Yuejiang Liang
University of Würzburg
8 Papers
25 Citations
Yuejiang Liang is an academic researcher from University of Würzburg. The author has contributed to research in topics: Surface modification & Quantum technology. The author has an hindex of 8, co-authored 8 publications. Previous affiliations of Yuejiang Liang include University of Kiel.
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Papers
Biotinylated nanodiamond: simple and efficient functionalization of detonation diamond.
TL;DR: A simple and efficient method for the covalent functionalization of detonation nanodiamond is developed, which opens the way to covalently bonded diamond bioconjugates for labeling, drug delivery, and other applications.
213
Deagglomeration and functionalisation of detonation diamond
TL;DR: In this article, the authors present results on the production of primary particles of detonation diamond from strongly bound agglomerates using beads milling and the newly developed BASD (bead assisted sonic disintegration) method in various media.
139
Low temperature investigations and surface treatments of colloidal narrowband fluorescent nanodiamonds
Elke Neu,Felix Guldner,Carsten Arend,Yuejiang Liang,S. Ghodbane,H. Sternschulte,Doris Steinmueller-Nethl,Anke Krueger,Christoph Becher +8 more
TL;DR: In this article, a bead assisted sonic disintegration (BASD) of a polycrystalline chemical vapor deposition film was used to obtain fluorescence and Raman spectroscopy on colloidal nanodiamonds.
26
Cavity-Enhanced Single-Photon Source Based on the Silicon-Vacancy Center in Diamond
Julia Benedikter,Hanno Kaupp,Thomas Hümmer,Yuejiang Liang,Alexander Bommer,Christoph Becher,Anke Krueger,Jason M. Smith,Theodor W. Hänsch,David Hunger +9 more
TL;DR: In this paper, the fluorescence of individual silicon-vacancy centers in nanodiamonds is coupled to a tunable optical microcavity to demonstrate a single-photon source with high efficiency, increased emission rate, and improved spectral purity compared to the intrinsic emitter properties.
Surface functionalisation of detonation diamond suitable for biological applications
TL;DR: The organic functionalisation method for small detonation diamond agglomerates is reported, which is potentially useful for the synthesis of surface-bound peptides and for the attachment of biologically active building blocks, which could be used in drug delivery and fluorescence marker applications.