Anton Plech
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Explore the profile of Anton Plech including associated specialties, affiliations and a list of published articles.
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Articles
35
Citations
249
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Recent Articles
1.
Tack M, Plech A, Reichenberger S
Chemphyschem
. 2024 Aug;
25(23):e202400121.
PMID: 39132832
Surfactant-free nanoparticles can be adsorbed on a support material by electrostatic deposition which requires electrostatic attraction between the nanoparticles and the support material. However, when nanoparticles and support have a...
2.
Plech A, Tack M, Huang H, Arefev M, Ziefuss A, Levantino M, et al.
ACS Nano
. 2024 Apr;
18(15):10527-10541.
PMID: 38567906
Laser fragmentation in liquids has emerged as a promising green chemistry technique for changing the size, shape, structure, and phase composition of colloidal nanoparticles, thus tuning their properties to the...
3.
Krause B, Abadias G, Babonneau D, Michel A, Resta A, Coati A, et al.
ACS Appl Mater Interfaces
. 2023 Feb;
15(8):11268-11280.
PMID: 36791093
Ohmic or Schottky contacts in micro- and nanoelectronic devices are formed by metal-semiconductor bilayer systems, based on elemental metals or thermally more stable metallic compounds (germanides, silicides). The control of...
4.
Ziefuss A, Steenbock T, Benner D, Plech A, Gottlicher J, Teubner M, et al.
Adv Mater
. 2021 Jun;
33(31):e2101549.
PMID: 34165866
Fully inorganic, colloidal gold nanoclusters (NCs) constitute a new class of nanomaterials that are clearly distinguishable from their commonly studied metal-organic ligand-capped counterparts. As their synthesis by chemical methods is...
5.
Reich S, Gottlicher J, Ziefuss A, Streubel R, Letzel A, Menzel A, et al.
Nanoscale
. 2020 Jun;
12(26):14011-14020.
PMID: 32579650
Pulsed laser ablation in liquids is a hierarchical multi-step process to produce pure inorganic nanoparticle colloids. Controlling this process is hampered by the partial understanding of individual steps and structure...
6.
Mikhaylov A, Reich S, Zakharova M, Vlnieska V, Laptev R, Plech A, et al.
J Synchrotron Radiat
. 2020 May;
27(Pt 3):788-795.
PMID: 32381782
Different approaches of 2D lens arrays as Shack-Hartmann sensors for hard X-rays are compared. For the first time, a combination of Shack-Hartmann sensors for hard X-rays (SHSX) with a super-resolution...
7.
Ziefuss A, Reich S, Reichenberger S, Levantino M, Plech A
Phys Chem Chem Phys
. 2020 Feb;
22(9):4993-5001.
PMID: 32096812
Fragmentation of colloidal 54 nm gold nanoparticles by picosecond laser pulses is recorded by time-resolved X-ray scattering, giving access to structural dynamics down to a 80 ps resolution. Lattice temperature...
8.
Zakharova M, Reich S, Mikhaylov A, Vlnieska V, Rolo T, Plech A, et al.
Opt Lett
. 2019 May;
44(9):2306-2309.
PMID: 31042210
In this Letter, we present the application of the inverted Hartmann mask for time-resolved single-shot phase-contrast x-ray imaging. The inverted Hartmann mask is a periodic array of free-standing gold pillars....
9.
Plech A, Krause B, Baumbach T, Zakharova M, Eon S, Girmen C, et al.
Nanomaterials (Basel)
. 2019 Apr;
9(4).
PMID: 30939755
High time resolution in scattering analysis of thin films allows for determination of thermal conductivity by transient pump-probe detection of dissipation of laser-induced heating, TDXTS. We describe an approach that...
10.
Reich S, Letzel A, Menzel A, Kretzschmar N, Gokce B, Barcikowski S, et al.
Nanoscale
. 2019 Mar;
11(14):6962-6969.
PMID: 30916056
The size and crystallinity of gold and silver nanoparticles during the process of pulsed laser ablation in water (PLAL) is investigated with microsecond and sub-microsecond time resolution. While basic observations...