Susana Maria Henriques Olhero

Assistant Professor

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  • Materials and Ceramic Engineering

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Short CV

Susana Olhero (SO) is nowadays a Principal Researcher in CICECO (Aveiro Institute of Materials)/UA (University of Aveiro) and member of the Executive Board of Department of Materials Engineering and Ceramics (DEMaC)/CICECO/UA. SO has a Doctorate degree in the field of Material Science and Engineering from University of Aveiro (2006). From 2006-2014 was a pos-doc researcher at University of Porto and University of Birmingham, in strong collaboration with CICECO/University of Aveiro. From 2015-2018, SO was Assistant Researcher at CICECO/UA (FCT grant (IF/00951/2014). The focus of her research has been the development of 3D structures by near net shaping colloidal-based techniques, including additive manufacturing of various functional ceramics for several applications, including biomaterials for bone regeneration. Susana Olhero is author of 73 publications in peer review international journals, 2 book chapters and 1 national patent, with over 1650 citations, h-index 25. Susana Olhero supervised/Co-supervised 2 PhD, 11 Master Thesis and several research fellows (Pos-doc and PhD) from her Projects.

 

 

Present Research group

Susana Olhero - Principal Researcher

Paula Torres - Junior Researcher

Nilza Ribeiro - Researcher

Manuel Silva- Researcher

José Carlos Almeida - Researcher

 

Supervisions (since 2018)

Manuel Barros, grant of Project 2BBone (POCI-01-0145-FEDER-029940)

Joana Baltazar, grant of Project TAMAZ3D (POCI-01-0145-FEDER-030493)

Tânia Santos, grant of Project MulBioImplant (POCI-01-0145-FEDER-032486)

Ana Filipa Rodrigues, grant of Project FlexMicroDerm (POCI-01-0145-FEDER-029274)

Teaching Activity

Courses of (i) Integrated Master in Materials Science and Engineering,  Masters in (ii) Materials and Biomedical Devices and (iii) Additive Manufacturing.

Scientific Interests

- Additive manufacturing of ceramics and multimaterials (dense and porous devices)

 - Biomaterials for tissue engineering applications, mainly focused in bone regeneration.

 - Colloidal processing of ceramics 

Ongoing Supervisions

Juliana de Freitas Gouveia Silva

PhD Student

Manuel Fellipe Rodrigues Pais Alves

PhD Student

Mónica dos Santos Faria

PhD Student

Nilza Maria Lopes Ribeiro

Junior Researcher

Simão Cordeiro Santos

PhD Student

Tânia Sofia Santos Carvalho

PhD Student

Projects

Additive manufacturing meets mechanobiology – design and fabrication of osteogenic-stimulating implants (ADD2MECHBIO)

PartnerFundação para a Ciência e a Tecnologia
Over the years, the number of patients undergoing total hip and knee arthroplasties has been increasing. Due to the lengthened life expectancy and aging population this trend is expected to continue and the number of patients that will outlive their first prosthesis will also rise (patients that will need revision surgeries). These impl...

Desenvolvimento de biomateriais não sinterizáveis à base de fosfatos de cálcio com bi-funcionalidade: regeneração e tratamento de cancro ósseo (2BBone)

PartnerFundação para a Ciência e a Tecnologia

Desenvolvimento de microdispositivos flexiveis a base de microagulhas de biocimento composito para administracao transdermica de fármacos; (FlexMicroDerm)

PartnerFundação para a Ciência e a Tecnologia

Development of microelectromechanical systems by gelcasting - GELMEMS (PTDC/CTM/099489/2008)

PartnerFundação para a Ciência e a Tecnologia
microelectromechanical systems (MEMS) gel casting piezoelectric submicron particles dispersion

FABIMED - Fabrication and Functionalization of BioMedical Microdevices (FaBiMed)

Local CoordinatorEuropean Comission
The aim of FaBiMed proposal is to improve and develop new manufacturing techniques, based on micromoulding, specific for biomedical microdevices. The project will be to reducing the cost of mass production of diagnosis and therapeutic micro devices which have a common problematic: medium sized batches, customization needs, micron-scale geometric...

