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Topics

Biomaterials

8 Symposia



Characterization

11 Symposia



Digital Transformation

6 Symposia



Functional Materials, Surfaces and Devices

16 Symposia



Circular Materials

4 Symposia



Modelling and Simulation

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Processing and Synthesis

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Congress
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Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials
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Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials

Functional Materials, Surfaces and Devices

Topic
F: Functional Materials, Surfaces and Devices


As we traverse into an era of unprecedented technological advancements, the
topic of functional materials, surfaces, and devices emerges as a focal point of
research and development. This comprehensive discussion encapsulates recent
developments on nano- and microstructured surfaces and materials utilized in
various sectors including energy conversion, water treatment, and
transportation. Delve into the complexities of catalysts, shape memory alloys,
ferroelectric, and multiferroic materials. This topic is a wellspring of
innovation and knowledge, fostering dialogues that are poised to shape the
future of materials science.

Symposium
F01: Future Frontiers - Innovations in Functional Materials & Devices - General
Symposium Topic F
Special Symposium
F02: High Performance Materials for Sustainable Energy Applications
Special Symposium
F03: Cellular materials and mechanical metamaterials
Special Symposium
F04: Photonic Technologies for Surface Processing
Special Symposium
F05: Multi-Functional High Entropy Alloys
Special Symposium
F06: Piezoelectric Oxides
Special Symposium
F07: Data-driven and Machine Learning assisted materials research
Special Symposium
F08: Inorganic and organically modified thin-film protective coatings -
properties and applications
Special Symposium
F09: Advances in Thermoelectricity: From Sustainable Materials to Energy
Harvesting Devices
Special Symposium
F10: 3D Structural Design of Functional Materials for Smart Applications
Special Symposium
F11: Dealloying as processing tool for the synthesis and recycling of advanced
materials
Special Symposium
F12: Emerging chalcogenides materials for electronic-based applications
Special Symposium
F13: Advancements in Interface Characterization for Batteries
Special Symposium
F14: Thin Films and Multilayer Coatings for Functional Applications
Special Symposium
F15: High-performance magnetic materials
Special Symposium
F16: Recent Trends in Shape Memory Alloys
Topic coordinator
Prof. Dr.
Antonio Ancona

University West (SE)

Prof. Dr.
Carsten Gachot

TU Wien (AT)

Prof. Dr.-Ing.
Andrés Fabián Lasagni

TU Dresden (DE)

Website
 * Symposium
   F01: Future Frontiers - Innovations in Functional Materials & Devices -
   General Symposium Topic F
   
   As the world accelerates into a technologically advanced future, functional
   materials, surfaces, and devices stand at the helm of this change. This
   symposium serves as a melting pot for ideas, innovations, and challenges in
   this domain. From exploring the potential of nano and microstructured
   materials across sectors like energy and transportation to diving deep into
   the intricacies of shape memory alloys and multiferroic materials, we promise
   an all-encompassing experience. Join us as we embark on this journey,
   unearthing the next big breakthrough in functional materials.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Antonio Ancona
   
   University West (SE)
   
   Prof. Dr.
   Carsten Gachot
   
   TU Wien (AT)
   
   Prof. Dr.-Ing.
   Andrés Fabián Lasagni
   
   TU Dresden (DE)
   
   Website
 * Special Symposium
   F02: High Performance Materials for Sustainable Energy Applications
   
   Energy intensive industries require a radical transformation of their
   production processes to reach carbon neutrality by 2050. Future low-carbon
   technologies and processes should be designed to address fluctuating and
   extreme conditions, such as high temperatures or corrosive environments. The
   materials and components used in these technologies must be able to withstand
   sustained exposure to these conditions. In the same way, they also need to be
   specifically designed for high-energy performance and processible in order to
   manufacture industrial components.
   
