Carnegie Mellon University
Chemical Engineering

Recent papers

Enantiomer Adsorption in an Applied Magnetic Field: D- and L-Aspartic Acid on Ni(100)
Israel Journal of Chemistry 2022.
Kinetic Parameter Estimation for Catalytic H 2 –D 2 Exchange on Pd
Catalysis Letters 2022.
Dual decomposition pathways for L-aspartic acid on Ni(100)
Surface Science 2022, 717.
Simulating Segregation in a Ternary Cu-Pd-Au Alloy with Density Functional Theory, Machine Learning, and Monte Carlo Simulations
Journal of Physical Chemistry C 2022, 126 (4), 1800–1808.
Structure sensitive enantioselectivity on surfaces: Tartaric acid on all surfaces vicinal to Cu(111)
Materials Advances 2022, 3 (4), 2191–2199.
2D Ising Model for Enantiomer Adsorption on Achiral Surfaces: L-and D-Aspartic Acid on Cu(111)
Entropy 2022, 24 (4).
2D Ising Model for Adsorption-induced Enantiopurification of Racemates
ChemPhysChem 2021, 22 (2), 197–203.
Chirality Retention in Aqueous Propylene Oxide Hydration: Chirality of the Transition State
Israel Journal of Chemistry 2021, 61 (11-12), 743–749.
TEM-based study of oxidation of FeCo high moment alloy at elevated temperatures
Journal of Magnetism and Magnetic Materials 2021, 539.
An Account of Chiral Metal Surfaces and Their Enantiospecific Chemistry
Accounts of Materials Research 2021, 2 (11), 1024–1032.
Surface Structure-Sensitive Enantioselectivity: Aspartic Acid Reaction Kinetics on All Surfaces Vicinal to Cu(111)
Journal of Physical Chemistry C 2021, 125 (18), 9766–9773.
Breaking the barrier to biomolecule limit-of-detection via 3D printed multi-length-scale graphene-coated electrodes
Nature Communications 2021, 12 (1).
Deep reinforcement learning for predicting kinetic pathways to surface reconstruction in a ternary alloy
Machine Learning: Science and Technology 2021, 2 (4).
Enantiospecific equilibrium adsorption and chemistry of d-/l-proline mixtures on chiral and achiral Cu surfaces
Chirality 2020, 32 (2), 200–214.
Surface Segregation across Ternary Alloy Composition Space: Cu x Au y Pd 1-x-y
Journal of Physical Chemistry C 2020, 124 (19), 10605–10614.
Enhancing Thermal Interface Conductance to Graphene Using Ni-Pd Alloy Contacts
ACS Applied Materials and Interfaces 2020, 12 (30), 34317–34322.
Templated Growth of a Homochiral Thin Film Oxide
ACS Nano 2020, 14 (4), 4682–4688.
Chiral metal surfaces for enantioselective processes
Nature Materials 2020, 19 (9), 939–945.
Compression and decompression of structural tantalum films exposed to buffered hydrofluoric acid
Journal of Micromechanics and Microengineering 2020, 30 (5).
Chiral separation of rac-propylene oxide on penicillamine coated gold nps
Nanomaterials 2020, 10 (9), 1–8.
Steady-State Catalytic Decomposition of Aspartic Acid on Cu(111)
Journal of Physical Chemistry C 2019, 123 (13), 7594–7603.
Initiation of vacancy-mediated, surface explosion reactions: tartaric and aspartic acid on Cu Surfaces
Journal of Physical Chemistry C 2019, 123 (31), 18978–18985.
Kinetics and Mechanism of Aspartic Acid Adsorption and Its Explosive Decomposition on Cu(100)
Langmuir 2019, 35 (8), 2925–2933.
A Most Enantioselective Chiral Surface: Tartaric Acid on All Surfaces Vicinal to Cu(110)
Langmuir 2019, 35 (50), 16438–16443.
Chemical Reactions Impede Thermal Transport across Metal/β-Ga 2 O 3 Interfaces
Nano Letters 2019, 19 (12), 8533–8538.
High Performance Flexible Temperature Sensors via Nanoparticle Printing
ACS Applied Nano Materials 2019, 2 (5), 3280–3291.
Impact of metal adhesion layer diffusion on thermal interface conductance
Physical Review B 2019, 99 (11).
Chiral Autocatalysis and Mirror Symmetry Breaking
Catalysis Letters 2018, 148 (6), 1610–1621.
Micro-tribological performance of fullerene-like carbon and carbon-nitride surfaces
Tribology International 2018, 128, 104–112.
Suppression of B2 phase in Pd z Cu 1-z alloy thin films
Thin Solid Films 2018, 668, 50–55.
Detection of CuAuPd Phase Boundaries Using Core Level Shifts
Journal of Physical Chemistry B 2018, 122 (2), 764–769.
Kinetic Fingerprints of Catalysis by Subsurface Hydrogen
ACS Catalysis 2018, 8 (11), 10486–10497.
Enantiospecific adsorption and decomposition of d- and l-Asp mixtures on Cu(643) R &S
Chimia 2018, 72 (6), 404–410.
Enantiomer surface chemistry: Conglomerate: versus racemate formation on surfaces
Chemical Society Reviews 2017, 46 (24), 7787–7839.
Structure-sensitive enantiospecific adsorption on naturally chiral Cu(hkl) R&S surfaces
Journal of Physics Condensed Matter 2017, 29 (3).
High-throughput methods using composition and structure spread libraries
AIChE Journal 2016, 62 (11), 3826–3835.
High-throughput characterization of the effects of H 2 O vapour on early oxidation across Al x Fe y Ni 1 - x - y composition space
Corrosion Science 2016, 106, 61–81.
Enantiomeric separations of chiral pharmaceuticals using chirally modified tetrahexahedral Au nanoparticles
Surface Science 2016, 648, 29–34.
Xe adsorption site distributions on Pt(111), Pt(221) and Pt(531)
Surface Science 2016, 646, 83–89.
Competing forces in chiral surface chemistry: Enantiospecificity versus enantiomer aggregation
Journal of Physical Chemistry C 2016, 120 (48), 27285–27295.
Assessment of a High-Throughput Methodology for the Study of Alloy Oxidation using Al x Fe y Ni 1-x-y Composition Gradient Thin Films
ACS Combinatorial Science 2016, 18 (7), 425–436.
High-Throughput Screening Across Quaternary Alloy Composition Space: Oxidation of (Al x Fe y Ni 1-x-y ) ∼0.8 Cr ∼0.2
ACS Combinatorial Science 2016, 18 (9), 559–568.
Atomic-Scale Picture of the Composition, Decay, and Oxidation of Two-Dimensional Radioactive Films
ACS Nano 2016, 10 (2), 2152–2158.
Chiral nanoscale pores created during the surface explosion of tartaric acid on Cu(111)
Chemical Communications 2016, 52 (99), 14282–14285.
Influence of step faceting on the enantiospecific decomposition of aspartic acid on chiral Cu surfaces vicinal to Cu{111}
Chemical Communications 2016, 52 (75), 11263–11266.
Explosive enantiospecific decomposition of aspartic acid on Cu surfaces
Chemical Communications 2016, 52 (98), 14125–14128.
Thermal interface conductance across metal alloy-dielectric interfaces
Physical Review B 2016, 93 (3).

더보기