Cikkek nyilvánosan hozzáférhető megbízással - Jeffrey MativetskyTovábbi információ
Sehol sem hozzáférhető: 12
Azobenzenes as light-controlled molecular electronic switches in nanoscale metal− molecule− metal junctions
JM Mativetsky, G Pace, M Elbing, MA Rampi, M Mayor, P Samorì
Journal of the American Chemical Society 130 (29), 9192-9193, 2008
Megbízások: Swiss National Science Foundation, German Research Foundation
Based Mechanical Sensors Enabled by Folding and Stacking
T Yang, JM Mativetsky
ACS applied materials & interfaces 11 (29), 26339-26345, 2019
Megbízások: US National Science Foundation
How Reliable Are Raman Spectroscopy Measurements of Graphene Oxide?
JS Mehta, AC Faucett, A Sharma, JM Mativetsky
The Journal of Physical Chemistry C 121 (30), 16584-16591, 2017
Megbízások: US National Science Foundation
Orientation Control of Solution-Processed Organic Semiconductor Crystals To Improve Out-of-Plane Charge Mobility
X Bai, K Zong, J Ly, JS Mehta, M Hand, K Molnar, S Lee, B Kahr, ...
Chemistry of Materials 29 (17), 7571-7578, 2017
Megbízások: US National Science Foundation
Elucidating the Role of Ion Migration and Band Bending in Perovskite Solar Cell Function at Grain Boundaries via Multimodal Nanoscale Mapping
H Qiu, JM Mativetsky
Advanced Materials Interfaces 8 (9), 2001992, 2021
Megbízások: US National Science Foundation
In-Plane Pathways Facilitate Out-of-Plane Charge Transport in Organic Solar Cell Active Layers
JS Mehta, JM Mativetsky
ACS Applied Energy Materials 1 (10), 5656-5662, 2018
Megbízások: US National Science Foundation, US National Institutes of Health
Nanoscale Insight into Performance Loss Mechanisms in P3HT: ZnO Nanorod Solar Cells
H Qiu, JH Shim, J Cho, JM Mativetsky
ACS Applied Energy Materials 1 (11), 6172-6180, 2018
Megbízások: US National Science Foundation
Targeted deposition of organic semiconductor stripes onto rigid, flexible, and three-dimensional substrates
T Yang, JS Mehta, AM Haruk, JM Mativetsky
Journal of Materials Chemistry C 6 (12), 2970-2977, 2018
Megbízások: US National Science Foundation, US National Institutes of Health
Tuning Organic Semiconductor Alignment and Aggregation via Nanoconfinement
AM Haruk, CZ Leng, PS Fernando, DM Smilgies, YL Loo, JM Mativetsky
The Journal of Physical Chemistry C 124 (41), 22799-22807, 2020
Megbízások: US National Science Foundation
Unambiguous Measurement of Local Hole Current in Organic Semiconductors Using Conductive Atomic Force Microscopy
PS Fernando, JM Mativetsky
The Journal of Physical Chemistry C 127 (20), 9903-9910, 2023
Megbízások: US National Science Foundation
Freeing Organic Semiconductor Nanowires from Nanoporous Aluminum Oxide Templates: Effects on Morphology, Crystal Structure, and Molecular Aggregation
AM Haruk, PS Fernando, DM Smilgies, JM Mativetsky
Crystal Growth & Design 21 (2), 721-728, 2021
Megbízások: US National Science Foundation
Remarkable Electrical Connectivity in the Acceptor Phase of Y6-and Fullerene-Based Bulk Heterojunction Solar Cells
PS Fernando, JM Mativetsky
ACS Applied Energy Materials 6 (21), 10951-10960, 2023
Megbízások: US National Science Foundation
Valahol hozzáférhető: 12
Face-on stacking and enhanced out-of-plane hole mobility in graphene-templated copper phthalocyanine
JM Mativetsky, H Wang, SS Lee, L Whittaker-Brooks, YL Loo
Chemical Communications 50 (40), 5319-5321, 2014
Megbízások: US National Institutes of Health
Evolution, structure, and electrical performance of voltage-reduced graphene oxide
AC Faucett, JN Flournoy, JS Mehta, JM Mativetsky
FlatChem 1, 42-51, 2017
Megbízások: US National Science Foundation
High-resolution charge carrier mobility mapping of heterogeneous organic semiconductors
SW Button, JM Mativetsky
Applied Physics Letters 111 (8), 083302, 2017
Megbízások: US National Science Foundation
Sputtered ZnO seed layer enhances photovoltaic behavior in hybrid ZnO/P3HT solar cells
L Whittaker-Brooks, JM Mativetsky, A Woll, D Smilgies, YL Loo
Organic Electronics 14 (12), 3477-3483, 2013
Megbízások: US National Institutes of Health
Nanoscale light-and voltage-induced lattice strain in perovskite thin films
H Qiu, JM Mativetsky
Nanoscale 13 (2), 746-752, 2021
Megbízások: US National Science Foundation
Voltage-reduced low-defect graphene oxide: a high conductivity, near-zero temperature coefficient of resistance material
KW Silverstein, CE Halbig, JS Mehta, A Sharma, S Eigler, JM Mativetsky
Nanoscale 11 (7), 3112-3116, 2019
Megbízások: US National Science Foundation, German Research Foundation
Mapping the Competition between Exciton Dissociation and Charge Transport in Organic Solar Cells
SJ Oh, J Kim, JM Mativetsky, YL Loo, CR Kagan
ACS Applied Materials & Interfaces 8 (42), 28743-28749, 2016
Megbízások: US National Science Foundation
Effective charge collection area during conductive and photoconductive atomic force microscopy
H Qiu, X Dong, JH Shim, J Cho, JM Mativetsky
Applied Physics Letters 112 (26), 263102, 2018
Megbízások: US National Science Foundation
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