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Nathan D. Bamberger
Nathan D. Bamberger
PhD Student in Physical Chemistry at The University of Arizona
Verified email at email.arizona.edu
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Cited by
Cited by
Year
Correlated energy-level alignment effects determine substituent-tuned single-molecule conductance
JA Ivie, ND Bamberger, KN Parida, S Shepard, D Dyer, A Saraiva-Souza, ...
ACS Applied Materials & Interfaces 13 (3), 4267-4277, 2021
242021
Unsupervised segmentation-based machine learning as an advanced analysis tool for single molecule break junction data
ND Bamberger, JA Ivie, KN Parida, DV McGrath, OLA Monti
The Journal of Physical Chemistry C 124 (33), 18302-18315, 2020
232020
Beyond Simple Structure–Function Relationships: The Interplay of Geometry, Electronic Structure, and Molecule/Electrode Coupling in Single-Molecule Junctions
ND Bamberger, D Dyer, KN Parida, TH El-Assaad, D Pursell, DV McGrath, ...
The Journal of Physical Chemistry C 126 (15), 6653-6661, 2022
62022
Grid-Based Correlation Analysis to Identify Rare Quantum Transport Behaviors
ND Bamberger, D Dyer, KN Parida, DV McGrath, OLA Monti
The Journal of Physical Chemistry C 125 (33), 18297-18307, 2021
62021
Atomistic Simulations of CO2 During “Trapdoor” Adsorption onto Na-Rho Zeolite
N Bamberger, D Kohen
Foundations of Molecular Modeling and Simulation: Select Papers from FOMMS …, 2016
32016
Effect of geometric isomerism on single molecule conductance in a gold mechanically-controlled break junction
TH El Assaad, K Parida, N Bamberger, D Dyer, O Monti, D McGrath
American Chemical Society SciMeetings 3 (1), 2022
2022
Beyond Simple Structure-Function Relationships: Interplay Between Cis/Trans Isomerization and Geometrically Constrained Metal/Molecule Coupling Efficiency in Single-Molecule …
ND Bamberger, D Dyer, KN Parida, TH El-Asssad, D Pursell, DV McGrath, ...
arXiv preprint arXiv:2202.00080, 2022
2022
Structure-Function Relationships and Advanced Data Analysis in Single Molecule Quantum Transport
N Bamberger
The University of Arizona, 2021
2021
Unsupervised Segmentation-Based Machine Learning as an Advanced Analysis Tool for Single Molecule Break Junction Data (vol 124, pg 18302, 2020)
ND Bamberger, JA Ivie, KN Parida, DV McGrath, OLA Monti
JOURNAL OF PHYSICAL CHEMISTRY C 124 (43), 24029-24031, 2020
2020
Single Molecule Quantum Transport in the Presence of Built-in Electric Fields-a Design Principle?
O Monti, J Ivie, N Bamberger, D Dyer
Bulletin of the American Physical Society 65, 2020
2020
Investigating Molecule-Electrode Binding in Single Molecule Junctions Using Linker Group Chemistry and Machine Learning
N Bamberger, J Ivie, R Himmelhuber, O Monti
APS March Meeting Abstracts 2019, B16. 002, 2019
2019
Towards Understanding Energy Level Alignment in Single Molecule Charge Transport with Break Junctions
J Ivie, N Bamberger, R Himmelhuber, O Monti
APS March Meeting Abstracts 2018, A15. 003, 2018
2018
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