... biofabrication techniques, biomaterials, biosensors, wearable electronics, and machine learning Experience with mechanical and rheological testing of biodegradable or soft materials Hands-on ...
... biofabrication techniques, biomaterials, biosensors, wearable electronics, and machine learning Experience with mechanical and rheological testing of biodegradable or soft materials Hands-on ...
Overview The Advanced Regenerative Manufacturing Institute (ARMl)IBioFabUSA is a Member-based non-profit organization founded to build the biofabrication industry and transform the future of health ...
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Overview The Advanced Regenerative Manufacturing Institute (ARMl)IBioFabUSA is a Member-based non-profit organization founded to build the biofabrication industry and transform the future of health ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
The Biodesign Research Agenda supports extra-curricular and co-curricular R&D regarding novel biomaterials, biofabrication technologies, and their applications, supported through millions of dollars ...
The Biodesign Research Agenda supports extra-curricular and co-curricular R&D regarding novel biomaterials, biofabrication technologies, and their applications, supported through millions of dollars ...
Associate or Full Professor in Convergent Biology and Biomedical Engineering
Bloomington, IN · On-site
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
Associate or Full Professor in Convergent Biology and Biomedical Engineering
Bloomington, IN · On-site
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
The Biodesign Research Agenda supports extra-curricular and co-curricular R&D regarding novel biomaterials, biofabrication technologies, and their applications, supported through millions of dollars ...
The Biodesign Research Agenda supports extra-curricular and co-curricular R&D regarding novel biomaterials, biofabrication technologies, and their applications, supported through millions of dollars ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
... and biofabrication, including bioprinting and scalable living systems - Regenerative biology and regenerative medicine with translational relevance Role within the Convergent Bioscience and ...
Biofabrication information
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What are some common challenges faced by professionals in Biofabrication roles?
Professionals working in Biofabrication often encounter challenges such as optimizing complex bioprinting processes, ensuring cell viability, and meeting strict regulatory standards for medical applications. They must also troubleshoot technical issues with advanced equipment and adapt quickly to rapidly evolving technologies and methodologies. Working in this field typically involves close collaboration with scientists, engineers, and clinicians, so communication and problem-solving skills are vital. Overall, the dynamic and interdisciplinary nature of biofabrication can make the work highly rewarding, but also requires adaptability and a commitment to ongoing learning.
What are the key skills and qualifications needed to thrive in the Biofabrication position, and why are they important?
To thrive in Biofabrication, you need expertise in biotechnology, tissue engineering, and materials science, usually supported by an advanced degree in biomedical engineering or a related field. Proficiency with 3D bioprinting technologies, cell culture systems, CAD software, and laboratory protocols is essential, along with knowledge of regulatory and safety standards. Strong analytical thinking, creativity, teamwork, and clear communication distinguish top performers in this innovative field. These competencies are crucial for developing functional biological tissues, collaborating across multidisciplinary teams, and advancing cutting-edge medical solutions.
What is a Biofabrication job?
A Biofabrication job involves using advanced manufacturing techniques, such as 3D bioprinting and tissue engineering, to create biological materials, tissues, or medical devices. Professionals in this field work at the intersection of biology, engineering, and material science to develop solutions for regenerative medicine, drug testing, and organ transplantation. Roles may include research scientists, biomedical engineers, or bioprinting specialists working in academia, healthcare, or biotechnology industries.
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Other
Posted 22 days ago
Job description
Research Assistant Professor (Non-Tenure Track) - Cutaneous Bioengineering Department of Dermatology, University of Pittsburgh School of Medicine
Advance skin-targeted biomedical technologies at the engineering-dermatology interface! The University of Pittsburgh School of Medicine's Department of Dermatology invites applications for a Research Assistant Professor (non-tenure track / appointment stream) with strong interests in cutaneous bioengineering. This is an exciting opportunity to join a dynamic, interdisciplinary, and highly collaborative research environment focused on developing clinically translatable biomedical technologies for skin-targeted applications.
The successful candidate will contribute to cutting-edge projects centered on skin-targeted platforms and wearable diagnostic technologies to monitor and regulate systemic immunity. Research is highly translational, integrating engineering, biology, and clinical insights, with validation using advanced human skin models and in vivo animal models.
Key Responsibilities
Design, fabricate, and evaluate biomedical technologies, including structural, electrical, and biological characterization
Conduct advanced directed research to achieve project objectives
Develop clinically translatable technologies for skin vaccination and wearable diagnostics
Perform in vitro and in vivo validation using human skin models and animal models
Collect, analyze, and interpret experimental data with scientific rigor
Assist in preparation of publication-quality figures, manuscripts, grant or proposal materials, and quarterly progress reports (including written summaries and presentation slides)
Present research findings at laboratory meetings, departmental seminars, scientific conferences, and weekly project meetings
Support management of laboratory resources, equipment, and shared research infrastructure
Collaborate with multidisciplinary teams of principal investigators, postdoctoral fellows, and trainees
Apply strong project management skills to track deliverables, manage timelines, and ensure compliance with reporting requirements
Excellent communication skills for technical reporting, presentations, and stakeholder engagement
Exercise advanced problem solving to anticipate risks, develop mitigation strategies, and adapt to evolving technical challenges
Perform other duties as assigned in support of overall project goals
Required Qualifications and Skills
PhD in Biomedical Engineering, Mechanical Engineering, Materials Science and Engineering, or a closely related field
Postdoctoral training with demonstrated progression in research management and productivity
Strong record of peer-reviewed publications in biomedical engineering or related fields
Demonstrated experience in the design, manufacturing, and evaluation of biomedical technologies
Expertise in one or more of the following areas: biomimicry, biofabrication techniques, biomaterials, biosensors, wearable electronics, and machine learning
Experience with mechanical and rheological testing of biodegradable or soft materials
Hands-on experience working with mouse models, human tissue models, and cellular biology techniques
Proficiency with molecular and immunological assays, including qPCR, ELISA, and flow cytometry
Evidence of strong analytical, problem-solving, and data interpretation skills
Excellent written and verbal communication skills
Join us in advancing next-generation skin-targeted biomedical technologies!
Interested candidates should apply at http://join.pitt.edu Requisition #26002669. The University of Pittsburgh is an Affirmative Action/ Equal Opportunity Employer and values equality of opportunity, human dignity, and diversity, EOE, including disability/vets.
Applications should include the following:
Cover letter describing research interests and relevant experience
Curriculum vitae
Research interest statement (1-2 pages)
Contact information for 3-5 professional references
About University of Pittsburgh Medical Center
Sourced by ZipRecruiter
Industry
Colleges, universities, and professional schools
Company size
10,000+ Employees
Headquarters location
Pittsburgh, PA, US
Year founded
1893