordon
Appl. Phys. Lett. 117, 021104 (2020). https://doi.org/10.1063/5.0013453
Direct Detection of
Gap Mode Plasmon Resonances using ATR-based Tip-Enhanced
Near-Field Optical Microscopy
A.L. Heilman, R.J. Hermann, and M.J. Gordon
J. of Optics 22(9), 095001 (2020).
A.L. Heilman, R.J. Hermann, and M.J. Gordon
J. of Optics 22(9), 095001 (2020).
Revealing the
importance of light extraction efficiency in InGaN/GaN
microLEDs via chemical treatment and dielectric
passivation
R. Ley, J.M. Smith, M.S. Wong, T. Margalith, S. Nakamura, S.P. DenBaars, and M.J. Gordon
Appl. Phys. Lett. 116, 251104 (2020). Editor's Pick.
R. Ley, J.M. Smith, M.S. Wong, T. Margalith, S. Nakamura, S.P. DenBaars, and M.J. Gordon
Appl. Phys. Lett. 116, 251104 (2020). Editor's Pick.
Color-tunable < 10
µm square InGaN micro-LEDs on compliant
GaN-on-porous-GaN pseudo-substrates
S.S. Pasayat, R. Ley,C. Gupta, M.S. Wong, C. Lynsky, Y. Wang, M.J. Gordon, S. Nakamura, S.P. DenBaars, S. Keller, and U. K. Mishra
Appl. Phys. Lett. 117, 061105 (2020).
S.S. Pasayat, R. Ley,C. Gupta, M.S. Wong, C. Lynsky, Y. Wang, M.J. Gordon, S. Nakamura, S.P. DenBaars, S. Keller, and U. K. Mishra
Appl. Phys. Lett. 117, 061105 (2020).
Catalytic Methane
Pyrolysis with Liquid and Vapor Phase Tellurium
J. Zeng, M. Tarazkar, T. Pennebaker, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Catalysis 10, 15, 8223–8230, (2020). https://doi.org/10.1021/acscatal.0c00805
J. Zeng, M. Tarazkar, T. Pennebaker, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Catalysis 10, 15, 8223–8230, (2020). https://doi.org/10.1021/acscatal.0c00805
Catalytic Methane
Pyrolysis in Molten Alkali Chloride Salts Containing
Iron
D. Kang, C. Palmer, D. Mannini, N. Rahimi, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Catalysis 10, 13, 7032–7042 (2020).
D. Kang, C. Palmer, D. Mannini, N. Rahimi, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Catalysis 10, 13, 7032–7042 (2020).
Molecular Oxygen
Activation on Suspended Doped Cerium(IV) Oxide Particles
in Molten Chloride Salts
B. Tangeysh, H. Metiu, M.J. Gordon, and E.W. McFarland
Catalysis Letters 150, 273–280 (2020).
B. Tangeysh, H. Metiu, M.J. Gordon, and E.W. McFarland
Catalysis Letters 150, 273–280 (2020).
Dry reforming of
methane catalysed by molten metal alloys
C. Palmer, D.C. Upham S. Smart, M.J. Gordon, H.Metiu, and E.W. McFarland
Nature Catalysis 3, 83–89 (2020).
C. Palmer, D.C. Upham S. Smart, M.J. Gordon, H.Metiu, and E.W. McFarland
Nature Catalysis 3, 83–89 (2020).
High-temperature
heterogeneous catalysis in platinum nanoparticle –
molten salt suspensions
B. Tangeysh, C. Palmer, H. Metiu, M.J. Gordon, and E.W. McFarland
Catal. Sci. Technol.10, 625-629 (2020).
B. Tangeysh, C. Palmer, H. Metiu, M.J. Gordon, and E.W. McFarland
Catal. Sci. Technol.10, 625-629 (2020).
Comparison of
size-dependent characteristics of blue and green InGaN
microLEDs down to 1 µm in diameter
J.M. Smith, R.Ley, M.S. Wong,Y. Baek, J. Kang, C.H. Kim, M.J. Gordon, S. Nakamura, J.S. Speck, and S.P. DenBaars
App. Phys. Lett. 116, 071102 (2020).
J.M. Smith, R.Ley, M.S. Wong,Y. Baek, J. Kang, C.H. Kim, M.J. Gordon, S. Nakamura, J.S. Speck, and S.P. DenBaars
App. Phys. Lett. 116, 071102 (2020).
