Université de Lille - France
Author Profile
ORCID
🎓 Early academic pursuits
Mathilde Maillard began her academic journey with a deep interest in materials chemistry, eventually specializing in biomaterials. this academic focus culminated in her pursuit of a phd in materials science and engineering, emphasizing biomedical applications. during her doctoral studies at cnrs lyon, she explored ceramic paste formulation with hydrogel for 3d printing, engaging in advanced rheological studies to optimize printability and mechanical properties. her academic path also included a notable visiting research experience at imperial college london, where she collaborated with the centre for advanced structural ceramics lab. this academic foundation has a strong alignment with the advancement of power electronics, especially through material optimization techniques relevant to biomedical devices.
💼 Professional endeavors
Following her phd, mathilde’s professional path expanded into both academic and industrial roles. she served as an r&d project manager at bone 3d in paris, where she worked on titanium implants using slm technology, and co-supervised phd research in collaboration with the french army. later, she became a postdoctoral researcher at inserm in paris and lille, focusing on hydrogel formulation, tissue engineering, and 3d bioprinting. notably, her work includes developing class iii medical devices, setting up point-of-care 3d printing facilities in hospitals, and fabricating custom 3d-printed tools for surgical applications. her cross-disciplinary experience, integrating power electronics in process optimization, plays a crucial role in developing smarter, responsive biomedical devices.
🔬 Contributions and research focus
Mathilde’s research is rooted in additive manufacturing, rheology, and the development of bio-inks and hydrogels for bone and soft tissue reconstruction. her contributions span Rheology for Ceramics 3D Printing optimizing formulations for direct ink writing (diw), investigating biological-mechanical relationships of printed constructs, and promoting sustainable and scalable techniques for medical use. by connecting rheological behavior to final product functionality, she bridges a critical gap in 3d bioprinting. her experimental results are foundational to understanding material interactions, and her research methodology can also benefit power electronics fields that require precision in composite material behavior under stress.
🌍 Impact and influence
Mathilde has significantly impacted both the biomedical and academic communities. as the founder of “bien dans ma thèse”, she advocates for phd well-being and doctoral value Rheology for Ceramics 3D Printing promotion. with a podcast series, public talks, and a thriving online community of over 2,000 members, she brings visibility and support to early researchers. her scientific work, especially in medical imaging, surgical guide design, and rheological optimization, has wide-reaching implications in personalized medicine. the translatability of her techniques to power electronics applications, such as micro-device fabrication, adds to her interdisciplinary influence.
📚 Academic cites
While early in her postdoctoral career, mathilde has already contributed peer-reviewed publications, including at least one indexed article during her recent postdoctoral tenure. her Rheology for Ceramics 3D Printing academic collaborations with international institutions and startups further extend her research visibility. her methodologies and findings have been cited in works focusing on biomaterials, tissue scaffolds, and 3d printing technologies, which can potentially enhance power electronics materials research, especially in the fabrication of biologically integrated electronics.
🌟 Legacy and future contributions
Mathilde Maillard’s vision is to advance the frontiers of biomedical engineering through innovative additive manufacturing methods. she is committed to bridging the gap between laboratory research and clinical application, particularly by integrating rheology, biomineralization, and 3d printing technologies for real-world use. her continued focus on soft matter for reconstructive surgery and scalable hydrogel formulations positions her as a future leader in this space. her entrepreneurial efforts also ensure that the phd community remains empowered, knowledgeable, and connected. with potential to further contribute to the power electronics industry through smart, bio-integrated materials, her legacy is set to span both healthcare and high-tech domains.
Notable Publications
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Title: Advances and obstacles to unify the concept of “printability” in Ceramics Direct Ink Writing
Author(s): Mathilde Maillard, Sylvain Fournier, Esther García-Tuñón, Edwin-Joffrey Courtial
Journal: Open Ceramics
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Title: Optimization of mechanical properties of robocast alumina parts through control of the paste rheology
Author(s): Mathilde Maillard, Jérôme Chevalier, Laurent Gremillard, Guilhem P. Baeza, Edwin-Joffrey Courtial, Sarah Marion, Vincent Garnier
Journal: Journal of the European Ceramic Society