   This symposium will address recent advances in the field of novel high
   performance materials and components (according to aims of projects under the
   Horizon 2020 framework under, call LC-SPIRE-08-2020 ) by addressing materials
   design concepts, new materials as bulk materials or as coatings(metallic and
   ceramic), and technologies for their development, with the final aim of
   manufacturing components for the industrial applications. Topics of interest
   include but are not restricted to
   
   
   
    * Advanced alloy development (also including modelling approaches) for
      applications under extreme conditions, e.g. high temperatures, corrosive
      environments, high wear and/or mechanical loads.
    * LCA for novel high-temperature alloys.
    * Manufacturing technologies to increase sustainability in materials and
      components in terms of energy efficiency and resources consumption
      reduction e.g. ablation, LMD, HVOF.
    * ICT technologies fostering a faster approach in scientific interpretation
      and industrial solutions development for materials manufacturing and
      components life extension.
    * Modelling of materials degradation and lifetime estimation
   
   
   
   
   
   
   
   
   
   Symposium Organizer
   Daniel Benitez
   
   Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
   
   Mathieu Boidot
   
   Commissariat à l'énergie atomique et aux énergies alternatives (CEA)
   
   Dr.-Ing.
   Frederike Brasche
   
   RWTH Aachen University (DE)
   
   Prof. Dr.-Ing. habil.
   Ulrich Krupp
   
   RWTH Aachen University (DE)
   
   Website
   Fernando Santos
   
   AZTERLAN Aliendalde Auzunea nº6

 * Special Symposium
   F03: Cellular materials and mechanical metamaterials
   
   Smart material concepts meet the demands of today’s society for energy
   efficiency, resource conservation and environmental compatibility, while at
   the same time enabling a wide range of functional and structural purposes. 
   Concepts, such as additivity or multi-hierarchical structuring are derived
   from nature and offer long-term, sustainable solutions that open up new field
   of applications.
   
   Cellular materials and mechanical metamaterials exhibit outstanding
   structural and functional characteristics, and serve important roles in the
   applications such as energy storage and harvesting, environmental sensing and
   regulation, medical devices and structural domains, including aerospace,
   automotive, and architecture.
   
   Architectural or geometrical design of cellular materials and mechanical
   metamaterials defines the majority of their properties and behaviors.
   Ever-evolving design approaches range from bioinspiration to artificial
   intelligence for optimization. The combination of traditional and advanced
   manufacturing techniques enables the implementation of the intricate designs
   in length scales from nanometer-scale MEMS devices to macro-scale building
   facades. The exceptional properties, such as high anisotropy, low tortuosity,
   negative stiffness, and unconventional behavior, such as auxeticity,
   self-sealing and self-healing, and adaptability make them key enablers in
   various fields.
   
   The symposium will focus on the recent advancement of design, manufacturing,
   characterization and applications of these materials. Topics of interest
   include but are not limited to:
   
   
   
    * Finite element modeling and machine learning assisted design
    * Bioinspired hierarchical structured materials
    * Cellular materials for energy, environment, and biomedical applications
    * Kirigami and origami
    * Microlattices and 3D architectural materials
    * Additive manufacturing of cellular materials and mechanical metamaterials
    * Adaptive and programmable materials and shape morphing
    * Adaptive damping and energy absorption
    * Surface functionality: adhesion and superhydrophobicity
   
   
   
   
   
   Symposium Organizer
   Angelika Gedsun
   
   University of Freiburg (DE)
   
   Max Mylo
   
   University of Freiburg (DE)
   
   Dr.
   Viacheslav Slesarenko
   
   University of Freiburg (DE)
   
   Prof. Dr.
   Ulrike G.K. Wegst
   
   Dartmouth College (US)
   
   Dr.
   Kaiyang Yin
   
   University of Freiburg (DE)

 * Special Symposium
   F04: Photonic Technologies for Surface Processing
   
   Laser-based manufacturing is a key technology, able to open significant
   markets for manufacturers applying laser-material processing, as well as for
   equipment manufacturers. Industrial sectors with high economic and social
   relevance, such as automotive, microelectronics, aviation and (bio)medical
   sectors rely on the quality of laser-material processing for the
   functionality of their products.
   
   The aim of this Symposium is to bring together scientists and engineers
   working on laser-based manufacturing processes on macro, micro- and/or
   nanometer scale for advanced applications, addressing the current scientific
   and technological advances related to laser-based technology.
   
   The contributions will be oriented to technical or industrial developments as
   well as basic research studies describing applications in different
   technological fields. Furthermore, the basic interactions of laser beams with
   materials and the influence of such interactions in the mechanisms governing
   the manufacturing processes will be adressed.
   