Strain relaxation of
InGaN/GaN multi-quantum well light emitters via
nanopatterning
R. Ley, L.C. Chan, P. Shapturenka, M. Wong, S.P. DenBaars, and M.J. Gordon
Optics Express 27(21), 30081-30089 (2019).
R. Ley, L.C. Chan, P. Shapturenka, M. Wong, S.P. DenBaars, and M.J. Gordon
Optics Express 27(21), 30081-30089 (2019).
Atmospheric pressure
plasma deposition of hydrophilic/phobic patterns and
thin film laminates on any surface
A. Demaude, C. Poleunis, E. Goormaghtigh, P. Viville, R. Lazzaroni, A. Delcorte, M. Gordon, and F. Reniers
Langmuir (2019). DOI: 10.1021/acs. langmuir.9b00493
A. Demaude, C. Poleunis, E. Goormaghtigh, P. Viville, R. Lazzaroni, A. Delcorte, M. Gordon, and F. Reniers
Langmuir (2019). DOI: 10.1021/acs. langmuir.9b00493
Methane pyrolysis
with a molten Cu-Bi alloy catalyst
C. Palmer, M. Tarazkar, H. Kristoffersen, J. Gelinas, M.J. Gordon, E.W. McFarland, and H. Metiu
ACS Catalysis 9, 8337-8345 (2019).
C. Palmer, M. Tarazkar, H. Kristoffersen, J. Gelinas, M.J. Gordon, E.W. McFarland, and H. Metiu
ACS Catalysis 9, 8337-8345 (2019).
Solid carbon
production and recovery from high temperature methane
pyrolysis in bubble columns containing molten metals and
molten salts
N. Rahimi, D. Kang, J. Gelinas, A. Menon, M.J. Gordon, H. Metiu, and E.W. McFarland
Carbon 151, 181-191 (2019).
N. Rahimi, D. Kang, J. Gelinas, A. Menon, M.J. Gordon, H. Metiu, and E.W. McFarland
Carbon 151, 181-191 (2019).
Catalytic methane
pyrolysis in molten MnCl2-KCl
D. Kang, N. Rahimi, M.J. Gordon, H. Metiu, and E.W. McFarland
Applied Catalysis B 254, 659-666 (2019).
D. Kang, N. Rahimi, M.J. Gordon, H. Metiu, and E.W. McFarland
Applied Catalysis B 254, 659-666 (2019).
Bromine and Iodine
for Selective Partial Oxidation of Propane and Methane
D.C. Upham, H.H. Kristoffersen, Z.R. Snodgrass, M.J. Gordon, H. Metiu, and E.W. McFarland
Applied Catalysis A 580, 102-110 (2019).
D.C. Upham, H.H. Kristoffersen, Z.R. Snodgrass, M.J. Gordon, H. Metiu, and E.W. McFarland
Applied Catalysis A 580, 102-110 (2019).
Quantitative
comparison of plasmon resonances and field enhancements
of near-field optical antenna using FDTD simulations
R.J. Hermann and M.J. Gordon
Optics Express 26, 27668 (2018).
R.J. Hermann and M.J. Gordon
Optics Express 26, 27668 (2018).
Halogen-Mediated
Partial Combustion of Methane in Molten Salts To Produce
CO2-Free Power and Solid Carbon
D.C Upham, Z.R. Snodgrass, C. Palmer, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Sust. Chem. Eng. 6, 15673 (2018).
D.C Upham, Z.R. Snodgrass, C. Palmer, M.J. Gordon, H. Metiu, and E.W. McFarland
ACS Sust. Chem. Eng. 6, 15673 (2018).
