M
Muhammad Yunusa
Researcher at Max Planck Society
Publications - 12
Citations - 436
Muhammad Yunusa is an academic researcher from Max Planck Society. The author has contributed to research in topics: Microfluidics & Gallium. The author has an hindex of 6, co-authored 11 publications receiving 277 citations. Previous affiliations of Muhammad Yunusa include National Autonomous University of Mexico & Bilkent University.
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Bioinspired Composite Microfibers for Skin Adhesion and Signal Amplification of Wearable Sensors.
TL;DR: A facile approach is proposed for superior conformation and adhesion of wearable sensors to dry and wet skin and the signal-to-noise ratio of the strain sensor is significantly improved because of the considerable signal amplification of microfibrillar skin-adhesive films.
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Additive manufacturing of cellulose-based materials with continuous, multidirectional stiffness gradients.
Pedro Augusto Galbiati Silva Giachini,S. S. Gupta,Wendong Wang,Dylan Wood,Muhammad Yunusa,Ehsan Baharlou,Ehsan Baharlou,Metin Sitti,Metin Sitti,Achim Menges +9 more
TL;DR: A combined approach of materials engineering and digital processing is leveraged to enable extrusion-based multimaterial additive manufacturing of cellulose-based tunable viscoelastic materials with continuous, high-contrast, and multidirectional stiffness gradients.
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Surface Textured Polymer Fibers for Microfluidics
TL;DR: In this article, the authors used a PDA-coated surface textured polyetherimide (PEI) preform to construct a star-shaped very long polymer micro-fi bers with very regular, aligned micro-scale surface textures.
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Shape anisotropy-governed locomotion of surface microrollers on vessel-like microtopographies against physiological flows.
TL;DR: In this article, the shape anisotropy of microrollers on vessel-like 3D surface microtopographies against physiological flow conditions has been investigated for robust locomotion on vessel walls against physiological flows.
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Wrinkling Instability and Adhesion of a Highly Bendable Gallium Oxide Nanofilm Encapsulating a Liquid-Gallium Droplet.
TL;DR: The wrinkling and interfacial adhesion mechanics of a gallium-oxide nanofilm encapsulating a liquid-gallium droplet are presented, and the observed wrinkling closely resembles the instability experienced by nan ofilms under axisymmetric loading, thus providing further insights into the behaviors of elastic nanofILms.