   
   
   
   Supported by
   
   
   
   Symposium Organizer
   Prof. Dr.
   Antonio Ancona
   
   University of Bari (IT)
   
   Dr.
   Robert Baumann
   
   TU Dresden (DE)
   
   Prof. Dr.-Ing.
   Andrés Fabián Lasagni
   
   TU Dresden (DE)
   
   Website
   Dr.
   Gediminas Raciukaitis
   
   Center for Physical Sciences and Technology FTMC (LT)
   
   Prof. Dr.
   Gert-willem Römer
   
   University of Twente (NL)
   
   Dr.
   Marcos Soldera
   
   TU Dresden (DE)
   
   Dr.
   Bogdan Voisiat
   
   TU Dresden (DE)
   
   Dr.-Ing.
   Christoph Zwahr
   
   TU Dresden (DE)

 * Special Symposium
   F05: Multi-Functional High Entropy Alloys
   
   High entropy alloys (HEAs), as a fundamentally new material design concept,
   are a rapidly growing field of research in recent years with a wide range of
   possibilities for tailoring new materials with interesting combinations of
   properties. These almost unlimited design options are based on the alloy
   structure of five or more elements, which can often be present in simple
   crystal structures. After the original focus on metals and their mechanical
   properties, the concept has now been developed to many other material classes
   and the research on their functional properties is now coming to the fore.
   Current examples are high entropy alloys for electrocatalysis, hydrogen
   storage, magnetic applications, high entropy oxides for batteries and
   photovoltaics. We invite contributions on these and other functional HEAs.
   
   
   
   
   Symposium Organizer
   Prof. Dr.
   Oliver Gutfleisch
   
   Technische Universität Darmstadt (DE)
   
   Dr.-Ing.
   Liuliu Han
   
   Max-Planck-Institut für Eisenforschung GmbH (DE)
   
   Prof. Dr.
   Alfred Ludwig
   
   Ruhr-Universität Bochum (DE)
   
   Website
 * Special Symposium
   F06: Piezoelectric Oxides
   
   Piezoelectric oxides represent extraordinarily variable systems for the
   application of new fundamental materials and physical phenomena due to
   tuneable composition and, if applies, size of ferroelectric domains. The
   impact of point defects and domain walls on macroscopic material properties,
   their interaction and high thermal stability are attracting for a broad range
   of emerging applications for e. g. piezoelectric structures and
   optoelectronic applications. The wide range of properties such as high
   piezoelectric constants or low acoustic losses enables the use piezoelectric
   oxides as actuator or resonant sensor respectively. Therefore, process
   monitoring and control is feasible even under extreme conditions, provided
   that the materials offer the appropriate stability.
   
   In the case of epitaxially grown layers, they offer an additional degree of
   freedom through the heteroepitaxial growth on lattice mismatched substrates.
   Piezoelectric properties can be modified by a targeted strain engineering.
   
   Recent results on non-polar and polar piezoelectric oxide crystals and films
   related to their preparation, characterization and application including
   disclosure of atomistic transport processes are requested. The focus lies on
   materials that are stable at temperatures above about 300 °C and higher
   pressures, including lithium niobate, langasite and oxyborate type crystals,
   and related compounds such as lithium niobate-tantalate solid solutions.
   Contributions should include but are not limited to:
   
   
   
    * Growth of piezoelectric crystals and films
    * Preparation of domain structures and heterostructures
    * Defect structures
    * Electronic and atomic transport
    * Acoustic loss
    * Atomistic and phenomenological modelling
    * Applications
   
   
   
   Symposium Organizer
   Prof. Dr.
   Holger Fritze
   
   Technische Universität Clausthal (DE)
   
   Dr.
   Jutta Schwarzkopf
   
   Leibniz-Institut für Kristallzüchtung (DE)

 * Special Symposium
   F07: Data-driven and Machine Learning assisted materials research
   
   Enabled by the exponential growth of data storage capacity and computational
   resources as well as the availability of open-source data analysis tools and
   Artificial Intelligence (AI), the fourth paradigm of science, namely data
   science, has taken off and impacts various disciplines including functional
   materials research. Large-scale combinational databases and impactful
   repositories are emerging, assisted by high-throughput synthesis/simulations
   and materials digitalization. Groundbreaking opportunities can be enabled by
   AI-assisted materials discovery, particularly promising for the highly
   disciplinary fields of functional materials research. It can guide the
   synthesis and discovery of new functional oxides and compounds with superior
   properties in fields of e.g. batteries, electrocatalysts, oxygen transport
   membrane and ferroic materials.
   
