R
Rueben J. Mendelsberg
Researcher at Lawrence Berkeley National Laboratory
Publications - 25
Citations - 1780
Rueben J. Mendelsberg is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Photoluminescence & Cathodic arc deposition. The author has an hindex of 18, co-authored 25 publications receiving 1609 citations. Previous affiliations of Rueben J. Mendelsberg include MacDiarmid Institute for Advanced Materials and Nanotechnology & Argonne National Laboratory.
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Journal ArticleDOI
Dynamically Modulating the Surface Plasmon Resonance of Doped Semiconductor Nanocrystals
Guillermo Garcia,Raffaella Buonsanti,Evan L. Runnerstrom,Rueben J. Mendelsberg,Anna Llordes,André Anders,Thomas J. Richardson,Delia J. Milliron +7 more
TL;DR: It is shown that the surface plasmons of tin-doped indium oxide nanocrystal films can be dynamically and reversibly tuned by postsynthetic electrochemical modulation of the electron concentration.
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Fluorographene: a wide bandgap semiconductor with ultraviolet luminescence.
Ki-Joon Jeon,Zonghoon Lee,Elad Pollak,Luca Moreschini,Aaron Bostwick,Cheol-Min Park,Rueben J. Mendelsberg,Velimir Radmilovic,Robert Kostecki,Thomas J. Richardson,Eli Rotenberg +10 more
TL;DR: It is shown that treatment of graphene with xenon difluoride produces a partially fluorinated graphene (fluorographene) with covalent C-F bonding and local sp(3)-carbon hybridization, suggesting the use of fluorographane as a new, readily prepared material for electronic, optoelectronic applications, and energy harvesting applications.
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Understanding the Plasmon Resonance in Ensembles of Degenerately Doped Semiconductor Nanocrystals
TL;DR: In this paper, the authors analyzed the effects of surface ligands on the localized surface plasmon resonance absorption of In2O3:Sn and Cu2-xSe nanocrystal dispersions.
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Plasma potential mapping of high power impulse magnetron sputtering discharges
TL;DR: In this paper, an unbalanced magnetron with a niobium target in argon was investigated for a pulse length of 100μs at a pulse repetition rate of 100 Hz, giving a peak current of 170
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Extracting reliable electronic properties from transmission spectra of indium tin oxide thin films and nanocrystal films by careful application of the Drude theory
TL;DR: In this paper, the transmittance and reflectance of transparent conducting oxide thin films and nanocrystal films are modeled using the Drude free electron theory to extract electrical transport properties if enough care is taken.