Seit 2018
Patentanwaltskandidatin bei df-mp
Danielle Schiffels
Patentanwaltskandidatin
Ph.D. B.Sc.
Dr. Danielle Schiffels unterstützt uns seit 2018 als Patentanwaltskandidatin bei europäischen und deutschen Patent-Anmeldeverfahren, Einspruchsverfahren und Patentstreitverfahren. Ihre interdiziplinäres Fachwissen umfasst die Bereiche Chemie, Biologie und Mathematik.
+ 49 89 210 296 0
danielle.schiffels@df-mp.com
Dr. Danielle Schiffels unterstützt uns seit 2018 als Patentanwaltskandidatin bei europäischen und deutschen Patent-Anmeldeverfahren, Einspruchsverfahren und Patentstreitverfahren. Ihre interdiziplinäres Fachwissen umfasst die Bereiche Chemie, Biologie und Mathematik.
Tätigkeit.
Lebenslauf.
2015-2017
Postdoktorand am Materials Research Laboratory am National Institute of Standards and Technology (NIST) in Gaithersburg, Maryland, USA
2014-2015
Wissenschaftlerin bei Scanogen in Baltimore, Maryland, USA
2013
Promotion an der University of California Santa Barbara im Bereich Physikalische Chemie mit Thema “Correlating Optical and Physical Properties of Few-Atom, Fluorescent Silver Clusters”
2008
Studium der Chemie, Biologie und Angewandter Mathematik an der University of Rhode Island, Abschluss Bachelor of Science (Summa Cum Laude)
Publikationen.
D.E. Schultz, S.M. Copp, N. Markešević, K. Gardner, S.S.R. Oemrawsingh, D. Bouwmeester and E.G. Gwinn, “Dual-Color Nanoscale Assemblies of Structurally Stable, Few-Atom Silver Clusters, as Reported by Fluorescence Resonance Energy Transfer.” ACS Nano, 2013, 7, 9798.
D. Schultz, K. Gardner, S. Oemrawsingh, N. Markešević, K. Olsson, M. Debord, D. Bouwmeester and E.G. Gwinn, “Evidence for Rod-Shaped DNA-Stabilized Silver Nano‑cluster Emitters.” Adv. Mater., 2013, 25, 2757. Cover Article
D. Schultz and E.G. Gwinn, “Silver Atom and Strand Numbers in Fluorescent and Dark Ag:DNAs.” Chem. Comm., 2012, 48, 5748.
D. Schultz and E.G. Gwinn, “Stabilization of Fluorescent Silver Clusters by RNA Homopolymers and their DNA Analogs: C,G versus A,T(U) Dichotomy.” Chem. Comm., 2011, 47, 4715.
S. M. Copp, D. Schultz, S. Swasey, J. Pavlovich, M. Debord, A. Chiu, K. Olsson, and E. Gwinn, “Magic Numbers in DNA-Stabilized Fluorescent Silver Clusters Lead to Magic Colors”, J. Phys. Chem. Lett., 2014, 5, 6, 959.
S. M. Swasey, N. Karimova, C.M. Aikens, D.E. Schultz, A.J. Simon, and E.G. Gwinn, “Chiral Electronic Transitions in Fluorescent Silver Clusters Stabilized by DNA”, ACS Nano,2014, 8, 6883.
N. Markešević, S. Oemrawsingh, D. Schultz, E.G. Gwinn and D. Bouwmeester, “Polarization Resolved Measurements of Individual DNA-Stabilized Silver Clusters”, Adv. Opt. Mater., 2014, 2, 765.
K. Afonin, D. Schultz, L. Jaeger, E.G. Gwinn, and B.A. Shapiro, “Silver Nanoclusters for RNA Nanotechnology: Steps Toward Visualization and Tracking RNA Nanoparticle Assemblies.” RNA Nanotechnology and Therapeutics: Methods in Molecular Biology, 2015, 1297, 69.
E.G. Gwinn, D. Schultz, S.M. Copp and S. Swasey, “DNA-Protected Silver Clusters for Nanophotonics”, Nanomaterials, 2015, 5, 180.
S. M. Copp, D. Schultz, S. Swasey and E.G. Gwinn, “Atomically Precise Arrays of Fluorescent Silver Clusters: a modular approach for metal photonics on DNA nanostructures”, ACS Nano, 2015, 9, 2303.
S. M. Copp, D. Schultz, S. Swasey, A. Faris and E.G. Gwinn, “Cluster Plasmonics: dielectric and shape effects on DNA-stabilized silver clusters”, Nano Letters, 2016, 16, 3594.
A. Celedon, S.R.K Murthy, Z. Xu, D.E. Schultz, T. Horn. “Detection Units and Methods for Detecting a Target Analyte. WO 2015/120147.