   With the help of emergent data science and machine learning techniques, the
   composition -- processing -- microstructure -- property relationships of
   functional materials can be mapped out both forwardly and reversely, leading
   to forward inference and inverse design, respectively. For instance, the
   intrinsic physical properties can be statistically modelled using various
   types of descriptors derived from crystal structures, whereas the extrinsic
   properties can be statistically understood based on microstructure through
   Machine Learning surrogates. In particular, the inverse design of materials
   can be carried out based on high-throughput combinatorial screening, global
   optimization based on Bayesian optimization, and generative deep learning.
   
   This symposium invites contributions from various domain expertise and on
   different length scales including synthesis, characterization, simulations
   and data analysis, who are in general data shareholders in the field
   functional materials research. It offers particularly a platform to exchange
   various application possibilities of data science tools and to showcase the
   best practice.
   
   
   
   Symposium Organizer
   Dr.
   Leopoldo Molina-Luna
   
   Technische Universität Darmstadt (DE)
   
   Prof. Dr.
   Bai-Xiang Xu
   
   Technische Universität Darmstadt (DE)
   
   Website
   Prof. Dr.
   Hongbin Zhang
   
   Technische Universität Darmstadt (DE)

 * Special Symposium
   F08: Inorganic and organically modified thin-film protective coatings -
   properties and applications
   
   Protective coatings, especially inorganic thin-film coatings, are the most
   natural option for ensuring long-term stability of engineering materials and
   resistance to harsh operating conditions. Development of cost effective
   products under stringent environmental regulations is much more possible for
   inorganic coatings even if they are doped by organic moieties. The symposium
   is focused on the surface modification of materials as steels and other
   alloys, with inorganic thin-films, especially amorphous ones, to enhance the
   electrochemical resistance of the sample while maintaining the continuity of
   the coating under mechanical loads. The symposium will deal mainly with
   experimental investigation focused on the functional properties of protective
   coatings and the main focus will be on the application in: 
   
   
   
    * biological environments, biomaterial
    * marine environment - offshore
    * machines and devices - bearings
    * erosional environments
    * corrosive and abrasive environments
    * civil construction and infrastructure market.
   
   The scientists who conduct: physicochemical, electrochemical, mechanical and
   other functional properties analysis that provide protection of the metallic
   substrate are very welcome to share their research results during the oral or
   poster session. We especially invite people who protect the substrate when
   working in a corrosive environment under mechanical monotonic and/or cyclic
   loading. 
   
   
   
   
   
   
   Symposium Organizer
   Dr.-Ing.
   Justyna Krzak
   
   Wroclaw University of Science and Technology (PL)
   
   Prof.
   Wojciech Simka
   
   Silesian University of Technology
   
   Dr.
   Marek Smaga
   
   RPTU Kaiserslautern-Landau (DE)

 * Special Symposium
   F09: Advances in Thermoelectricity: From Sustainable Materials to Energy
   Harvesting Devices
   
   Functional materials are the cornerstone for addressing the challenges raised
   by sustainable energy supply. Among the various available technologies (e.g.,
   photovoltaics, photocatalysis), thermoelectricity allows for recovering
   electricity from waste heat. In this symposium, we aim to cover all aspects
   of recent thermoelectric developments related to the materials synthesis and
   processing, thermoelectric properties measurements, calculations and
   simulations, design and fabrication of devices. Presenters will provide
   state-of-the-art research achievements in thermoelectricity for sustainable
   applications. As thermoelectricity is a multidisciplinary field of research,
   this symposium will gather scientists from physics, chemistry, materials
   science and engineering. The covered topics will include, but will not be
   limited to:
   
   
   
   
    * Processing of bulk and abundant materials, nanostructures, thin films,
      heterostructures and nanocomposites by both bottom-up and top-down
      synthesis routes
    * Experimental and theoretical investigations of materials with complex
      structures or unconventional properties, e.g., multiscale and topological
      materials
    * Simulations methods from atomic scale to meso- and macro-scale to unravel
      electronic and lattice transport mechanisms and to help in the design of
      materials, including AI approaches
    * Development of conventional, microstructured and flexible thermoelectric
      modules
   
   
   
   
   
   Symposium Organizer
   Dr.
   Pascal Boulet
   
   Aix-Marseille University (FR)
   
   Prof. Dr.
   Marie-Christine Record
   
   Aix-Marseille University (FR)
   
   Dr.
   Heiko Reith
   
   Leibniz Institute for Solid State and Materials Research Dresden (DE)