Influence of blending
ratio and polymer matrix on the lasing properties of
perylenediimide dyes
R. Muñoz-Mármol, J.M. Villalvilla, P.G. Boj, J.A. Quintana, C. Vázquez, A. Anderson, M.J. Gordon, A. Sastre-Santos, F. Fernández-Lázaro, and M.A. Díaz-García
J. Phys. Chem. C 122 (43), 24896 (2018).
R. Muñoz-Mármol, J.M. Villalvilla, P.G. Boj, J.A. Quintana, C. Vázquez, A. Anderson, M.J. Gordon, A. Sastre-Santos, F. Fernández-Lázaro, and M.A. Díaz-García
J. Phys. Chem. C 122 (43), 24896 (2018).
Imaging
intermolecular exciton coupling in metal-free
phthalocyanine nanofilms using tip-enhanced near-field
optical microscopy
R.J. Hermann and M.J. Gordon
J. Phys. Chem. C 122 (26), 14796 (2018).
R.J. Hermann and M.J. Gordon
J. Phys. Chem. C 122 (26), 14796 (2018).
Chlorine Production
by HCl Oxidation in a Molten Chloride Salt Catalyst
S. Su, D. Mannini, H. Metiu, M.J. Gordon, and E.W. McFarland
Ind. & Eng. Chem. Res. 57, 7795 (2018).
S. Su, D. Mannini, H. Metiu, M.J. Gordon, and E.W. McFarland
Ind. & Eng. Chem. Res. 57, 7795 (2018).
Moth eye-inspired
anti-reflective surfaces for improved IR optical
systems & visible LEDs fabricated with colloidal
lithography and etching
L.C. Chan, D.E. Morse, and M.J. Gordon
Bioinspir. & Biomim. 13, 041001 (2018).
L.C. Chan, D.E. Morse, and M.J. Gordon
Bioinspir. & Biomim. 13, 041001 (2018).
Nanoscale optical
microscopy and spectroscopy using near-field probes
R. Hermann and M.J. Gordon
Ann. Rev. Chem. Bio. Eng. 9, 1 (2018).
R. Hermann and M.J. Gordon
Ann. Rev. Chem. Bio. Eng. 9, 1 (2018).
First-principles
investigation of competing magnetic interactions in
Heusler (Mn,Fe)Ru2Sn solid solutions
E. Decolvenaere, M.J. Gordon, R. Seshadri, and A. Van der Ven
Phys. Rev. B 96, 165109 (2017).
E. Decolvenaere, M.J. Gordon, R. Seshadri, and A. Van der Ven
Phys. Rev. B 96, 165109 (2017).
Biomimetic
nanostructures in ZnS and ZnSe provide broadband
anti-reflectivity
L. Chan, E.A. DeCuir, R. Fu, D.E. Morse, and M.J. Gordon
J. of Optics 19, 114007 (2017).
L. Chan, E.A. DeCuir, R. Fu, D.E. Morse, and M.J. Gordon
J. of Optics 19, 114007 (2017).
Oxygen evolution on
Fe-doped NiO electrocatalysts deposited via microplasma
A.C. Pebley, E. Decolvenaere, T.M. Pollock, and M.J. Gordon
Nanoscale 9, 15070-15082 (2017).
A.C. Pebley, E. Decolvenaere, T.M. Pollock, and M.J. Gordon
Nanoscale 9, 15070-15082 (2017).
Catalytic molten
metals for the direct conversion of methane to hydrogen
and separable carbon
D.C. Upham, Z.R. Snodgrass, A. Khechfe, V. Agarwal, M.J. Gordon, H. Metiu, and E.W. McFarland
Science 358, 917 (2017).
D.C. Upham, Z.R. Snodgrass, A. Khechfe, V. Agarwal, M.J. Gordon, H. Metiu, and E.W. McFarland
Science 358, 917 (2017).
Enhanced light
extraction from free-standing InGaN/GaN light emitters
using bio-inspired backside surface structuring
C.D. Pynn, L. Chan, F. Lora Gonzalez, A. Berry, D. Hwang, H. Wu, T. Margalith, D. Morse, S.P. Denbaars, and M.J. Gordon
Optics Express 25, 15778 (2017).
C.D. Pynn, L. Chan, F. Lora Gonzalez, A. Berry, D. Hwang, H. Wu, T. Margalith, D. Morse, S.P. Denbaars, and M.J. Gordon
Optics Express 25, 15778 (2017).
