Self-Avoiding Modes of Motion in a Deterministic Lorentz Lattice Gas

We study the motion of a particle on the two-dimensional honeycomb lattice, whose sites are occupied by either flipping rotators or flipping mirrors, which scatter the particle according to a deterministic rule. For both types of scatterers we find a new type of motion that has not been observed in a Lorentz Lattice gas, where the particle's trajectory is a self-avoiding walk between returns to its initial position. We show that this behavior is a consequence of the deterministic scattering rule and the particular class of initial scatterer configurations we consider. Since self-avoiding walks are one of the main tools used to model the growth of crystals and polymers, the particle's motion in this class of systems is potentially important for the study of these processes.Comment: 32 pages, 18 figure

Transport in Poygonal Billiard Systems

The aim of this work is to explore the connections between chaos and diffusion by examining the properties of particle motion in non-chaotic systems. To this end, particle transport and diffusion are studied for point particles moving in systems with fixed polygonal scatterers of four types: (i) a periodic lattice containing many-sided polygonal scatterers; (ii) a periodic lattice containing few-sided polygonal scatterers; (iii) a periodic lattice containing randomly oriented polygonal scatterers; and (iv) a periodic lattice containing polygonal scatterers with irrational angles. The motion of a point particle in each of these system is non-chaotic, with Lyapunov exponents strictly equal to zero

Biologization, Nanotechnology, Simulation: Proceedings of the 1st Joint PhD Conference on Material Science:: from 27.6.-1.7.2022 in Dresden/ Germany and Usti/Česká republika