 * Special Symposium
   F10: 3D Structural Design of Functional Materials for Smart Applications
   
   Abstract:
   
   In recent years, the field of materials science has witnessed a paradigm
   shift with the emergence of 3D structural design of functional materials. The
   symposium objectives encompass showcasing cutting-edge developments in the
   realm of 3D structural design of functional materials. It provides a platform
   for the exchange of knowledge among experts, fostering collaboration and
   networking. The diverse spectrum of applications for 3D materials, including
   energy harvesting, storage, sensors, biosensors, and more, will be explored.
   Additionally, the symposium will delve into the various 3D printing
   technologies that underpin the fabrication of these functional materials,
   with discussions ranging from additive manufacturing to bioprinting. The
   symposium program covers an array of topics, including materials innovation,
   3D printing technologies, energy harvesting and storage, sensors and
   biosensors, biomedical applications, environmental sustainability, and
   industrial applications. It will feature keynote presentations by leading
   experts, followed by contributed talks and poster sessions. Interactive panel
   discussions will provide participants with the opportunity to engage in
   in-depth conversations about the challenges and opportunities inherent in 3D
   structural design.
   
   This symposium is targeted at a broad audience, including researchers,
   scientists, academics, students, and industry professionals interested in the
   latest developments in 3D materials and their applications. It offers
   numerous benefits, including gaining insights into the forefront of research,
   networking with peers and industry partners, showcasing research and
   innovations, and exploring opportunities for collaboration on
   multidisciplinary projects.
   
   Symposium Topics:
   
   
   
    * Materials Innovation: Discuss the use of various materials, including 2D
      materials, polymers, cellulose, and more, in 3D structural design.
    * 3D Printing Technologies: Explore different 3D printing techniques, such
      as additive manufacturing, bioprinting, and nanoscale 3D printing, for
      functional materials fabrication.
    * Applications: Diverse applications of 3D materials, including energy
      harvesting, energy storage (ex. supercapacitors, batteries) sensors,
      biosensors, electromagnetic shielding, wearable electronics and more.
    * Environmental Sustainability: Address how 3D materials contribute to
      sustainable practices, including recyclability and reduced waste.
    * Industrial Applications: Showcase real-world industrial applications and
      case studies of 3D materials for enhanced product performance.
   
   
   
   
   
   Symposium Organizer
   Dr.
   Henrique Vazão de Almeida
   
   NOVA School of Science & Technology (PT)
   
   Dr.
   Sumita Goswami
   
   AlmaScience CoLAB (PT)
   
   Dr.
   Suman Nandy
   
   UNINOVA (PT)

 * Special Symposium
   F11: Dealloying as processing tool for the synthesis and recycling of
   advanced materials
   
   The symposium brings together researchers and engineers from around the world
   to explore the exciting developments in the field of dealloying, a versatile
   and innovative approach for the synthesis and recycling of advanced
   functional and structural materials. This symposium aims to provide a
   comprehensive overview of the latest advancements, challenges, and
   opportunities in dealloying-based material synthesis, emphasizing its role in
   designing materials with tailored properties for a wide range of
   applications.
   
   Dealloying is a transformative process that involves the selective removal of
   one or more elements from a multicomponent material accompanied by
   rearrangement of the remaining components, resulting in a nanoporous
   structure with unique properties and functionalities. Over the years, this
   technique has gained significant attention due to its potential in the
   synthesis of materials with enhanced catalytic activity, superior mechanical
   properties, improved electrical conductivity, etc. The symposium will feature
   discussions on various aspects of dealloying, including its fundamental
   principles, novel alloy systems, and state-of-the-art characterization
   techniques.
   
   Key Topics:
   
   
   
    * Fundamental Principles: Understanding the thermodynamics and kinetics of
      dealloying processes, with a focus on phase transformations and structure
      evolution during dealloying.
    * Novel Alloy Systems: Exploring the latest developments in designing alloy
      compositions for tailored properties, including high-entropy alloys,
      intermetallic compounds, etc.
    * Characterization Techniques: Presentations on advanced characterization
      methods to analyze the structure and properties of dealloyed materials.
    * Applications: Highlighting real-world applications of dealloyed materials
      in fields such as catalysis, energy storage, sensors, and biomedical
      devices.
    * Challenges and Future Directions: Identifying current challenges and
      discussing potential solutions for scaling up dealloying processes,
      improving material stability, and expanding its applicability.
    * Environmental and Sustainability Aspects: Exploring the environmental
      impact of dealloying and discussing strategies for sustainable material
      synthesis and recycling.
   
