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Anke Krueger
Researcher at University of Würzburg
Publications - 83
Citations - 6055
Anke Krueger is an academic researcher from University of Würzburg. The author has contributed to research in topics: Nanodiamond & Diamond. The author has an hindex of 29, co-authored 77 publications receiving 5369 citations. Previous affiliations of Anke Krueger include Conrad Hotels & University of Kiel.
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Nanoscale imaging magnetometry with diamond spins under ambient conditions
Gopalakrishnan Balasubramanian,I. Y. Chan,I. Y. Chan,Roman Kolesov,Mohannad Al-Hmoud,Julia Tisler,Chang S. Shin,Changdong Kim,Aleksander K. Wójcik,Philip R. Hemmer,Anke Krueger,Tobias Hanke,Alfred Leitenstorfer,Rudolf Bratschitsch,Fedor Jelezko,Jörg Wrachtrup +15 more
TL;DR: This work shows how magneto-optical spin detection can be used to determine the location of a spin associated with a single nitrogen-vacancy centre in diamond with nanometre resolution under ambient conditions, and demonstrates the use of a single diamond spin as a scanning probe magnetometer to map nanoscale magnetic field variations.
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Functionality is Key: Recent Progress in the Surface Modification of Nanodiamond
Anke Krueger,Daniel Lang +1 more
TL;DR: Recent achievements in the field of surface modification of nanoscale diamond including the establishment of a homogeneous initial surface termination, the covalent and non‐covalent immobilization of different functional moieties as well as the subsequent grafting of larger (bio)molecules onto previously functionalized nanodiamond are discussed.
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New Carbon Materials: Biological Applications of Functionalized Nanodiamond Materials
TL;DR: The surface structure and functionalisation of diamond nanoparticles are discussed, non-covalent as well as covalent grafting of bioactive moieties is possible, and first applications of fluorescent diamond nanop particles are described.
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The structure and reactivity of nanoscale diamond
TL;DR: The surface structure of nanodiamond allows for the investigation of chemical modifications of the particle surface leading to new materials for composite, biomedical or electronic applications as discussed by the authors, which is another form of carbon nanomaterials with unique properties and applications.
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Diamond Nanoparticles: Jewels for Chemistry and Physics
TL;DR: In this paper, a broad range of applications in composites, biological systems, electronics, and surface technology are discussed. But their synthesis is usually carried out by explosion or shock wave methods.