Human Platelet Lysates-based Scaffolds for Interfacial Multi-tissue Repair (INTERLYNK)

PartnerEuropean Comission
InterLynk aims to develop multi-tissue 3D patient-specific scaffolds by providing a portfolio of highly compatible and biofunctional composite inks and biomaterials, and streamlining their co-processing using an upgraded AM equipment. Unprecedented biofunctionality in the synthetic reconstruction of complex interfacial tissues is expect...

Projeto de Investigação Exploratória: Susana Olhero (IF/00951/2014)

CoordinatorFundação para a Ciência e a Tecnologia

Publications

Water-based hydroxyapatite photocurable feedstock for the manufacture of architectured parts by vat photopolymerization

Simão Santos , Manuel F.R.P. Alves , Georgina Miranda , Susana M. Olhero
2025, Additive Manufacturing, Volume 101, 104710.

Effect of TPMS reinforcement on the mechanical properties of aluminium–alumina interpenetrating phase composites

S. Santos, C. Matos, I. Duarte, S. M. Olhero, G. Miranda
2025, Progress in Additive Manufacturing, Volume 10, 1187–1199.

Insights into morphology and mechanical properties of architected interpenetrating aluminum-alumina composites

Carlos Matos, Simão Santos, Isabel Duarte, Susana Olhero, Georgina Miranda
2024, Journal of Composite Materials, Volume 58(24), 2623-2637..

Sustained drug release from sintering-free calcium phosphate-based scaffolds

Soares, F; Ribeiro, N; Baia, A; Torres, PMC; Sarmento, B; Olhero, SM
2023, JOURNAL OF DRUG DELIVERY SCIENCE AND TECHNOLOGY, 88.

Multiscale modelling of the thermoelastic properties of alumina-zirconia ceramics for 3D printing

Carmo, GP; Mesquita-Guimaraes, J; Baltazar, J; Olhero, SM; Antunes, P; Torres, PMC; Gouveia, S; Dias-de-Oliveira, J; Pinho-da-Cruz, J
2023, CERAMICS INTERNATIONAL, 49, 16, 26205-26225.

Influence of ink rheology and post processing in the structural performance of silicon nitride-based ceramics fabricated by robocasting

Faria, MS; Alves, MFRP; Cintra, R; Oliveira, FJ; Fernandes, CM; Figueiredo, D; Olhero, SM
2023, CERAMICS INTERNATIONAL, 49, 12, 20968-20979.

Magnetic polylactic acid-calcium phosphate-based biocomposite as a potential biomaterial for tissue engineering applications

Carvalho, TSS; Ribeiro, N; Torres, PMC; Almeida, JC; Belo, JH; Araujo, JP; Ramos, A; Oliveira, M; Olhero, SM
2023, MATERIALS CHEMISTRY AND PHYSICS, 296.

Influence of structural features in the performance of bioceramic-based composite scaffolds for bone engineering applications: A prediction study

Rosa, N; Pouca, MV; Torres, PMC; Olhero, SM; Jorge, RN; Parente, M
2023, JOURNAL OF MANUFACTURING PROCESSES, 90, 391-405.

3D-printed red mud/metakaolin-based geopolymers as water pollutant sorbents of methylene blue

Gonçalves, NPF; Olhero, SM; Labrincha, JA; Novais, RM
2023, JOURNAL OF CLEANER PRODUCTION, 383.

Bioactive Magnetic Materials in Bone Tissue Engineering: A Review of Recent Findings in CaP-Based Particles and 3D-Printed Scaffolds

Carvalho, TSS; Torres, PMC; Belo, JH; Mano, J; Olhero, SM
2023, ADVANCED NANOBIOMED RESEARCH, 3, 9.

Successful Strategies for Aqueous Colloidal Shapeforming of Nitride- Based Ceramics

In Pandalai SG (Eds.), Recent Developments In Colloids & Interface Research
Olhero SM, Oliveira MILL, Ferreira JMF
2004, 2, 65-89, Transworld Research Network.
ISBN: 81-7895-133-9

Patents

AlN Passivation method relatively to hydrolysis, of AlN based ceramics colloidal processing in aqueous medium, and granulation of powders from those suspensions

Processes National

Ferreira, José; Olhero, Susana; Oliveira, Marta

The present invention relates to methods of passivating the surface of aluminium nitride (AlN) particles against hydrolysis reactions that occur spontaneously when this material is placed in contact with water in the vapour state and, especially in liquid state, as well as to a method of preparation stable and highly concentrated AlN ba...

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