| S1-1 |
Microstructure and properties of alumina obtained by ultrafast high-temperature (UHS) and conventional sintering |
A. Arun (University of Trento, Italy) |
|
| S1-2 |
Advanced Approaches in Molecular Engineering for the Synthesis of High Entropy Oxides |
Z. Aytuna (Universität zu Köln, Germany) |
|
| S1-3 |
Multiphased Al2O3-YAG fiber: influence of seeding material and thermal treatment |
S. Bernard (CNRS, France) |
|
| S1-4 |
Effect of Na doping and substrates type on structure and properties of La1–xNaxMnO3 thin films |
J. Bobic (University of Belgrade, Serbia) |
|
| S1-5 |
Effects of Al2O3 and MgO precursors on the development of 3D printed cordierite lattice structures by hybrid direct ink writing of silicone emulsions |
V. Diamanti (University of Padova, Italy) |
|
| S1-6 |
Study on Structural and Microstructural Evolution during Liquid Phase Flash Sintering of 3 mol% Yttria Stabilized Zirconia |
A. Eqbal (University of Trento, Italy) |
|
| S1-7 |
In-situ formation of magnetic nanoparticles in polymer-derived ceramics |
T. Felsberger (TU Wien, Austia) |
|
| S1-8 |
Multi-edged PCD cutting tools for machining technical ceramics |
A. Fielen (ZECHA Hartmetall-Werkzeugfabrikation GmbH, Germany) |
|
| S1-9 |
BioKon: Power-To-Methane - SiC sparger for aeration |
H. Heymer (Fraunhofer IKTS, Germany) |
|
| S1-10 |
Transformation of polymer to SiOC glass in inert and reactive atmosphere |
L. Karacasulu (University of Trento, Italy) |
|
| S1-11 |
Processing of paper-derived alumina-mullite ceramics |
I. Klösel (Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany) |
|
| S1-12 |
Ceramic Injection Molding using Cellulose Nanofiber |
S. Kobayashi (Tokyo Metropolitan University, Japan) |
|
| S1-13 |
Development of roll-to-roll coating approach for silica-based epoxy molding compound film |
C.-W. Lee (Korea Institute of Machinery & Materials / University of Science & Technology, South Korea) |
|
| S1-14 |
Characterization of SiC layer formed via polycarbosilane-derived coating for use as an interlayer between UHTC and carbon composite |
H. M. Lim (JEONBUK national university, South Korea) |
|
| S1-15 |
Development of a porous support structure for a solar-based catalytic membrane reactor for syngas production |
F. Luthardt (Morgan Advanced Materials Haldenwanger GmbH) |
|
| S1-16 |
Reduction of surface defects by sol-gel coating of ltcc multilayer |
N. Nessimian (TU Ilmenau, Germany) |
|
| S1-17 |
Mechanochemically assisted quasi-solvent-free synthesis of functional iron oxide nanoparticles via homogeneous precipitation using urea hydrolysis |
T. Onizuka (Osaka Metropolitan University, Japan) |
|
| S1-18 |
Anodization of Tapered Alumina Pores for Development of Anti-Reflective Surfaces |
P. Pawlik (SmartMembranes GmbH, Germany) |
|
| S1-19 |
Rare-earth-doped barium cerate as high-temperature water vapor sensors |
A. Radojkovic (University of Belgrade, Serbia) |
|
| S1-20 |
A study of advanced laser-assisted machining for high-quality shaping of ceramics and brittle materials |
D.-H. Seo (Korea Institute of Machinery & Materials, South Korea) |
|
| S1-21 |
Shaping single-phase ceramics and ceramic matrix composites (CMCs) via 3D printing: from pastes to sintered elements |
B. Seredynska (Warsaw University of Technology, Poland) |
|
| S1-22 |
Chemical Vapor Deposition Under the Influence of a Magnetic Field |
M. Steiner (University of Cologne, Germany) |
|
| S1-23 |
Development and Characterization of Porous Polymeric Molding Materials for High-Pressure Casting of Ceramic Sanitarywares |
C. A. Terzioglu (SEREL SERAMIK, Turkey) |
|
| S1-24 |
Investigation of doped lanthanum manganite thin films |
M. Vijatovic Petrovic (University of Belgrade, Serbia) |
|
| S1-25 |
Investigation on thermodynamic equilibrium in RE-CMAS systems: implications of rare earth ions on crystallization behavior |
G. Zhang (Liaoning Academy of Materials, China) |
|
| S1-26 |
Preparation of Eu2+-doped alkaline-earth metal phosphates in air atmosphere |
A. Zarkov (Vilnius University, Lithuania) |
|
| S2-1 |
LLZO materials obtained at low temperature by solid-state reaction by non-conventional sintering process |
A. Bonilla-Molina (Universitat Politècnica de València, Spain) |
|
| S2-2 |
Activation energy for densification of CaMnO3 ceramics via microwave sintering at 2.45 GHz |
L. Da Hora (Federal University of Itajuba, Brazil) |
|
| S2-3 |
Thermoelectric properties of bismuth-doped calcium cobaltite ceramics produced by cold sintering process |
V. M. Gelfuso (Universidade Federal de Itajubá, Brazil) |
|
| S2-4 |
The effect of oxide additives on microstructural evolution and phase transition in gas pressure sintering of silicon nitride |
M. Jeong (Gyongsang national university, South Korea) |
|
| S2-5 |
Static recrystallization of spark plasma sintered cubic zirconia ceramics |
S. Molina Molina (University of Seville, Spain) |
|
| S2-6 |
Cold Sintering of High Field Varistors |
S. Momjian (The Pennsylvania State University, USA) |
|
| S2-7 |
Synthesis and crystallization behavior of barium titanate in amorphous titania gel via acid-base chemical densification process at near room temperature |
