Forschungsbericht 2023

Integrated Ceramic-based Materials Systems M-EXK3

Leitung: Pagnan Furlan, Kaline
Gründungsdatum: 1.8.2021

Institut auf TORE
Institutswebsite

The Integrated Materials Systems research group is an interdisciplinary group embedded in the Institute of Advanced Ceramics at TUHH. Our main research interest lies in the tailoring and precise functionalization of interfaces of ceramics and metal-ceramic hybrids for relevant applications, building a bridge between materials science and manufacturing engineering. Our main focus is to understand and control the microscale and nanoscale processes at interfaces and/or within microstructures, to be able to tailor the macroscopic materials’ properties. Here, we differentiate between “bulk phase or design properties” and “nano- to microscale-driven properties”, where nanoscale size effects and interfaces play a fundamental role. We strive to study and understand the fundamental structure-processing-properties’ relationships to be able to develop integrated materials systems targeting three main trusts:

• optical (photonics) properties, including structural colors (visible range) and reflective thermal barrier coatings (IR range)
• “chemical” properties, including photocatalysis, dark catalysis and water splitting for energy generation
• advanced and innovative manufacturing, including the development of additive manufacturing combined with self-assembly of hybrid and hierarchical materials systems, as well as atomic layer deposition onto powders and 3D structures
  For further details and to learn more about our current as past projects, check https://www.tuhh.de/materials/research

Publikationen

• 4D-Printing of Smart, Nacre-Inspired, Organic-Ceramic Composites - Journal Article
  Winhard, Benedikt; Haida, Philipp; Plunkett, Alexander; Katz, Julian; Domènech Garcia, Berta; Abetz, Volker; Pagnan Furlan, Kaline; Schneider, Gerold A.
  Additive Manufacturing 77: 103776 (2023-09-05)
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• Mullite photonic glasses with exceptional thermal stability for novel reflective thermal barrier coatings - Journal Article
  Gomez Gomez, Alberto; Ribas Gomes, Diego; Winhard, Benedikt; Maragno, Laura G.; Krekeler, Tobias; Ritter, Martin; Pagnan Furlan, Kaline
  Journal of Materials Science 58 (32): 12993-13008 (2023-08)
  Open Access | Publisher DOI
  
  
• Influence of B-site substituent Ce on thermophysical, oxygen diffusion, and mechanical properties of La₂Zr₂O₇ - Journal Article
  Che, Junwei; Liu, Xiangyang; Wang, Xuezhi; Pagnan Furlan, Kaline; Zhang, Shengli
  Ceramics International 49 (7): 10936-10945 (2023-04-01)
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• Unraveling the role of shell thickness and pore size on the mechanical properties of ceramic-based macroporous structures - Journal Article
  Gomez Gomez, Alberto; Winhard, Benedikt; Lilleodden, Erica; Huber, Norbert; Pagnan Furlan, Kaline
  Journal of the American Ceramic Society 106 (2): 1273-1286 (2023-02)
  Open Access | Publisher DOI
  
  
• Printing crack‐free microporous structures by combining additive manufacturing with colloidal assembly - Journal Article
  Winhard, Benedikt; Maragno, Laura G.; Gomez Gomez, Alberto; Katz, Julian; Pagnan Furlan, Kaline
  Small Methods 7 (2): 2201183 (2023)
  Open Access | Publisher DOI
  
  
• Engineering solutions for a more inclusive society : a case study with Europe-wide challenge-based learning - Conference Paper
  Osterhus, Lennart; Bulmann, Ulrike; Schneider, Viktoria Constanze; Furlan, Kaline
  51st Annual Conference of the European Society for Engineering Education (SEFI 2023)
  Open Access | Publisher DOI
  
  

Projekte

• In-situ Characterization of Phase Transitions in Nanostructures
  Zentrum für Hochleistungsmaterialen (ZHM); Laufzeit 2023-2023
  Projektleitung: Pagnan Furlan, Kaline
  
  
• NoPa 2.0 - Development of Catalytic Materials Systems for Non-intermittent Green Hydrogen Production
  Deutscher Akademischer Austauschdienst (DAAD); Laufzeit 2023-2023
  Projektleitung: Pagnan Furlan, Kaline
  
  
• Interphasen-Engineered bioinspirierte keramische transparente Verbundwerkstoffe
  Deutsche Forschungsgemeinschaft (DFG); Laufzeit 2022-2024
  Projektleitung: Pagnan Furlan, Kaline
  
  
• SoBeIn - Aktivierung des sozialen Bewusstseins von Ingenieur*innen in Hamburg
  Behörde für Wissenschaft, Forschung und Gleichstellung; Laufzeit 2022-2023
  Projektleitung: Pagnan Furlan, Kaline
  
  
• Advanced Nanostructured Materials for Sustainable Pollutant Abatement
  Deutscher Akademischer Austauschdienst (DAAD); Laufzeit 2022-2023
  Projektleitung: Pagnan Furlan, Kaline
  
  
• SFB 986: Subproject C04 - Additive manufacturing by selfassembly of colloidal suspensions for tailor-made photonic properties
  Deutsche Forschungsgemeinschaft (DFG); Laufzeit 2012-2024
  Projektleitung: Pagnan Furlan, Kaline; Schneider, Gerold A.