Tobias Kraus
Tobias Kraus
INM - Leibniz-Institute for New Materials
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Cited by
Cited by
Nanoparticle printing with single-particle resolution
T Kraus, L Malaquin, H Schmid, W Riess, ND Spencer, H Wolf
Nature nanotechnology 2 (9), 570-576, 2007
Controlled particle placement through convective and capillary assembly
L Malaquin, T Kraus, H Schmid, E Delamarche, H Wolf
Langmuir 23 (23), 11513-11521, 2007
X-ray imaging with scintillator-sensitized hybrid organic photodetectors
P Büchele, M Richter, SF Tedde, GJ Matt, GN Ankah, R Fischer, M Biele, ...
Nature Photonics 9 (12), 843-848, 2015
Templated self-assembly of ultrathin gold nanowires by nanoimprinting for transparent flexible electronics
JHM Maurer, L González-García, B Reiser, I Kanelidis, T Kraus
Nano letters 16 (5), 2921-2925, 2016
Supraparticles: functionality from uniform structural motifs
S Wintzheimer, T Granath, M Oppmann, T Kister, T Thai, T Kraus, N Vogel, ...
ACS nano 12 (6), 5093-5120, 2018
High‐resolution inkjet printing of quantum dot light‐emitting microdiode arrays
P Yang, L Zhang, DJ Kang, R Strahl, T Kraus
Advanced Optical Materials 8 (1), 1901429, 2020
Mechanism and determinants of nanoparticle penetration through human skin
HI Labouta, LK El-Khordagui, T Kraus, M Schneider
Nanoscale 3 (12), 4989-4999, 2011
Hierarchical bioinspired adhesive surfaces—a review
D Brodoceanu, CT Bauer, E Kroner, E Arzt, T Kraus
Bioinspiration & biomimetics 11 (5), 051001, 2016
Colloidal stability of apolar nanoparticles: The role of particle size and ligand shell structure
T Kister, D Monego, P Mulvaney, A Widmer-Cooper, T Kraus
ACS nano 12 (6), 5969-5977, 2018
Scaled-out multilayer gas− liquid microreactor with integrated velocimetry sensors
N De Mas, A Günther, T Kraus, MA Schmidt, KF Jensen
Industrial & engineering chemistry research 44 (24), 8997-9013, 2005
Maximizing transfection efficiency of vertically aligned silicon nanowire arrays
R Elnathan, B Delalat, D Brodoceanu, H Alhmoud, FJ Harding, K Buehler, ...
Advanced Functional Materials 25 (46), 7215-7225, 2015
Printing chemical gradients
T Kraus, R Stutz, TE Balmer, H Schmid, L Malaquin, ND Spencer, H Wolf
Langmuir 21 (17), 7796-7804, 2005
Closing the gap between self‐assembly and microsystems using self‐assembly, transfer, and integration of particles
T Kraus, L Malaquin, E Delamarche, H Schmid, ND Spencer, H Wolf
Advanced Materials 17 (20), 2438-2442, 2005
Gold nanoparticle penetration and reduced metabolism in human skin by toluene
HI Labouta, DC Liu, LL Lin, MK Butler, JE Grice, AP Raphael, T Kraus, ...
Pharmaceutical research 28, 2931-2944, 2011
Flexible pseudocapacitive electrochromics via inkjet printing of additive‐free tungsten oxide nanocrystal ink
L Zhang, D Chao, P Yang, L Weber, J Li, T Kraus, HJ Fan
Advanced energy materials 10 (17), 2000142, 2020
Nanoparticle clusters with Lennard-Jones geometries
J Lacava, P Born, T Kraus
Nano letters 12 (6), 3279-3282, 2012
A MACEing silicon: Towards single-step etching of defined porous nanostructures for biomedicine
H Alhmoud, D Brodoceanu, R Elnathan, T Kraus, NH Voelcker
Progress in materials science 116, 100636, 2021
Gold nanorods with conjugated polymer ligands: sintering-free conductive inks for printed electronics
B Reiser, L Gonzalez-Garcia, I Kanelidis, JHM Maurer, T Kraus
Chemical science 7 (7), 4190-4196, 2016
Formation mechanism for stable hybrid clusters of proteins and nanoparticles
ST Moerz, A Kraegeloh, M Chanana, T Kraus
ACS nano 9 (7), 6696-6705, 2015
Kinetic control over self-assembly of semiconductor nanoplatelets
R Momper, H Zhang, S Chen, H Halim, E Johannes, S Yordanov, D Braga, ...
Nano Letters 20 (6), 4102-4110, 2020
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