Projeto PRR
Paralab Chair in 3D printing
Ficha de projeto
Nome
Paralab Chair in 3D printingValor total do projeto
246,79 mil €Valor pago
0 €Financiamento não reembolsável
246,79 mil €Financiamento por empréstimos
0 €Data de início
01.02.2025Data de conclusão
31.03.2026Dimensão
ResiliênciaComponente
Qualificações e competênciasInvestimento
Ciência Mais CapacitaçãoCódigo de operação
02/C06-i06/2024.P2023.15056.TENURE.065Sumário
CBQF Chair in 3D printing will be primarily responsible for leading and executing innovative research projects at the intersection of biomedical engineering and 3D printing technologies. The candidate will collaborate closely with both academic and industrial teams, leveraging the capabilities of the CBQF and Paralab to develop new medical devices and 3D printing applications.Key tasks include:Lead projects aimed at the design and development of new biomedical devices using 3D printing technology.Explore and develop new bio-compatible materials (bioinks) suitable for 3D printing applications.Utilize 3D printing for rapid prototyping of device designs.Work closely with researchers, clinicians, and engineers within the CBQF and Paralab, as well as with external partners, to integrate cutting-edge 3D printing technologies into biomedical research and development projects.Act as a liaison between the technical team and non-technical stakeholders, translating complex engineering concepts into understandable terms and demonstrating the potential impact of 3D printed biomedical solutions.Manage the lifecycle of 3D printing projects from conception through to completion, ensuring they are delivered on time, within scope, and budget.Keep up on the latest developments in 3D printing technology and biomedical engineering research to identify opportunities for innovation and improvement.Engage in continuous professional development to enhance technical skills in 3D printing and broaden knowledge in biomedical engineering, attending workshops, conferences, and courses relevant to the field.Facilitating technology transfer from research to production stages.The ideal candidate should possess a Ph.D. in Biomedical Engineering and Regenerative Medicine or a closely related field, with a strong emphasis on 3D printing technologies. Essential skills and qualifications include:Proven expertise in 3D printing techniques and materials, particularly as applied to biomedical engineering.Experience in the design, development, and testing of novel biomaterials (bioinks).Knowledge of Innovation and Technology Integration (Technology transfer).Comprehensive Business Knowledge and strategic thinking.Strong publication record in peer-reviewed journals.Excellent problem-solving abilities and a collaborative mindset.Ability to work effectively across interdisciplinary teams and projects.The proposed hiring is totally aligned with CBQF-UCP and Paralab goals and under the scope of Biomaterials and Biomedical Technology laboratory at CBQF-UCP, envisioning the development of multidisciplinary research strategies in biomedical research.Recently, Paralab, through its Paralab Bio division, entered into a strategic distribution agreement with CELLINK, a global pioneer in 3D bioprinting (https://paralab.pt/noticias/paralab-faz-parceria-com-a-cellink-para-promover-a-bioimpressao-3d-em-portugal-e-espanha/ ).The hiring of a 3D printing manager is crucial to bridge the gap between innovative biomedical research and practical medical solutions. This position will enable CBQF-UCP and Paralab to remain at the forefront of biomedical engineering research, fostering the development of groundbreaking 3D printing research. Additionally, this role will facilitate the translation of academic research into commercially viable products, enhancing the impact of the scientific discoveries on healthcare. This synergy between the CBQF-UCP and Paralab represents a strategic initiative to leverage academic research for industrial applications. The new hire will play a key role in this process, aiming to establish a robust pipeline of innovative medical devices and biomaterials (bioinks), setting new standards in the field of 3D printing.
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Distribuição geográfica
246,79 mil €
Valor total do projeto
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Por concelho
1 concelho financiado .
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Lisboa 246,79 mil € ,