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Samuel M Goodman

Showing results (1-10 of 10) with videos related to

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Nanoscale|October 27, 2015
Long-range energy transfer in self-assembled quantum dot-DNA cascadesSamuel M Goodman, Albert Siu, Vivek Singh, et al.
The Journal of Physical Chemistry Letters|August 15, 2015
Low Exciton-Phonon Coupling, High Charge Carrier Mobilities, and Multiexciton Properties in Two-Dimensional Lead, Silver, Cadmium, and Copper Chalcogenide NanostructuresYuchen Ding, Vivek Singh, Samuel M Goodman, et al.
Journal of the American Chemical Society|February 16, 2011
Chemically reversible four-electron oxidation and reduction utilizing two inorganic functional groupsMichael Nippe, Samuel M Goodman, Charles G Fry, et al.
The Journal of Physical Chemistry Letters|August 18, 2015
Multiple Energy Exciton Shelves in Quantum-Dot-DNA NanobioelectronicsSamuel M Goodman, Vivek Singh, Josep Casamada Ribot, et al.
Nanoscale|September 27, 2014
Copper plasmonics and catalysis: role of electron-phonon interactions in dephasing localized surface plasmonsQi-C Sun, Yuchen Ding, Samuel M Goodman, et al.
Nature Materials|January 19, 2016
Photoexcited quantum dots for killing multidrug-resistant bacteriaColleen M Courtney, Samuel M Goodman, Jessica A McDaniel, et al.
ACS Biomaterials Science & Engineering|January 8, 2021
Isolating the <i>Escherichia coli</i> Transcriptomic Response to Superoxide Generation from Cadmium Chalcogenide Quantum DotsThomas R Aunins, Kristen A Eller, Colleen M Courtney, et al.
ACS Applied Bio Materials|January 12, 2022
Assessing Different Reactive Oxygen Species as Potential Antibiotics: Selectivity of Intracellular Superoxide Generation Using Quantum DotsMax Levy, Colleen M Courtney, Partha P Chowdhury, et al.
Frontiers in Chemistry|March 30, 2018
Designing Superoxide-Generating Quantum Dots for Selective Light-Activated NanotherapySamuel M Goodman, Max Levy, Fei-Fei Li, et al.
Science Advances|October 7, 2017
Potentiating antibiotics in drug-resistant clinical isolates via stimuli-activated superoxide generationColleen M Courtney, Samuel M Goodman, Toni A Nagy, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Nanoscale|October 27, 2015
Long-range energy transfer in self-assembled quantum dot-DNA cascadesSamuel M Goodman, Albert Siu, Vivek Singh, et al.
The Journal of Physical Chemistry Letters|August 15, 2015
Low Exciton-Phonon Coupling, High Charge Carrier Mobilities, and Multiexciton Properties in Two-Dimensional Lead, Silver, Cadmium, and Copper Chalcogenide NanostructuresYuchen Ding, Vivek Singh, Samuel M Goodman, et al.
Journal of the American Chemical Society|February 16, 2011
Chemically reversible four-electron oxidation and reduction utilizing two inorganic functional groupsMichael Nippe, Samuel M Goodman, Charles G Fry, et al.
The Journal of Physical Chemistry Letters|August 18, 2015
Multiple Energy Exciton Shelves in Quantum-Dot-DNA NanobioelectronicsSamuel M Goodman, Vivek Singh, Josep Casamada Ribot, et al.
Nanoscale|September 27, 2014
Copper plasmonics and catalysis: role of electron-phonon interactions in dephasing localized surface plasmonsQi-C Sun, Yuchen Ding, Samuel M Goodman, et al.
Nature Materials|January 19, 2016
Photoexcited quantum dots for killing multidrug-resistant bacteriaColleen M Courtney, Samuel M Goodman, Jessica A McDaniel, et al.
ACS Biomaterials Science & Engineering|January 8, 2021
Isolating the <i>Escherichia coli</i> Transcriptomic Response to Superoxide Generation from Cadmium Chalcogenide Quantum DotsThomas R Aunins, Kristen A Eller, Colleen M Courtney, et al.
ACS Applied Bio Materials|January 12, 2022
Assessing Different Reactive Oxygen Species as Potential Antibiotics: Selectivity of Intracellular Superoxide Generation Using Quantum DotsMax Levy, Colleen M Courtney, Partha P Chowdhury, et al.
Frontiers in Chemistry|March 30, 2018
Designing Superoxide-Generating Quantum Dots for Selective Light-Activated NanotherapySamuel M Goodman, Max Levy, Fei-Fei Li, et al.
Science Advances|October 7, 2017
Potentiating antibiotics in drug-resistant clinical isolates via stimuli-activated superoxide generationColleen M Courtney, Samuel M Goodman, Toni A Nagy, et al.
Pageof 1