R. Nakayama (National Institute of Advanced Industrial Science and Technology (AIST), Japan) |
|
| S2-8 |
A densification study of LaMnO3 perovskites sintered via microwave processing at 2.45 GHz |
J. Rosa (Federal University of Itajubá, Brazil) |
|
| S2-9 |
Structural studies of Cr3AlB4 reactive sintering |
J. Slominski (AGH University of Krakow, Poland) |
|
| S2-10 |
Low-temperature synthesis of phosphate Eulytites via a BaHPO4–Bi(OH)3 System |
N. Yaba (Nihon University, Japan) |
|
| S2-11 |
Development of Laser Annealing Process for Interface Formation Between SiC Power Semiconductor Substrate and Electrode |
S.-M. Jeong (KICET, South Korea) |
|
| S3-1 |
Additive Manufacturing of Thermally Conductive AlN Ceramic Components for Industrial Application |
M. Afshar (Sheffild Hallam University, UK) |
|
| S3-2 |
Kinetic Insights into Aluminum-to-Aluminum Oxide Transformation Phenomena in Hybrid Laser Powder Bed Fusion and Reaction Bonded Ceramics |
Z. Ahmad (California Institute of Technology, USA) |
|
| S3-3 |
Development of room temperature reactive binder jetting applied to calcium phosphate compounds in the field of bone repair |
B. Belleville (CIRIMAT (Toulouse INP-ENSIACET), France) |
|
| S3-4 |
Influence of Nb2O5, MnO2 and TiO2 on the Fabrication and Properties of Alumina Ceramics Produced via Additive Manufacturing |
A. P. da Luz (Federal University of Sao Carlos (UFSCar), Brazil) |
|
| S3-5 |
Hydroxyapatite-Based Interpenetrating Phase Composites: Additive Manufacturing and Hybrid Scaffold Reinforcement |
L. Drotárová (CEITEC BUT, Czechia) |
|
| S3-6 |
Development of preceramic polymer-filled filament for additive manufacturing of SiC-based ceramic |
A. Ivekovi? (Jožef Stefan Institute, Slovenia) |
|
| S3-7 |
Additive Manufacturing of Molecular-Level-Engineered SiCN Ceramic Modified with Carbon Nanofibers/Transition Metal Carbides towards Next-Generation Structural Electromagnetic Metamaterials |
X. Liu (University of Padova, Italy) |
|
| S3-8 |
Direct Ink Writing of barium titanate-based piezoelectric ceramics for acoustic applications |
N. Mezdar (Thales / INSA Lyon, France) |
|
| S3-9 |
AMSEL: Scalable Manufacturing of Sodium Beta Alumina Composite Electrolytes for Solid-State Batteries |
F. Sameni (Loughborough University, UK) |
|
| S3-10 |
3D PRINTING OF MULLITE COMPLEX ARCHITECTURES AND THEIR FUNCTIONALIZATION FOR CO2 CAPTURE |
P. Palmero (Politecnico di Torino, Italy) |
|
| S3-11 |
Towards Sustainable Ceramic Manufacturing: 2-Minute Sintering in LCM with Ultra-High Temperature Processing |
A. Pozzebon (Universidade Federal de Santa Maria, Brazil) |
|
| S3-12 |
Enhanced cross-linking strategies to improve structural integrity of polymer-derived ceramics for extrusion-based AM |
M. Shah (TU Wien, Austria) |
|
| S3-13 |
Controling porosity of Hydroxyapatite-based 3D Printed Scaffolds for Spinal Fusion through the Addition of Cellulose Fibers |
E. Siska Viragova (CEITEC, Czechia) |
|
| S3-14 |
Additively manufactured metal-ceramic-hydrogel systems for enhanced osseointegration: Integrating Eu/Ag co-Doped bioglass in orthopedic implant design |
A. Trifan (National University of Science and Technology POLITEHNICA Bucharest, Romania) |
|
| S3-15 |
Tribological investigation of 3D printed SiC for mechanical seal applications |
C. Tschirpke (EagleBurgmann Germany GmbH & Co. KG, Germany) |
|
| S3-16 |
Novel material for additive manufacturing of ceramic-PBAT biocomposites |
P. Veteska (Slovak University of Technology, Slovakia) |
|
| S3-17 |
Extrusion-based additive manufacturing of soft magnetic components |
T. Wille (Ernst-Abbe-Hochschule Jena, Germany) |
|
| S3-18 |
DLP printed zirconia are densified in minutes by radiation assisted sintering |
W. Zhao (The University of Hong Kong, Hong Kong SAR China) |
|
| S4-1 |
Preparation and properties of dense Si2N2O ceramics sintered with Al2O3, Y2O3, Sm2O3 or Yb2O3 additives |
S. Beaudet Savignat (CEA Le Ripault, France) |
|
| S4-2 |
Effect of compression pressure and ball milling ratio towards the synthesis of K0.5Na0.5NbO3 ceramics |
A. Bonilla-Molina (Universitat Politècnica de València, Spain) |
|
| S4-3 |
Stability and Properties of M2AlC Phases with Compositionally Complex M-layers |
M. Dujovic (Texas A&M University, USA) |
|
| S4-4 |
Predicting wear resistance of graphene-added Si3N4 using machine learning |
H. Fatima (The Women University, Multan, Pakistan) |
|
| S4-5 |
SiC bonded Diamond composites produced by reactive infiltration with silicides |
M. Herrmann (Fraunhofer IKTS, Germany) |
|
| S4-6 |
The use of the heterocoagulation phenomenon in ceramic particles suspensions for preparation of advanced materials |
O. Jurecka (AGH University of Krakow, Poland) |
|
| S4-7 |
Mechanical properties of high-density silicon carbide ceramics with addition of rare-earth oxide additives |
J. H. Kong (Agency for Defense Development, South Korea) |
|
| S4-8 |
Thermal Cycling Resistance of Yb2Si2O7 Environmental Barrier Coating Material with Ti2AlC MAX Healing Agent |
K. S. Lee (Kookmin University, South Korea) |
|
| S4-9 |
Thermal stability and mechanical strength of adhesive joint in ballistic shields |
L. Letek (AGH University of Krakow, Poland) |
|
| S4-10 |