A comparative study
of the reduction of silver and gold salts in water by a
cathodic microplasma electrode
C. De Vos, J. Baneton, M. Witzke, J. Dille, S. Godet, M.J. Gordon, R.M. Sankaran, and F. Reniers
J. Phys. D: Applied Physics 50, 105206 (2017).
C. De Vos, J. Baneton, M. Witzke, J. Dille, S. Godet, M.J. Gordon, R.M. Sankaran, and F. Reniers
J. Phys. D: Applied Physics 50, 105206 (2017).
Fabrication and
optical behavior of graded-index, moth-eye
anti-reflective surfaces in CdTe
L. Chan, A. Goshal, E.A. DeCuir, Y.P. Chen, D.E Morse, and M.J. Gordon
J. Vac. Sci. Tech. B 35, 011201 (2017).
L. Chan, A. Goshal, E.A. DeCuir, Y.P. Chen, D.E Morse, and M.J. Gordon
J. Vac. Sci. Tech. B 35, 011201 (2017).
Molten salt chemical
looping for reactive separation of HBr in a
halogen-based natural gas conversion process
D.C. Upham, Z.R. Snodgrass, M.T. Zavareh, T.B. McConnaughy, M.J. Gordon, H. Metiu, and E. McFarland
Chem. Eng. Sci. 106C, 245 (2017).
D.C. Upham, Z.R. Snodgrass, M.T. Zavareh, T.B. McConnaughy, M.J. Gordon, H. Metiu, and E. McFarland
Chem. Eng. Sci. 106C, 245 (2017).
Microplasmas for
direct, substrate-independent deposition of
nanostructured metal oxides
K.E. Mackie, A.C. Pebley, M. Batala, J. Zhang, G. Stucky, and M.J. Gordon
Appl. Phys. Lett. 109, 033110 (2016).
K.E. Mackie, A.C. Pebley, M. Batala, J. Zhang, G. Stucky, and M.J. Gordon
Appl. Phys. Lett. 109, 033110 (2016).
Effect of annealing
on exchange bias and spin glass behavior in of biphasic
NiFe2O4/NiO thin films
A.C. Pebley, P.E. Fuks, T.M. Pollock, and M.J. Gordon
J. Mag. Mag. Matls. 419, 29 (2016).
A.C. Pebley, P.E. Fuks, T.M. Pollock, and M.J. Gordon
J. Mag. Mag. Matls. 419, 29 (2016).
Tip-enhanced near
field optical microscope with side-on and ATR-mode
sample excitation for nanoscale Raman imaging of
surfaces
A.L. Heilman and M.J. Gordon
J. Appl. Phys. 119, 223103 (2016).
A.L. Heilman and M.J. Gordon
J. Appl. Phys. 119, 223103 (2016).
Sub
diffraction-limited chemical imaging of patterned
phthalocyanine films using tip-enhanced near-field
optical microscopy
R. Hermann and M.J. Gordon
J. Raman Spectroscopy DOI: 10.1002/jrs.4968 (2016).
R. Hermann and M.J. Gordon
J. Raman Spectroscopy DOI: 10.1002/jrs.4968 (2016).
Wavelength-specific
forward scattering of light by Bragg-reflective
iridocytes in giant clams
A. Ghoshal, E. Eck, M.J. Gordon, and D.E. Morse
J. Royal Soc. Interface 13, 20160285 (2016).
A. Ghoshal, E. Eck, M.J. Gordon, and D.E. Morse
J. Royal Soc. Interface 13, 20160285 (2016).
Halogen-mediated
oxidative dehydrogenation of propane using iodine or
molten lithium iodide
D.C. Upham, M.J. Gordon, H. Metiu, and E. McFarland
Catalysis Letters, 10.1007/s10562-016-1701-1 (2016).
D.C. Upham, M.J. Gordon, H. Metiu, and E. McFarland
Catalysis Letters, 10.1007/s10562-016-1701-1 (2016).
Doped rhodium sulfide
and thiospinel hydrogen evolution and oxidation
electrocatalysts in strong acid electrolytes
N. Singh, M.J. Gordon, H. Metiu, and E. McFarland
J. Applied Electrochemistry 46, 497 (2016).
N. Singh, M.J. Gordon, H. Metiu, and E. McFarland
J. Applied Electrochemistry 46, 497 (2016).
Testing predictions
from density functional theory at finite temperatures:
beta 2-like ground states in Co-Pt
L. Decolvenaere, M.J. Gordon, and A. Van der Ven
Phys. Rev. B 92, 085119 (2015).
L. Decolvenaere, M.J. Gordon, and A. Van der Ven
Phys. Rev. B 92, 085119 (2015).