Materials scientists from Ústí nad Labem and Dresden met in June of 2022 for the first joint PhD Conference on Material Science, with the special focus on biologization, nanotechnology and simulation. The conference aimed to encourage interdisciplinary exchange between Čzech and German research institutes and promote transnational cooperation on an international level along the Saxon- Čzech border. Due to the restrictions caused by the corona pandemic, several attempts were necessary before the conference, which was first planned in 2020, could finally take place for the first time in 2022. The conference could take place in presence, which was seen as a big plus by all participants, especially as it was the first meeting in this German - Čzech context for most of the participants. The attending scientists (about 60) met at the Institute of Material Science of TU Dresden in Germany for the first half of the week before the conference moved to the faculties of Science and Environment of the Jan Evangelista Purkyně University UJEP in Ústí nad Labem in Čzechia. The organized activities ranged from scientific presentations of current PhD projects and research topics, lab tours in the participating institutions, come-together events such as a guided tour at the dye collection of the TU Dresden and a hiking trip to Bohemian Switzerland. The conference was funded by INTERREG VA Saxony - Čzech Republic - a cooperation programme of the Elbe/Labe region. All participants - PhD students, scientists and staff members of the participating institutions - enjoyed this opportunity to build individual and new contacts, exchange information on current research topics and methods, find starting points for future collaborations between the different research areas and institutions and also discuss the similarities and differences between the German and Čzech research landscape. The purpose of this brochure is to present the institutions with their special topics and laboratories and to present current research topics - on the base of the presented PhD projects.:1 Introduction 2 1.1 Committees 5 2 Presentation of the participating institutes and chairs 5 2.1 Jan Evangelista Purkyně University in Ústí nad Labem 6 2.1.1 Faculty of Science 6 2.1.2 Faculty of Environment 12 2.2 Technische Universität Dresden 17 2.2.1 Institute of Material Science 17 2.3 Fraunhofer Institute for Ceramic Technologies and Systems IKTS 19 2.3.1 Department Bio- and Nanotechnology at IKTS 19 2.4 Institute for Complex Materials, Leibniz-IFW Dresden 21 2.5 TRANS³Net 22 3 Presentation of the PhD topics 23 3.1 Topic: BIOLOGIZATION 23 3.1.1 Ludovico Andrea Alberta: Exploring the effect of Cu additions on the mechanical behaviour of β-TiNb biomaterials 23 3.1.2 Franziska Alt: Formation of a microenvironment for directed differentiation of stem cells in a perfusion bioreactor 25 3.1.3 Dmitry Belyaev: Circular microfluidic systems for electro-chemical continuous monitoring of bio-chemicals in emulsion droplets 27 3.1.4 Constantin Ißleib: Dynamic osteoimmunological crosstalk in a bone replacement context 28 3.1.5 Adela Jagerová: Surface Modification by High-Energy Heavy-Ion Irradiation in Various Crystalline ZnO Facets 29 3.1.6 Nils Kaube: Bioinspired development of artificial enamel via in-situ nano-mineralization 30 3.1.7 Michaela Kocholata: Isolation and characterization of plant derived nanovesicles 30 3.1.8 Zuzana Nejedlá: Dendrimers as Drug Delivery System 31 3.1.9 Jacub Perner: Effect of cold plasma treatment of Poppy and Proso Millet seeds in plasma downer 32 3.1.10 Marina Roshchina: Development of new bacteria-killing coatings on beta-Ti-Nb alloy based on functional oxide nanotubular (ONT) layers 33 3.1.11 Muhammad Saqib: Algorithms and fluid-dynamic experimental platform for in vitro degradation studies of implant materials 34 3.1.12 Jacub Tolasz: Interaction of pollutants on nanoceria 35 3.1.13 Zuzana Žmudová: 3D spheroid culture for in vitro testing of nanoparticles 35 3.2 Topic: METROLOGY 37 3.2.1 Katrien Boonen: The potential of dendrochemistry and dendroecology in pollution research 37 3.2.2 Ivan Lopez Carasco: Development of immobilization protocols for Tro6 and Tro4 aptamers to be used in electrochemical biosensor 38 3.2.3 Jacub Hoskovec: Functionalized electrospun materials for selectvie capture of selected gases 39 3.2.4 Dominic Pilnaj: Applications of gas sensors for air-quality monitoring and identification of volatile organic compounds by GC-HRMS 39 3.2.5 Michaela Průšová: Prostat, Glioblastoma and Mammary carcinoma cells derived exosomes: Their isolation, characterization and loading with doxorubicin 40 3.2.6 Kateřina Přibylová: Preparation of nanostructured surfaces for CO2 Detection, Capture and Utilization 41 3.2.7 Michal Syrový: Chemical modification of PAN – based nanofibrous membranes prepared by electrospinning and their properties for CO2 capture potential 42 3.3 Topic: GEOLOGICAL/MATERIALS 43 3.3.1 Sabine Apelt: Using biomimicry to design anti-ice surfaces for air-water heat pumps 43 3.3.2 Jan Dočkal: Molecular dynamics of interfacial solution structure of alkali-halide electrolytes at graphens electrodes 47 3.3.3 Tereza Dušková: Metal complexes with polyfluorinated NHCs 48 3.3.4 Kristína Fiantoková: Obtaining of the active mass from the spent Li-Ion batteries 48 3.3.5 Stephanie Ihmann: Engineering of bio-based Building and Construction Materials 49 3.3.6 Sara Jalali: Degradable bone substitute materials with load-bearing properties - Fiber-strengthened silica 50 3.3.7 Pavel Kaule: Preparation of heteroborane derivatives for thin film deposition by the covalent bond formation 53 3.3.8 M. Kozakovic: The effect of primary and secondary flows on the homogenization process in a vertical bladed mixer 53 3.3.9 Pavlína Matysová: Molecular Simulation of Salt Hydrates 54 3.3.10 Viktorie Neubertová: Surface functionalization of Ti3C2T MXene for MRI contrast agent 55 3.3.11 Robert Ato Newton: Fuel characteristics of Miscanthus x giganteus biomass produced at the marginal and slightly contaminated by trace elements soils 55 3.3.12 Martin Otto: Bioresorbable Fe-based alloys processed via laser powder bed fusion 56 3.3.13 Petr Panuška: A millifluidic chip for cultivation of fish embryos and toxicity testing fabricated by 3D printing technology 59 3.3.14 David Poustka: Unlocking mass production of photocrosslinked chitosan nanofibers 60 3.3.15 Eliška Rezlerová: Adsorption and Diffusion of Short Hydrocarbons and Carbon Dioxide in Shale Organic Matter: Insights from Molecular Simulations 60 3.3.16 Stefan Weitz: Investigating the material hardness of mollusks shells in dry and wet states by microindentation 6