Characterization of superhard cubic boron nitride ceramic composites |
L. Maier (Fraunhofer IKTS, Germany) |
|
| S4-11 |
Novel reaction bonded B4C-SiC-diamond composites – properties and microstructure correlations |
B. Matthey (Fraunhofer IKTS, Germany) |
|
| S4-12 |
Boron containing silicon carbide bonded diamond composites |
J. A. Quintana Freire (Fraunhofer IKTS, Germany) |
|
| S4-13 |
The influence of sintering additives on thermo-chemical properties of hot-pressed ZrB2-HfB2 |
Z. Pedzich (Polish Ceramic Society, Poland) |
|
| S4-14 |
Joining techniques for advanced ceramics and composites |
J. Alexander (University of Birmingham, UK) |
|
| S4-16 |
Endless SiC-Fiber Coatings for Usage in Ceramic Matrix Composites |
K. Schönfeld, M. Krug (Fraunhofer IKTS, Germany) |
|
| S5-1 |
Preparation, pore structure and thermal properties of spinel-based refractory ceramics |
A. Bak (AGH University of Krakow, Poland) |
|
| S5-2 |
Exploring the Low-Temperature Pressureless Sintering of B4C with Si |
A. Fernández Ortiz (Universidad de Extremadura, Spain) |
|
| S5-3 |
Degradation mechanism of corundum-mullite rollers in a ceramic clay tiles industry |
A. Fontanari (University of Padova, Italy) |
|
| S5-4 |
Laser-Assisted SEM Preparation of Oxide Scales on Hardmetals and Coatings |
K. Gnauck (Fraunhofer IKTS, Germany) |
|
| S5-5 |
Epoxide/Flame Retardant Binder for Odor Reduction of MgO-C Refractories |
M. Kim (Changwon National University, South Korea) |
|
| S5-6 |
Ablative and microstructural characterization of ZrC coating layer using spray-dried ZrC powders via vacuum plasma spraying method |
H. S. Kim (Jeonbuk National University, South Korea) |
|
| S5-7 |
Thermal conductivity of ceramics and refractories from the alumina-silica system for thermal energy storage (TES) – modeling and measurement |
L. Kotrbova (University of Chemistry and Technology Prague, Czechia) |
|
| S5-8 |
Novel Al2O3-C refractories with enhanced thermo-mechanical properties by the addition of Lanthanum Strontium Manganite (LSM) fine powder |
P. Malczyk (TU Bergakademie Freiberg, Germany) |
|
| S5-9 |
A comparative study of VPS-coated ZrC layers on SiC interlayers prepared by different CVR and CVD method |
A-Y. Moon (Jeonbuk National University, South Korea) |
|
| S5-10 |
Degradation behavior of oxide fiber reinforced oxynitride and complex oxides |
D. Sakata (Tokyo University of Science, Japan) |
|
| S5-11 |
Tundish Linings Performance: A Predictive Strategy for Lifetime and Energy Optimization |
A. Salerno (Vesuvius - Université de Limoges, France) |
|
| S5-12 |
Material design for refractory compositionally complex ceramic matrix composites used for wide temperature range in oxidizing atmosphere |
A. Tada (Tokyo University of Science, Japan) |
|
| S5-13 |
Cobalt reduced high entropy binder for hardmetals |
M. von Spalden (Fraunhofer IKTS, Germany) |
|
| S6-1 |
Synthesis and morphology control of siderite |
T. Amano (Nihon University, Japan) |
|
| S6-2 |
Alkali Activation Effects on Fractionated Fly Ash Properties in Clay-Cement Sealing Suspensions |
J. Delihowski (Akademia Górniczo-Hutnicza im. Stanis?awa Staszica w Krakowie, Poland) |
|
| S6-3 |
Evaluation of Bacterial-Based Cement Retarder Additives for Sustainable Construction Applications |
M. Hong (Korea Institute of Ceramic Engineering and Technology / Hanyang University, South Korea) |
|
| S6-4 |
Precipitated calcium carbonate (PCC) from oyster shell waste using carboxylic acids and its characterization |
J. H. Lee (Korea institute of ceramic engineering and technology, South Korea) |
|
| S6-5 |
Ceramic Glazes by Recycling Waste |
H. Ovcacikova (VSB - Technical University of Ostrava, Czechia) |
|
| S6-6 |
Evaluation of calcium dissolution structure in highly concentrated glycerol solutions |
T. Sasaki (Kobe Steel, Ltd., Japan) |
|
| S6-7 |
Morphological control of calcium carbonate particles in highly-concentrated glycerol solution |
A. Suzuki (Nihon University, Japan) |
|
| S6-8 |
Morphological Control of Spherical Hollow Calcium Carbonate Particles by Spray-Drying Calcium Bicarbonate Solution from Steelmaking Slag |
T. Toyama (Nihon University, Japan) |
|
| S7-1 |
A fractal analysis of the structure formation process of a hierarchical nanoporous layer glass |
T. Fujima (Tokyo City University, Japan) |
|
| S7-2 |
Evaluation of Temporal Changes in the Glass Network Structure and Element Leaching Behavior of Hierarchical Nanoporous Layer Glass Using Positron Annihilation Spectroscopy |
I. Funayama (Tokyo City University, Japan) |
|
| S7-3 |
Enhancing borosilicate glass vials through chemical strengthening |
J. Jung (Korea Institute of Ceramic Engineering and Technology, South Korea) |
|
| S7-4 |
Study on CuO and Na2CO3 Doping for Controlling the Thermal and Optical Properties of Fiber-Type Sealants |
S. Kim (Korea Photonics Technology Institute, South Korea) |
|
| S7-5 |
Evaluation of Elemental Distribution during Hierarchical Nanoporous Layer Glass Formation |
S. Maeda (Tokyo City University, Japan) |
|
| S7-6 |
Enhancement of Plasma Resistance Using Y-Al Based Sol-Gel Coating |
S. Oh (Sungkyunkwan University, South Korea) |
|
| S7-7 |
