The best way to send us your CV via email 5MB limit. We balance a joyful, open-minded approach with technical precision to create a diverse body of work in the UK and abroad for public, private and commercial clients.
MRS Bulletin has published a news article featuring our paper on multiscale modeling of fatigue crack propagation in additively manufactured porous biomaterials. Honored and humbled to have been selected by our students as the best lecturer of the program "Biomedical Engineering" at TUDelft!
I am happy to be among those Vidi laureates.
I will use the awarded funds to develop the next generation of implantable medical devices. YouTube Video I was honoured and humbled to hear that the European Society of Biomaterials has selected me as the winner of their Jean Leray scientific achievement award.
The Italian magazine " il progettista industriale " the industrial designer has highlighted our research in their recent issue: See the coverage here: YouTube Video The special issue of Annals of Biomedical Engineering on additive manufacturing Bioprinting of tissues, organs, and biomaterials, which I guest edited, is published.
In its November issue, MRS Bulletin one of the most highly respected journals in advanced materials research published a story covering our recent paper in Materials Horizons. Shape-shifting soft materials developed in our lab are featured on the cover of Materials Horizons Our researched featured on the cover of Materials Horizons Tu delft thesis search manufactured 3D printed mechanical meta-materials fabricated in our lab is featured on the cover of Materials Horizonsthe flagship journal of the Royal Society of Chemistry.
This is the first award of the journal of this sort with the purpose of identifying young outstanding researchers in the research fields the journal covers, and inviting them to be involved in the journal both as special issue editors and board members.
Effective tissue regeneration often calls for multi-functional biomaterials.
Ideally, these porous biomaterials should be optimised not only in terms of their 3D structure but also in terms of their surface nano-topography. Nanolithography techniques enable the generation of very complex surface nano-topographies but generally only on flat surfaces.
There is currently no way of combining arbitrarily complex 3D structures with arbitrarily complex surface nano-topographies. In this project, the ancient Japanese art of paper folding i.
In this approach, flat surfaces are first 3D printed in a particular way to teach them how to self-fold. The flat surface is then decorated with complex nano-topographies. Finally, the self-folding mechanism is activated to enable folding of the flat sheet and the formation of complex 3D structures.
Using AM, it is now possible to fabricate biomaterials with arbitrarily complex shapes at different scales. The inventory of biomaterials that can be used in this way continues to increase, extending the possible range of products and applications.
The mechanical properties of the resulting materials and implants are of utmost importance, not only because a certain level of mechanical support is needed in most applications but also because the distribution of mechanical properties could significantly influence tissue regeneration performance and osseointegration.
Moreover, the mechanical properties of biodegradable biomaterials tend to change over time, as biodegradation progresses. AM allows precise control of microarchitecture in porous biomaterials, which has been shown to strongly affect mechanical behavior.
We believe that this is a good time to produce a special issue which brings together the latest work on biomaterials made using AM and their mechanical properties. The topics covered by the special issue include but are not limited to: Mechanical properties of AM porous biomaterials Relationship between processing parameters, micro-structure, and mechanical properties of AM biomaterialsDevelopments of new AM techniques to improve or adjust the mechanical properties of biomaterial AM implants New materials for AM with novel properties Mechanical properties of biodegradable biomaterials fabricated using AM Shape-property relationships in AM biomaterials Mechanical interactions, osseointegration, and tissue regeneration of AM biomaterials Manuscript Submission: All submissions will undergo the peer review process.Open to accomplished professionals and scholars working in any eld related to the built environment, the Richard Rogers Fellowship is dedicated to advancing research on a wide range of issues—social, economic, technological, political, environmental—that are critical to shaping the contemporary city.
These degree courses, which consist of one to two years of concentrated study, provide young,academically-trained professionals in leading positions from developing countries with the opportunity to engage in postgraduate education and training in their particular field or profession.
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I am a senior consultant at XXX Financial Services, and my short term goal is to join a reputed Technology and Strategic solution organization as an IT Strategy Consultant. RESEARCHERS. In the list of persons involved in CHARMEC's research projects below, e-mail addresses are given as name_at_organisation where _at_ should be replaced with @.
A bachelor’s degree, or proof of being in the process of completing your degree. The degree must be comparable in level to a bachelor’s degree from a research university in the Netherlands and must be closely related to your MSc programme of choice. This is the TU Delft LaTeX template for reports and theses, downloaded from TU Delft corporate design downloads (updated 9 May ).
The template is designed to work with all versions of LaTeX, but if you want to adhere to the TU Delft house style, you need to use XeLaTeX, as it supports TrueType and OpenType fonts.