Enhancing
near-infrared light absorption in PtSi thin films for
Schottky barrier IR detectors using moth-eye surface
structures
Federico Lora Gonzalez and M.J. Gordon
Optics Letters 40(7) 1512 (2015).
Federico Lora Gonzalez and M.J. Gordon
Optics Letters 40(7) 1512 (2015).
A simple colloidal
lithography method to fabricate large-area moth-eye
anti-reflective structures on Si, Ge, and GaAs for IR
applications
F. Lora Gonzalez, L. Chan, A. Berry, D.E. Morse, and M.J. Gordon
J. Vac. Sci. Tech. B 32(5), 051213 (2014).
F. Lora Gonzalez, L. Chan, A. Berry, D.E. Morse, and M.J. Gordon
J. Vac. Sci. Tech. B 32(5), 051213 (2014).
Microplasma-based
growth of biphasic NiFe2O4-NiO nanogranular films for
exchange bias applications
A. Pebley, A. Peek, T. Pollock, and M.J. Gordon
Chem. Mater. 26(20), 6026–6032 (2014).
A. Pebley, A. Peek, T. Pollock, and M.J. Gordon
Chem. Mater. 26(20), 6026–6032 (2014).
Effect of silane
coupling agent chemistry on electrical breakdown across
hybrid organic-inorganic insulating films
R. Diebold, M.J. Gordon, and D. Clarke
ACS App. Mat. Interfaces 6(15), 11932 (2014).
R. Diebold, M.J. Gordon, and D. Clarke
ACS App. Mat. Interfaces 6(15), 11932 (2014).
Bio-inspired,
sub-wavelength surface structures for ultra-broadband,
omni-directional anti-reflection in the mid and far IR
F. Lora Gonzalez and M.J. Gordon
Optics Express 22, 12808-12816 (2014).
F. Lora Gonzalez and M.J. Gordon
Optics Express 22, 12808-12816 (2014).
Importance of diffuse
scattering phenomena in moth-eye arrays for broadband
infrared applications
F. Lora Gonzalez, D.E. Morse, and M.J. Gordon
Optics Letters 39, 13-16 (2014).
F. Lora Gonzalez, D.E. Morse, and M.J. Gordon
Optics Letters 39, 13-16 (2014).
Thin-film deposition
with high pressure capillary micro-discharges under
different supersonic flow and shock regimes
T.L. Koh and M.J. Gordon
J. Phys. D: Appl. Phys. 46, 495204 (2013).
T.L. Koh and M.J. Gordon
J. Phys. D: Appl. Phys. 46, 495204 (2013).
Slit-based supersonic
microplasma jets: Scalable sources for nanostructured
thin film deposition
T. Koh, I. Chiles, and M.J. Gordon
Appl. Phys. Lett. 103, 163115 (2013).
T. Koh, I. Chiles, and M.J. Gordon
Appl. Phys. Lett. 103, 163115 (2013).
Spray deposition of
nanostructured metal films using hydrodynamically
stabilized, high pressure microplasmas
T.L. Koh and M.J. Gordon
J. Vac. Sci. Technol. A 31, 061312 (2013) (Cover article).
T.L. Koh and M.J. Gordon
J. Vac. Sci. Technol. A 31, 061312 (2013) (Cover article).
Electronic structure
disorder, vibronic coupling, and charge transfer
excitons in poly(fluorene-alt-bithiophene):fullerene
films
I. Riisness and M.J. Gordon
Appl. Phys. Lett. 102, 113302 (2013).
I. Riisness and M.J. Gordon
Appl. Phys. Lett. 102, 113302 (2013).
Optical measures of
thermally induced chain ordering and oxidative damage in
polythiophene films
C. Carach and M.J. Gordon
J. Phys. Chem. B 117, 1950-1957 (2013).
C. Carach and M.J. Gordon
J. Phys. Chem. B 117, 1950-1957 (2013).
Growth of
nanostructured CuO thin films via microplasma-assisted,
reactive chemical vapor deposition at high pressures
T. Koh, E. O’Hara, and M.J. Gordon
J. Cryst. Growth 363, 69-75 (2012).
T. Koh, E. O’Hara, and M.J. Gordon
J. Cryst. Growth 363, 69-75 (2012).
Influence of
step-edge vs. terrace sites on temperature-dependent
C2H2 hydrogenation with Ag-doped Pt nanoparticles
L.C. Jones and M.J. Gordon
J. Phys. Chem. C 116, 23472-23476 (2012).
L.C. Jones and M.J. Gordon
J. Phys. Chem. C 116, 23472-23476 (2012).
Microplasma-based
synthesis of vertically aligned metal oxide
nanostructures
T.L. Koh, E.C. O’Hara, and M.J. Gordon
Nanotechnology 23, 425603 (2012).