The effect of the addition of Na2O, K2O, Li2O on the structure of glass-ceramic materials from the SiO2-Al2O3-Ca-R2O system modified by the variable molar ratio of SiO2/Al2O3 |
K. Pasiut (AGH University of Science and Technology, Poland) |
|
| S7-8 |
Ultrafast Crystallization of Magnesium Aluminum Silicate Glass-Ceramics |
I. Reis Lavagnini (Federal University of São Carlos, Brazil) |
|
| S7-9 |
Effect of ZnO and B2O3 on the structural and thermal properties of Bi2O3-SiO2 solder glasses |
S. H. Woo (Korea Institute of Ceramic Engineering / Sungkyunkwan University, South Korea) |
|
| S7-10 |
Comparison of Thermoelastic Properties of Polycrystalline Strontium Titanium Silicate Sr?TiSi?O? Synthesized via the Reactive Sintering Method and Glass Ceramic |
O. Zwein (UMONS, Belgium) |
|
| S8-1 |
ZnO-CeO2 Nanocomposites: Enhanced Photocatalytic and Antifungal Properties for Sustainable Industrial and Biomedical Applications |
A.-A. Alivisatou (National Technical University of Athens, Greece) |
|
| S8-2 |
Improved long-term solar absorptance of ceramic solar absorber particles by spinel coatings |
G. Alkan (DLR, Germany) |
|
| S8-3 |
Mn-Doped Lead-Free KNNLT Piezoceramics for Multilayer Actuator Application |
M. W. Alkanj (Ernst-Abbe-Hochschule Jena, Germany) |
|
| S8-4 |
An innovative approach to highly sensitive and selective gas sensing |
Z. Brankovic (University of Belgrade, Serbia) |
|
| S8-5 |
The effect of acceptor dopants on the surface exchange and the surface space-charge potential of BaTiO3 |
G. Brannys (RWTH Aachen, Germany) |
|
| S8-6 |
The Glatt Pow(d)er Synthesis - Manufactoring active materials for hydrogen production and solid oxide fuel cells and solid oxide fuel cells |
J. Buchheim (Glatt Ingenieurtechnik GmbH, Germany) |
|
| S8-7 |
3D-printed composites with aligned 1D lead-free piezoelectric ceramic fillers for soft self-powered tactile sensors for soft grippers |
S. Butenko (EMPA/EPFL, Switzerland) |
|
| S8-8 |
Encapsulated PICMA® Actuators and their Applications |
F. Dolke (PI Ceramic GmbH, Germany) |
|
| S8-9 |
Influence of lanthanides environment on the electric properties of tantalates and niobiates perovskites Ln0.33BO3 (with Ln = La, Ce, Pr, Nd or Gd and B = Ta or Nb) |
T. Grivois (Le Mans Université, France) |
|
| S8-10 |
Development of Piezoelectric ceramic based focused ultrasound transducer application with printed circuit board (PCB) sensor assembly |
J. S. Han (South Korea) |
|
| S8-11 |
The effects of Yb2O3 additions on the crystal structure, grain growth behavior, and dielectric properties of the BaTiO3 system |
S.-Y. Hwang (Gyeongsang National University, South Korea) |
|
| S8-12 |
Tuneable photochromism in Ca3MgSi2O8-Sr3MgSi2O8:Eu2+ solid solutions |
G. Krieke (Vilnius University, Lithuania) |
|
| S8-13 |
Investigation properties of zirconia doped ceria thin films prepared by spray pyrolysis method |
M. Mehdizade (Gdansk University of Technology, Poland) |
|
| S8-14 |
Porous BCZT ceramics for energy harvesting and water microfiltration |
E. Mercadelli (CNR-ISSMC, Italy) |
|
| S8-15 |
Development of NaNbO3-Based Quasi-Linear Dielectrics via Defect Chemistry |
S. Nakano (USA) |
|
| S8-16 |
Particle interactions in SrFe12O19/NiFe2O4 magnetic composites |
A. Quesada Michelena (Institute of Ceramics and Glass (CSIC), Spain) |
|
| S8-17 |
Piezoelectric characterization of quenched Na½Bi½TiO3–BaTiO3 ceramics |
E. Ringgaard (CTS Denmark A/S, Denmark) |
|
| S8-18 |
Structure, Ferroelectric, and Energy storage properties of Gd-doped BZT ceramics |
F. M. Ruiz (University of the Philippines Cebu, Philippines) |
|
| S8-19 |
Electrocaloric Effect of Zr-doped Barium Titanate Ceramics |
F. M. Ruiz (University of the Philippines Cebu, Philippines) |
|
| S8-20 |
Exploring Gas Sensing Properties of SnO2/MXene heterostructure: Unveiling Performance Synergies |
S. Savic Ruzic (Biosense Institute, Serbia) |
|
| S8-21 |
Hybrid nanostructures fabricated by atomic layer deposition for enhanced photocatalysis |
N. Thonakkara James (Karlsruhe Institute of Technology, Germany) |
|
| S8-22 |
Lead-free positive temperature coefficient of resistance (PTCR) ceramics with modified Curie temperature and improved electrical properties |
T. Weismann (MAHLE International GmbH, Germany) |
|
| S8-23 |
Thermally and mechanically stable superhydrophobic glass coatings containing nanoparticles |
B. Witulski (Universität zu Köln, Germany) |
|
| S8-24 |
Shear thickening fluids as smart ceramic composites for energy absorbing systems |
R. Zurowski (Smart Fluid SA, Poland) |
|
| S9-1 |
Synthesis of silver decorated titanium dioxide for environmental applications |
A.-A. Alivisatou (National Technical University of Athens, Greece) |
|
| S9-2 |
Strategic Selection of Radiation-Tolerant Thermoelectric Materials for Spacecraft Power Systems |
M. R. Azhar (Edith Cowan University, Australia) |
|
| S9-3 |
Effects of In-situ HfB2 Segregated Network Structure Formed by the Addition of HfO2 on the Thermoelectric Properties of B4C |
S. Turan (Eskisehir Technical University, Turkey) |
|
| S9-4 |
Hydrothermal Synthesis of High Aspect Ratio Piezoelectric BaTiO3 Nanowires for Nanogenerator Development and Applications |
S. Dadashov (Eskisehir Technical University, Turkey) |