   
   
   The Symposium provides a platform for interdisciplinary collaboration and
   knowledge exchange among researchers and industry experts. We invite
   scientists, engineers, and students interested in the latest advancements in
   material science and engineering to join us in this exciting symposium,
   fostering innovation and pushing the boundaries of functional materials
   synthesis through dealloying techniques. Together, we will explore the
   transformative potential of dealloying in shaping the future of materials
   science.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Soo-Hyun Joo
   
   Dankook University (KR)
   
   Prof. Dr.-Ing.
   Ilya Okulov
   
   Leibniz Institute for Materials Engineering - IWT (DE)
   
   Website
   Prof. Dr.-Ing.
   Shan Shi
   
   Hamburg University of Technology (DE)

 * Special Symposium
   F12: Emerging chalcogenides materials for electronic-based applications
   
   Chalcogenide materials have been the subject of intensive investigations for
   decades. Chalcogens are versatile elements able to combine themselves with
   many other chemical elements in exceptionally varied families of compounds:
   transition metal dichalchogenides, rock-salt and tetradymites-type compounds,
   Chevrel phases, argyrodites, and so on, in crystalline as well as amorphous
   and glassy phases. To date, chalcogenides have been synthesized in many
   different forms, such as bulk materials, thin films, superlattices, quantum
   dots, etc., allowing for tuning their properties in various applications
   (e.g., photovoltaics, memories, batteries, thermoelectricity,
   electrocatalysis, neuromorphic computing). Most recently, chalcogenides have
   gain further interest as topological insulators exhibiting unique magnetic
   properties due to their exotic spin states.
   
   In this symposium we aim to gather a large community of researchers,
   chemists, physicists, materials science and engineering researchers, both
   experimentalists and theoreticians, acting in the field of the chalcogenide
   materials to present both the state-of-the-art achievements in know-how and
   the current state of knowledge. The topics covered by the symposium will
   include, but will not be limited to:
   
   
   
    * Design and elaboration of chalcogenides as bulk, nanostructured and
      low-dimensional compounds, in ordered or disordered phases
    * Experimental and theoretical investigation of chalcogenides properties
    * Perspectives in the applications of chalcogenides
   
   
   
   Symposium Organizer
   Dr.
   Pascal Boulet
   
   Aix-Marseille University (FR)
   
   Prof. Dr.
   Marie-Christine Record
   
   Aix-Marseille University (FR)

 * Special Symposium
   F13: Advancements in Interface Characterization for Batteries
   
   The ever-increasing demand for improved battery performance necessitates the
   continuous evolution of advanced characterization techniques. These
   techniques offer profound insights into the sophisticated physics, chemistry,
   and engineering aspects governing battery performance. While post-mortem and
   operando characterization techniques have been instrumental in unraveling the
   structural and chemical evolution of bulk electrode materials, it's essential
   to acknowledge that interfaces between various battery components are equally
   vital, albeit often challenging to access and characterize. A profound
   understanding of these interfaces is imperative for enhancing battery
   functionality and addressing critical issues such as redox reactions,
   interface formation, stability, degradation mechanisms, and more.
   
   Accordingly, this session welcomes contributions open to all conventional and
   advanced surface/interface characterization methods, being particularly
   devoted to explore these critical interfaces, including X-ray Photoelectron
   Spectroscopy (XPS), X-ray Absorption Spectroscopy (XAS), Time-of-Flight
   Secondary Ion Mass Spectrometry (ToF-SIMS), X-ray Photoemission Electron
   Microscopy (XPEEM), Scanning Electron Microscopy (SEM). Each of these
   cutting-edge techniques as well as their combination provide invaluable
   insights into surface chemistry, oxidation states, redox reactions, and the
   morphology of challenging interfaces within batteries.
   
   
   
   
   Symposium Organizer
   Dr.-Ing.
   Raheleh Azmi
   
   Uppsala University (SE)

 * Special Symposium
   F14: Thin Films and Multilayer Coatings for Functional Applications
   
   This symposium focuses on recent developments in thin films and multilayer
   coatings for functional applications covering their synthesis, advanced
   characterization, exploration of microstructure-property relationships and
   their applications in surface engineering. Both fundamental and
   application-oriented contributions are welcome.
   
