The School of Mechanical & Aerospace Engineering (MAE) is a robust, dynamic and multi-disciplinary international research community comprising of world-class scientists and bright students. MAE prides itself in its excellent research capabilities in areas including advanced manufacturing, aerospace, biomedical, energy, industrial engineering, maritime engineering, robotics, etc. The school is equipped with state-of-the-art research infrastructure, housing a comprehensive range of cluster laboratories, test bedding facilities, research centres/institutes and corporate laboratories. Cutting-edge research in MAE addresses the immediate needs of our industries and supports the nationβs long-term development strategies. In the new era of industrial 4.0 and sustainable living, MAE is rigorous in developing new competencies to support the growth and competitiveness of our engineering sector in the global landscape. MAE has grown to be leader in Engineering Research, ranking amongst the top engineering schools in the world.
For more details, please view https://www.ntu.edu.sg/mae/research.
Key Job Purposes:
The School of Mechanical and Aerospace Engineering (MAE) is seeking to hire a Research Fellow to carry out research on mechanics of collective behaviors of living cells under various environmental stimulations. In particular, he will look into the behaviors of contractile cells such as C2C12 skeletal muscle cells, and determine how extracellular environment will affect the morphology of multi-cellular constructs. He/she will collaborate with other Research Fellows, Research Associates, Project Officers, as well as students including Ph.D. and Master's students, undergraduate students, visiting scholars and researchers in the group. The RF will be responsible for designing experimental research on mechanics of plants and plant morphogenesis cause by mechanical stimuli including, but not limited to, plant leaf shape formation/morphing, biomimetic structures/devices based on shape morphing principles learned from plants. Furthermore, the PO will explore potential applications of the research findings in various fields including, but not limited to, soft robotics, morphing space structures, and sensors/actuators.
The RF may also involve in research proposal writing. The RF's role encompasses research leadership, mentorship, and collaboration within a multidisciplinary research environment to address major scientific challenges in plant mechanics and morphogenesis.
Key Responsibilities:
Research Leadership: Take research initiatives to explore new ideas and develop new methods. Drive the research strategies, methodologies, and experimental designs to advance knowledge in this domain.
Collaboration: Collaborate with other Research Associates, Project Officers, and students including Ph.D. and Master's candidates, undergraduate students, visiting scholars and researchers. Foster collaborations within the research group and with other researchers outside the group.
Experimental and Modelling Research: Carry out both experimental and modelling research activities.
Key responsibility 4 Application Exploration: Explore the potential applications of the findings of plant mechanics in morphing structure design.
Key responsibility 5 Publication and Dissemination: Contribute to scholarly publications, research papers, and presentations at conferences. Disseminate research findings to the academic community and relevant industries.
Key responsibility 6 Strategic Collaboration: Collaborate with external partners, industry stakeholders, and other institutions to foster partnerships that enhance the impact of research outcomes and facilitate knowledge transfer.
Job Requirements:
PhD degree in relevant field (e.g., mechanical engineering, materials science)
Established publication and research expertise
In-depth understanding of cell mechanics and mechanobiology
Working at the interdisciplinary frontiers of mechanics, cell biology, and technology
Proficiency in research methodologies and academic communication
Rich experiences in cell mechanics research
Proven publication record
Basic mechanics research knowledge such as solid mechanics and material constitutive laws
Basic cell biology knowledge
Simulation research skills such as finite element method
Experimental, modelling and simulation tools
Proficiency in spoken and written English for research work
We regret to inform that only shortlisted candidates will be notified.
Hiring Institution: NTU