|
| S9-5 |
Development of Hybrid Nanogenerators Using BaTiO? Nanowire-Embedded Polyvinyl Chloride Films |
S. Dadashov (Eskisehir Technical University, Turkey) |
|
| S9-6 |
Structural, microstructural, and electrical characterization of impregnated FeCrAl metal support for the application of intermediate temperature - solid oxide fuel cell (IT-SOFC) |
S. Dattamandal (University of Littoral Côte d’Opale, France) |
|
| S9-7 |
Additive Manufacturing of Geopolymer-Hydrated Salt Composites for Thermochemical Heat Storage |
H. Elsayed (University of Padova, Italy) |
|
| S9-8 |
Synthesis and Characterization of Bixbyite HEO as Potential Anode in Li-ion Batteries |
A. Eqbal (University of Trento, Italy) |
|
| S9-9 |
Effect of processing atmospheres on the calcination, sintering and thermoelectric properties of CaMnO3 ceramics synthesized by solid state reaction |
L. Freire (Federal University of Itajubá, Brazil) |
|
| S9-10 |
Silicon Fleece Anodes as Components of Lithium-Ion Batteries |
M. Fritsch (Fraunhofer IKTS, Germany) |
|
| S9-11 |
Composition, structure and microstructure correlations of lithium zirconates and their water lithium extraction properties |
M. Gamba (Karlsruher Institut für Technologie, Germany) |
|
| S9-12 |
Influence of the slurry composition on the microstructural and mechanical properties of Li7La3Zr2O12 tapes |
J. Gross (Forschungszentrum Jülich GmbH, Germany) |
|
| S9-13 |
Magnetic Field Controlled Thermal Skeleton of Composite Phase Change Materials for Efficient Thermal Management of Li-Ion Batteries |
H. Gu (Southern University of Science and Technology, China) |
|
| S9-14 |
Study of the role of plasticizer and co-plasticizer in the tape casting process for an anode support production in SOFC applications |
C. Guillet (University of Limoges, France) |
|
| S9-15 |
High Energy Density Batteries Enabled by Thin Ceramic coated Separators with Heterogeneous Water-Based Binder |
M. Jang (Korea Institute Ceramic Engineering and Technology, South Korea) |
|
| S9-16 |
Thermoelectric performance enhancement of textured ceramic composite derived from co-electrospun sodium cobaltite and calcium cobaltite nanoribbons |
K. Kebel (Leibniz University Hannover, Germany) |
|
| S9-17 |
Reproducible Synthesis of Fe2O3 Photoanodes for Photoelectrochemical Water Splitting via a Photodiode-Based Heat Treatment Process |
T. W. Kim (Korea Institute of Energy Research, South Korea) |
|
| S9-18 |
New fibrous ceramics for fast redox kinetics in thermochemical fuel production |
N. Knoblauch (DLR, Germany) |
|
| S9-19 |
Separation and Pumping of Hydrogen by Protonic Ceramic Electrochemical Reactor |
S. Kobayashi (Central Research Institute of Electric Power Industry, Japan) |
|
| S9-20 |
Enhancement of thermoelectric performances of CaMnO3 through multiple doping in A- and B-sites |
M. A. Madre (CSIC-Universidad de Zaragoza, Spain) |
|
| S9-21 |
Effect of Fe content on properties of Fe- modified Mn2CuO4 spinel oxide coatings as a potential protective coating for metallic interconnects |
M. Mehdizade (Gdansk University of Technology, Poland) |
|
| S9-22 |
Binder-free Fe-N-C-O Bifunctional Electrocatalyst in Nickel foam for Aqueous Zinc-Air Batteries |
J. Mosa (Instituto de Cerámica y Vidrio (CSIC), Spain) |
|
| S9-23 |
Structural and electrochemical characterization of highly acceptor-doped ceria and zirconia |
P. Mowe (Forschungszentrum Jülich GmbH, Germany) |
|
| S9-24 |
SEM, EDS and image analysis study of the microstructure and phase composition of silica refractories |
V. Necina (University of Chemistry and Technology, Czechia) |
|
| S9-25 |
Enhancing the Performance of Lithium-Ion Capacitors Using Functionalized Carbon Nanofiber Layers to Stabilize Pure Silicon Electrodes |
M. Oh (Korea Institute of Ceramic Engineering and Technology, South Korea) |
|
| S9-26 |
Influence of cermet interlayer between a ceramic hydrogen electrode and metallic current collector on the electrochemical performance of solid oxide electrolysis cell |
S. Paydar (Tartu university, Estonia) |
|
| S9-27 |
Influence of structural and microstructural evolution on the dielectric properties of CCTO ceramics produced in different atmospheres |
D. Thomazini (Federal University of Itajubá, Brazil) |
|
| S9-28 |
Determination of thermodynamic parameters for growth of thermoelectric (Ca,La)MnO3 single crystals by Bridgman-Stockbarger method |
J. Rosa (Federal University of Itajubá, Brazil) |
|
| S9-29 |
CuMg-based Layered Double Hydroxides catalytic systems for photoelectrocatalytic CO2 conversion |
A. Sangiorgi (CNR-ISSMC, Italy) |
|
| S9-30 |
High entropy of rare-earth aluminium garnet for an environmental and thermal barrier of hydrogen oxy-combustion chamber |
E. Sauzeau (University of Limoges, France) |
|
| S9-31 |
Improvement in hydrogen pumping performance of protonic ceramic electrochemical reactors for ammonia cracking systems |
H. Shimada (National Institute of Advanced Industrial Science and Technology (AIST), Japan) |
|
| S9-32 |
Enhancing the Performance of Direct Ammonia SOFCs with Advanced Catalysts |
S. Shin (Korea Institute of Ceramic Engineering and Technology, South Korea) |
|
| S9-33 |