   Major focus areas of the symposium are:  
   
   Thin films and surface engineering devoted to industrial applications such as
   wear protection and friction reduction in tools, components and other
   tribological systems. For instance, improvement of coating's performance with
   respect to high thermal stability, oxidation resistance and adhesion, optimum
   mechanical properties and lower friction, high potential for enhancement of
   tool and components performance. Presentations on progress in fundamental
   understanding of novel multi-component, metastable solid solutions and
   nanostructured coatings, on advanced coating architectures and design
   concepts and on large scale deposition approaches are highly welcomed.
   
   Microstructure engineering of metallic and ceramic thin films to create novel
   micro- and nanocomposites: this includes metallurgical processes controlling
   the microstructure evolution in micro- and nanoscale thin films (e.g.
   diffusion or interface related phenomena such as grain growth and phase
   transformations); novel processing routes to tailor the microstructure (e.g.
   utilization of pulsed thermal treatments to vary the morphology of composites
   or to facilitate the formation of metastable microstructures); and influence
   of microstructure design, processing and post-treatments on properties and
   residual stress state.
   
   
   
   Symposium Organizer
   Dr.
   José Luis Garcia
   
   Sandvik Coromant R&D (SE)
   
   Prof. Dr.
   Haroldo Pinto
   
   University of Sao Paulo - USP (BR)
   
   Dr.-Ing.
   Flavio Soldera
   
   Saarland University (DE)

 * Special Symposium
   F15: High-performance magnetic materials
   
   Magnetic materials are of increasing importance for a wide spectrum of
   applications as energy conversion (electrical machines, generators) cooling,
   sensors or actuators. This includes hard and soft magnets as well as
   magnetocalorics materials and ferromagnetic shape memory alloys.
   
   Today a variety of different and partially opposing aspects have to be
   considered such as magnetic performance, availability of raw materials and
   sustainability.
   
   From these perspectives, this symposium will deal with the development,
   processing and characterization as well as applications of the various
   magnetic materials. In addition to classical procedures and methods, new
   directions such as additive manufacturing and recycling will also be
   explored. Both experimental and theoretical works are welcome.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Carlo Burkhardt
   
   Pforzheim University (DE)
   
   Prof. Dr.
   Dagmar Goll
   
   Aalen University of Applied Sciences - Technology and Economics (DE)
   
   Prof. Dr.
   Oliver Gutfleisch
   
   Technische Universität Darmstadt (DE)
   
   Prof. Dr.
   Spomenka Kobe
   
   Jožef Stefan Institute (SI)
   
   Prof. Dr.
   Gerhard Schneider
   
   Aalen University of Applied Sciences - Technology and Economics (DE)

 * Special Symposium
   F16: Recent Trends in Shape Memory Alloys
   
   Due to their unique properties shape memory alloys are in the focus of both
   research and academia. Based on a solid to solid phase-transformation large
   fully reversible strains can be obtained. For application in the biomedical
   field, binary Ni-Ti-alloys are robustly employed. However, limited
   transformation temperatures and high cost are the major roadblocks to
   application in seismic or high-temperature environments.
   
   This symposium will mainly focus on both the development and characterization
   of shape memory alloys overcoming limitations of commercially available
   alloys. Topics of interest include but are not limited to:
   
   
   
    * Fe-based shape memory alloys including processing of large scale parts
    * Shape memory alloys for civil engineering applications
    * Fatigue resistant shape memory alloys 
    * High-temperature shape memory alloys including ternary Ni-Ti-X, Ti-based
      alloys and others for application above 150 °C 
    * High entropy shape memory alloys 
    * Characterization of elementary mechanisms leading to degradation
    * Novel processing routes
    * Advances in simulation of shape memory alloys
   
   
   
   
   
   Symposium Organizer
   Prof. Dr.-Ing.
   Jan Frenzel
   
   Ruhr University Bochum (DE)
   
   Prof. Dr.-Ing.
   Hans Jürgen Maier
   
   Leibniz Universität Hannover (DE)
   
   Prof. Dr.-Ing.
   Thomas Niendorf
   
   University of Kassel (DE)
   
   Dr.
   Toshihiro Omori
   
   Tohoku University (JP)
   
   PD Dr.-Ing. habil.
   Anja Weidner
   
   TU Bergakademie Freiberg



MSE 2024
24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online MSE
2024 24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online


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 * Congress
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