T.L. Koh, E.C. O’Hara, and M.J. Gordon
Nanotechnology 23, 425603 (2012).
Quantitative
mechanical and electrical interrogation of nanomaterials
using scanning probe microscopy
R. Ramos and M.J. Gordon
in Application of Nanomaterials
Ch. 1, American Scientific Publishers, ISBN: 1-58883-181-7 (2012).
R. Ramos and M.J. Gordon
in Application of Nanomaterials
Ch. 1, American Scientific Publishers, ISBN: 1-58883-181-7 (2012).
Reflection-mode,
confocal, tip-enhanced Raman spectroscopy system for
scanning chemical microscopy of surfaces
R. Ramos and M.J. Gordon
Rev. Sci. Inst. 83, 093706 (2012).
R. Ramos and M.J. Gordon
Rev. Sci. Inst. 83, 093706 (2012).
Raman and low
temperature photoluminescence spectroscopy of polymer
disorder in bulk heterojunction solar cell films
C. Carach, I. Riisness, and M.J. Gordon
Appl. Phys. Lett. 101, 083302 (2012).
C. Carach, I. Riisness, and M.J. Gordon
Appl. Phys. Lett. 101, 083302 (2012).
Partial hydrogenation
of C2H2 on Ag-doped Pt
nanoparticles
L.C. Jones, Z. Buras, and M.J. Gordon
J. Phys. Chem. C 116, 12982 (2012).
L.C. Jones, Z. Buras, and M.J. Gordon
J. Phys. Chem. C 116, 12982 (2012).
Near-field artifacts
in tip-enhanced Raman spectroscopy
R. Ramos and M.J. Gordon
Appl. Phys. Lett. 100, 213111 (2012).
R. Ramos and M.J. Gordon
Appl. Phys. Lett. 100, 213111 (2012).
Spatially resolved
spectral mapping of phase mixing and charge transfer
excitons in bulk heterojunciton solar cell films
I. Riisness, C. Carach, and M.J. Gordon
Appl. Phys. Lett. 100, 073308 (2012).
I. Riisness, C. Carach, and M.J. Gordon
Appl. Phys. Lett. 100, 073308 (2012).
Mechanical
deformation and fracture of cantilevered silicon
nanowires
M.J. Gordon, T. Baron, F. Dhalluin, P. Gentile, and P. Ferret
Nanoletters 9(2), 529 (2009).
M.J. Gordon, T. Baron, F. Dhalluin, P. Gentile, and P. Ferret
Nanoletters 9(2), 529 (2009).
Gas-surface
reactions at high collision energies?
M.J. Gordon, X. Qin, A. Kutana, and K.P. Giapis
J. Am. Chem. Soc. 131, 1927 (2009).
M.J. Gordon, X. Qin, A. Kutana, and K.P. Giapis
J. Am. Chem. Soc. 131, 1927 (2009).
Metallic
nano-crystals for flash memories
J. Dufourcq, P. Mur, M.J. Gordon, S. Minoret, R. Coppard, and T. Baron
Mat. Sci & Eng. C 27, 1496 (2007).
J. Dufourcq, P. Mur, M.J. Gordon, S. Minoret, R. Coppard, and T. Baron
Mat. Sci & Eng. C 27, 1496 (2007).
Statistics of
electrical breakdown field in HfO2 and SiO2 from
millimeter to nanometer length scales
C. Sire, S. Blonkowski, M.J. Gordon, and T. Baron
Appl. Phys. Lett. 91, 242905 (2007).
C. Sire, S. Blonkowski, M.J. Gordon, and T. Baron
Appl. Phys. Lett. 91, 242905 (2007).
Evidence of
simultaneous double-electron promotion in F+ collisions
with surfaces
J. Mace, M.J. Gordon, and K.P. Giapis
Phys. Rev. Lett. 97, 257603 (2006).
J. Mace, M.J. Gordon, and K.P. Giapis
Phys. Rev. Lett. 97, 257603 (2006).