Effects of spark plasma sintering and post-annealing conditions on LiNi0.5Mn1.5O4 properties engineering |
R. Shukla (Empa, Switzerland) |
|
| S9-34 |
Electrical conductivity in La3+ and/or Nb5+ doped CaMnO3 ceramics |
D. Thomazini (UNIFEI, Brazil) |
|
| S9-35 |
High-Entropy Perovskite Oxides with Tunable B-site Chemistry for Thermoelectric Applications |
H. Ünsal (Slovak Academy of Sciences, Slovakia) |
|
| S9-36 |
Alternative low-temperature hot-pressing method for the manufacture of rigid hybrid LATP-based ceramic electrolytes |
A. Varez (UNIVERSIDAD CARLOS III DE MADRID, Spain) |
|
| S9-37 |
Enhancing the Thermoelectric Performance of SrTiO3-Based Materials via Microstructural and Chemical Modifications |
M. Vieira (Universidade de Aveiro, Portugal) |
|
| S9-38 |
Enhanced Bulk and Interfacial Conductivity in All-Solid-State Lithium Metal Batteries via Garnet Surface Phosphorylation |
L. Yang (Southern University of Science and Technology, China) |
|
| S9-39 |
Effect of ZnO sintering aid on the protonic defect concentration and conductivity of BaCe0.1Zr0.75Y0.15O3-d |
J. H. Yu (Korea Institute of Energy Research, South Korea) |
|
| S10-1 |
Development and characterization of new bioglasses doped with Cu, Ag, Sr and Zn used in the field of bone repair surgery |
C. Albert-Mercier (UPHF- CERAMATHS-DMP, France) |
|
| S10-2 |
Effect of protein-containing simulated body fluid on the in vitro bioactivity of 45S5 bioactive glass |
M. Arango Ospina (University of Erlangen Nuremberg, Germany) |
|
| S10-3 |
Development and Evaluation of a Novel Fluoride-Releasing Resin-Modified Glass Ionomer for Enhanced Caries Prevention |
H. S. Lee (Korea Institute of Ceramic Engineering and Technology (KICET), South Korea) |
|
| S10-4 |
Hydrothermal Aging Behavior and Mechanical Performance Evolution of Novel Zirconia Ceramics Exhibiting Optimized Toughness and Strength |
T. Ma (Chinese Academy of Sciences, China) |
|
| S10-5 |
Improvement properties of biodegradable Mg scaffolds by addition of MgO bio ceramic particles: In-vitro study |
M. Mehdizade (Gdansk University of Technology, Poland) |
|
| S10-6 |
Enhancing mechanical properties of biosilicate/carbon glass-ceramic bone scaffolds by engineering and processing of silicone-based blends |
B. Nikendey Holubova (Technical University of Liberec, Czechia) |
|
| S10-7 |
Microwave sintering of zirconia-toughened alumina – Influence of the materials’ composition and sintering cell |
C. Petit (University of Lyon, France) |
|
| S10-8 |
Effect of gallium content on stability and sinterability of amorphous calcium phosphate |
R. Vasiljevs (Riga Technical University, Latvia) |
|
| S10-9 |
Mechanical advancements in hydroxyapatite and nano-substituted hydroxyapatite for maxillofacial bone tissue engineering: a review |
E. Zafarrazzaghnia (Technological University Dublin, Ireland) |
|
| S10-10 |
Gallium-doped hydroxyapatite and its properties |
L. Stipniece (Riga Technical University, Latvia) |
|
| S10-11 |
Fabrication of polycaprolactone-methacrylate-based composite scaffolds for bone tissue engineering |
P. Evdokimov (Lomonosov Moscow State University, Russia) |
|
| S10-12 |
High entropy bioceramics based on mixed-cationic silicogermanophosphates with glaserite structure |
P. Evdokimov (Lomonosov Moscow State University, Russia) |
|
| S11-1 |
Microstructural and Chemical Investigation of Geopolymer Materials for Acid Resistance Evaluation |
T. Ali (INAM Forchheim, Germany) |
|
| S11-2 |
Advanced spatial distribution analysis of doped calcium aluminates and their hydrates |
E. Bartonickova (Brno University of Technology, Czechia) |
|
| S11-3 |
Preparation and properties of a new hydraulic binder prepared from calcined clay, anhydrite II and lime |
K. Betáková (UCT Prague, Czechia) |
|
| S11-4 |
Synthesis of cordierite - geopolymer composites: Influence of mixing and curing conditions on the properties of the geopolymer |
F. Casarrubios (University of Mons, Belgium) |
|
| S11-5 |
Characterization of tubular halloysite from Biga peninsula (NW Türkiye) and determination of tube diameters and lengths by XRD analysis: a comparison between Scherrer method and SEM-TEM imaging |
S. C. Genç (Kaleseramik Research and Development Center, Turkey |
|
| S11-6 |
Research and development of metal silicate materials for cooking oil refining |
J. K. Kang (Giant Chemical Co.,Ltd., South Korea) |
|
| S11-7 |
Influence of Hydrothermal Synthesis Parameters on the Properties of Layered Double Hydroxides |
G. Klydziute (Vilnius University, Lithuania) |
|
| S11-8 |
Preparation of Epsilon-Iron Oxide from Potassic Glass Using Traditional Japanese Ceramic Technologies |
Y. Kusano (Okayama University of Science, Japan) |
|
| S11-9 |
Decarbonizing the Ceramic Industry: An LCA Perspective on CCS Technologies |
V. Nikonova (University of Campania "Luigi Vanvitelli", Italy) |
|
| S11-10 |
Geopolymer composites for green building applications |
E. Papa (National Research Council, Italy) |
|
| S11-11 |
Optimisation and Comparison of Granules Prepared by Dry and Wet Method by Powder Rheometer |
U. Taskiran (Kaleseramik Research and Development Center, Turkey) |
|
| S11-12 |
Investigation of the Suitability of Matt and Transparent Frits for Application in Ceramic Ink-jet Inks |
