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group’s research advances polymer network design to achieve high mechanical performance for the evolving demands of modern technologies. For more details, please view https://www.ntu.edu.sg/mse/research
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of the mechanical properties of the stack and its components on PEMFCs’ operation [2-4], studies focused on the interfaces’ mechanical properties of MEAs and the relationship of these properties of the PEMFC’s
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biology. The project aims to uncover how mechanical properties, forces, and physical phenotypes integrate with molecular networks to regulate the function of complex cellular systems across multiple
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rupture mechanisms and their sensitivity to degradation. Histological analyses (collagen, elastin, actin, myosin, desmin) will complement mechanical results and enable structure–property correlations
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optoelectronic characterization of ferroelectric domains and excitonic properties, including micro-photoluminescence, Raman spectroscopy, SHG, and near-field optical methods. Investigation of ferroelectric domain
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, physical, mechanical, and technological properties of metallic materials, their characterization through macro, micro, and nano-structural and fractographic analyses, also in relation to corrosion, oxidation
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: Applications accepted all year round Details Graphene is a novel material with outstanding electronic and mechanical properties. Chemical modification of graphene gives rise to new materials, such as graphene
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stresses. While effective, this mechanism relies on energy-consuming and irreversible adhesion. A new and fascinating paradigm has recently emerged: geometric cohesion, the spontaneous emergence
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stresses. While effective, this mechanism relies on energy-consuming and irreversible adhesion. A new and fascinating paradigm has recently emerged: geometric cohesion, the spontaneous emergence