Si nanowire growth
and characterization using a microelectronics-compatible
catalyst: PtSi
T. Baron, M. Gordon, F. Dhalluin, C. Ternon, P. Ferret, and P. Gentile
Appl. Phys. Lett. 89, 233111 (2006).
T. Baron, M. Gordon, F. Dhalluin, C. Ternon, P. Ferret, and P. Gentile
Appl. Phys. Lett. 89, 233111 (2006).
Separation of
colloidal nanoparticles using capillary immersion forces
M.J. Gordon and D. Peyrade
Appl. Phys. Lett. 89, 053112 (2006).
M.J. Gordon and D. Peyrade
Appl. Phys. Lett. 89, 053112 (2006).
Neutralization of
hyperthermal Ne+ on metal surfaces
A. Kutana, M.J. Gordon, and K.P. Giapis
Nucl. Inst. Meth. B 248, 16 (2006).
A. Kutana, M.J. Gordon, and K.P. Giapis
Nucl. Inst. Meth. B 248, 16 (2006).
Direct observation
and localization of colloidal nanoparticles on patterned
surfaces by capillary forces
D. Peyrade, M. Gordon, G. Hyvert, K. Berton, and J. Tallal
Microelec. Eng. 83, 1521 (2006).
D. Peyrade, M. Gordon, G. Hyvert, K. Berton, and J. Tallal
Microelec. Eng. 83, 1521 (2006).
AFM characterization
of anti-sticking layers used in nanoimprint
J. Tallal, M. Gordon, K. Berton, and D. Peyrade
Microelec. Eng. 83, 851 (2006).
J. Tallal, M. Gordon, K. Berton, and D. Peyrade
Microelec. Eng. 83, 851 (2006).
Amplitude mode
electrostatic force microscopy in UHV: quantification of
nanocrystal charge storage
M.J. Gordon and T. Baron
Phys. Rev. B 72, 165420 (2005).
M.J. Gordon and T. Baron
Phys. Rev. B 72, 165420 (2005).
4 Inch lift-off by
trilayer nanoimprint lithography
J. Tallal, K. Berton, M. Gordon, and D. Peyrade
J. Vac. Sci. Tech. B 23, 2914 (2005).
J. Tallal, K. Berton, M. Gordon, and D. Peyrade
J. Vac. Sci. Tech. B 23, 2914 (2005).
Replication of sub-40
nm gap nanoelectrodes over an 8-in. substrate by
nanoimprint lithography
J. Tallal, D. Peyrade, F. Lazzarino, K. Berton, C. Perret, M. Gordon, C. Gourgon, and P. Schiavone
Microelec. Eng. 78-79, 676 (2005).
J. Tallal, D. Peyrade, F. Lazzarino, K. Berton, C. Perret, M. Gordon, C. Gourgon, and P. Schiavone
Microelec. Eng. 78-79, 676 (2005).
Charge exchange
mechanisms at the threshold of inelasticity in Ne+
collisions with surfaces
M.J. Gordon, J. Mace, and K.P. Giapis
Phys. Rev. A 72, 012904 (2005).
M.J. Gordon, J. Mace, and K.P. Giapis
Phys. Rev. A 72, 012904 (2005).
A low-energy ion
beamline scattering apparatus for surface science
investigations
M.J. Gordon and K.P. Giapis
Rev. Sci. Inst. 76, 083302 (2005).
M.J. Gordon and K.P. Giapis
Rev. Sci. Inst. 76, 083302 (2005).
Gas surface dynamics
and profile evolution during etching of silicon
G.S. Hwang, C.M. Anderson, M.J. Gordon, T.A. Moore, T.K. Minton, and K.P. Giapis
Phys. Rev. Lett. 77, 3049 (1996).
G.S. Hwang, C.M. Anderson, M.J. Gordon, T.A. Moore, T.K. Minton, and K.P. Giapis
Phys. Rev. Lett. 77, 3049 (1996).
Low-temperature
incineration of mixed wastes using bulk metal-oxide
catalysts
M.J. Gordon, S. Gaur, S. Kelkar, and R.M. Baldwin
Catalysis Today 28, 305 (1996).
M.J. Gordon, S. Gaur, S. Kelkar, and R.M. Baldwin
Catalysis Today 28, 305 (1996).