B. Yazirli (Kaleseramik Research and Development Center, Turkey) |
|
| S12-1 |
Potential of Contact Free Air-Coupled Ultrasonic Testing on Ceramic Materials |
A. Bodi (SONOTEC GmbH, Germany) |
|
| S12-2 |
Possibilities of ion beam preparation as a basis for the visualization of ceramic stuctures |
S. Höhn (Fraunhofer IKTS, Germany) |
|
| S12-3 |
Determination and quantification of the homogeneity of ceramic microstructures |
J. A. Quintana Freire (Fraunhofer IKTS, Germany) |
|
| S12-4 |
Determination of the Amorphous Phase Content in Silica Refractories by X-ray Diffraction |
P. Simonova (University of Chemistry and Technology, Czechia) |
|
| S12-5 |
In-situ high-temperature nanoindentation of ultra-thin structural ceramics and ceramic matrix composites |
F. Wich (University of Bayreuth, Germany) |
|
| S13-1 |
Simulation of relevant Processes during operation of Ceramic MIEC Membranes for Oxygen Production |
T. Hünefeld (Fraunhofer IKTS, Germany) |
|
| S13-2 |
atomic structure of calcium-aluminate glasses: a combined experimental and computational study |
B. Javanpour (Tampere University, Finland) |
|
| S14-1 |
High-Precision 3D Printing of Ceramic Membranes: Advancements with Zirconia and NPJ Technology |
N. Gofman (Ben - Gurion University, Israel) |
|
| S14-2 |
Development of Compatible Catalysts and Membranes for Innovative and Integrated Catalytic Membrane Reactors – I-KaMeRa |
C. Hamel (Otto von Guericke University Magdeburg, Germany) |
|
| S14-3 |
Developing an Oxygen Production Method Using OSM-Pellets and Steam Circulation |
K. Khajryan (TU Bergakademie Freiberg, Germany) |
|
| S14-4 |
Synthesis of ultra-thin Pd-membranes and Pd-alloys |
M. Özen (Fraunhofer IKTS, Germany) |
|
| S14-5 |
Technical kidney – Investigation of the additive manufacturing of ceramic membrane & carrier structures |
H. G. Pensel (Ernst-Abbe-Hochschule Jena, Germany) |
|
| S14-6 |
Pore size tuning of ceramic membranes from ultra- to nanofiltration with Atmospheric Pressure ALD |
H. Sondhi (University of Twente, Netherlands) |
|
| S14-7 |
Synthesis of Phase-Pure High-Entropy Perovskites with Promising Oxygen Transport and Electrocatalytic Properties |
M. Wellmann (Leibniz University Hannover, Germany) |
|
| S14-8 |
Fast and simple room-temperature synthesis of Zn2bim4 for membrane application |
J. L. Wolter (Forschungszentrum Jülich, Germany) |
|
| S15-1 |
Vertical Farming: Doped Spinel Ceramics for Lighting |
V. Feller (Fraunhofer IKTS, Germany) |
|
| S15-2 |
Microwave sintering of pure and MgO-doped transparent polycrystalline alumina |
G. Furtado (UNIFEI, Brazil) |
|
| S15-3 |
Impact of process conditions on scintillating performance of Ce-doped mixed gallium gadolinium aluminium garnet ceramics |
J. Hostaša (CNR ISSMC, Italy) |
|
| S15-4 |
Improving the Transparency of a MgAl2O4 Spinel by a SiO2-ZrO2 Coating after sandblasting |
F. Mercier (Université Claude Bernard Lyon 1, France) |
|
| S15-5 |
Exploring the potential of un-doped and Nd3+-doped perovskite-type cubic BaLaLiTeO6 and BaLaNaTeO6 for transparent ceramics |
K. A. Prokop (University of Wroclaw, Poland) |
|
| S15-6 |
SPS as an effective pre-sintering technique for transparent/translucent HEC |
M. Rotter (CEITEC BUT, Czechia) |
|
| S15-7 |
Structural coloration in transparent alumina from thermal instabilities |
M. Stuer (Swiss Federal Laboratories for Materials Science and Technology (Empa), Switzerland) |
|
| SBS-1 |
Exploring the porosity-storage capacity relationship using core–shell carbon anodes for sodium-ion batteries |
P. Appel (Bundesanstalt für Materialforschung und -prüfung (BAM), Germany) |
|
| SBS-2 |
Electrode hybridization and sodium compensation strategies for high-power sodium-ion systems |
M. Arnaiz (CIC energiGUNE, Spain) |
|
| SBS-3 |
Revealing wetting interactions between porous carbon hosts and alkali metals via X-ray computed tomography towards compact liquid alkali-metal battery anodes |
J. Baller (Humboldt-Universität zu Berlin, Germany) |
|
| SBS-4 |
Mitigating challenges of layered oxide sodium-ion pouch cells: novel electrolyte additive for suppressing sodium plating and prolonging cycle life at high cut-off voltages |
J. Bäthge (E-Lyte Innovations GmbH, Germany) |
|
| SBS-5 |
Analysis of the ionic transport properties of liquid based electrolyte within battery separator |
T. Bouchet (INP Grenoble, France) |
|
| SBS-6 |
Spray pyrolysis for tailored cathode and anode materials in sodium-ion batteries: from layered oxides to sodium titanates |
J. Buchheim (Glatt Ingenieurtechnik GmbH, Germany) |
|
| SBS-7 |
NASICON electrolytes for room-temperature sodium-sulfur batteries with NaK alloy negative electrode interface |
A. Cornelio (Bundesanstalt für Materialforschung und -prüfung (BAM), Germany) |
|
| SBS-8 |
Insights into the electrochemical degradation at the cathode-electrolyte interphase in sodium-ion batteries |
E. Cortese (Justus-Liebig-University Giessen, Germany) |
|
| SBS-9 |
Exploring the sodiation mechanism in hard carbon using SAXS/WAXS |
I. Drevander (Chalmers University of Technology, Sweden) |
|
| SBS-10 |
Processing of active material for thick electrodes in sodium-ion batteries for stationary applications |
L. Eisele (Fraunhofer Institute for Solar Energy Systems ISE, Germany) |
|
| SBS-11 |
Design strategies for long-life tin anodes in sodium-ion batteries |
M. Gobbo de Castro Munhoz (Imperial College London, University of Sao Paulo, UK) |
|
| SBS-12 |
Electrolytes based on alternative phosphate anions for sodium-ion batteries |
R. Graf (University Würzburg, Germany) |
|
| SBS-13 |
Safety evaluation of layered -oxide sodium-ion batteries |
A. Herrmann (RWTH Aachen University, Germany) |
|
| SBS-14 |
Drop-in ability and comparison of various sodium-ion battery active materials |
K.-K. Kasten (Institute for Particle Technology, Germany) |
|
| SBS-15 |
A novel method to reveal internal structures of Na-NiCl2 solid state batteries via X-ray microscopy segmentation with local augment |
R. R. Kolan (Fraunhofer IKTS, Germany) |
|
| SBS-16 |
A sodiophilic layer-based on air-fired functionalized carbon black for solid electrolytes in low-temperature molten sodium batteries |
Y. Lee (Gyeongsang National University, South Korea) |
|
| SBS-17 |
High-Performance Dual-Salt Electrolytes for Advanced Sodium-Ion Batteries: sodium bis(fluorosulfonyl)imide and sodium difluoro(oxalato)borate in propylene carbonate or Bio-Derived γ-Valerolactone |
Y. Lu (Friedrich-Schiller University Jena, Germany) |
|
| SBS-18 |
In situ CT characterization of high temperature sodium metal halide batteries under operation condition |
M. Maschke (Fraunhofer IKTS, Germany) |
|
| SBS-19 |
Characterization of beta-alumina solid electrolyte by coin cell testing |
B. Mieller (Bundesanstalt für Materialforschung und -prüfung (BAM), Germany) |
|
| SBS-20 |
Optimizing kraft lignin-derived hard carbons as negative electrode in sodium-ion batteries via different synthetic approaches |
S. Mirmasoomi (Friedrich-Schiller University Jena, Germany) |
|
| SBS-21 |
Exploring synthesis protocols for sustainable nitrogen-doped hard carbons from chitin as stable anode materials for sodium-ion batteries |
A. Moyseowicz (Wroclaw University of Science and Technology, Poland) |
|
| SBS-22 |
All-liquid Na-Zn electrochemical cells: aspects of negative electrode-current collector design |
W. Nash (Helmholtz-Zentrum Dresden-Rossendorf, Germany) |
|
| SBS-23 |
Effect of metallic ash elements on microstructure and electrochemical performance of lignin-derived hard carbon for sodium-ion batteries |
J. Peng (Friedrich-Schiller University Jena, Germany) |
|
| SBS-24 |
Aging analysis of 81 commercial NaMO₂/hard carbon sodium-ion batteries after 5000 full equivalent cycles |
K. L. Quade (RWTH Aachen, Germany) |
|
| SBS-25 |
Doping hard carbon anodes in sustainable sodium-ion batteries |
M.-L. Reich (Imperial College London, UK) |
|
| SBS-26 |
From cell to system: prototyping a 60 kWh sodium battery for stationary applications |
M. Richter (Fraunhofer IKTS, Germany) |
|
| SBS-27 |
Na-Zn liquid metal batteries: a viable solution for large-scale energy storage? |
M. Sarma (Helmholtz-Zentrum Dresden–Rossendorf, Germany) |
|
| SBS-28 |
Influence of Na₂S purity on the synthesis of Na₃₋ₓP₁₋ₓWₓS₄ electrolytes: reaching 25 mS/cm |
F. Schnaubelt (Justus-Liebig-University Giessen, Germany) |
|
| SBS-29 |
Formation and ageing of sodium-ion pouch cells with different electrolyte solvents |
M. Schütte (ISEA RWTH Aachen University, Germany) |
|
| SBS-30 |
Understanding the solid electrolyte interphase in hard carbon anodes for sodium-ion batteries |
S. Sharma (Imperial College London, UK) |
|
| SBS-31 |
Performance testing of theleading commercial sodium-ion battery: insights and implications |
C. Siebert (RWTH Aachen, Germany) |
|
| SBS-32 |
Electrochemical properties of powder aerosol co-deposited NaCrO2/C binder-free composite cathodes for sodium-ion batteries |
M. Sozak (University of Bayreuth, Germany) |
|
| SBS-33 |
Shortened time-to-market through early simulation |
B. Späth (RWTH Aachen University, Germany) |
|
| SBS-34 |
Towards Cost-Effective, High-Performance, and Sustainable Sodium-Ion Batteries: A Multidimensional Optimization Approach |
J. Sprengelmeyer (Volkswagen AG, Germany) |
|
| SBS-35 |
The application of the pair distribution function (PDF) to organic electrode materials |
M. Stanzione (University of St Andrews, UK) |
|
| SBS-36 |
Chemomechanical behavior and tortuosity effects in P2-NaFeMnO₂ cathodes for solid-state sodium batteries |
D. Wagner (University Giessen, Germany) |
|
| SBS-37 |
A non-flammable carbonate electrolyte using triethyl phosphate as co-solvent |
J. Welch (Uppsala University, Sweden) |
|
| SBS-38 |
Unveiling the role of nitrogen functionalities in sodium storage mechanism of carbon electrodes |
S.-H. Wu (Bundesanstalt für Materialforschung und -Prüfung (BAM), Germany) |
|
| SBS-39 |
Na-β"-alumina as solid electrolyte under pressure - a step towards an all-solid-state-battery |
B. Xue (Fraunhofer IKTS, Germany) |
|
| SBS-40 |
The breakthrough of sodium salt batteries from Arohora |
J. Zhu (AROHORA Technology Co. Ltd., China) |
|
| SBS-41 |
Highly active nanostructured nickel-sulfide electrocatalysts for aqueous polysulfide/bromine redox flow battery |
D. Zitoun (Bar Ilan University, Israel) |
|
