Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
-
Field
-
, or intervention using electronic, mechanical, or smart material systems. This particular PhD studentship, based at the School of Engineering, University of Birmingham, focuses on developing a microfabricated
-
electromechanical components and develops new concepts for nanoscale materials, devices and systems using nano- and microfabrication techniques. One ambition of the IDS group is to combine its experience in both
-
English Candidates with experience in cell culture are encouraged to apply. Experience with imaging, molecular biology, hydrogels, chemistry, microfabrication and microfluidics are highly desirable
-
of Nanoelectronics, Nanoscience and Nanotechnology, Bioengineering or related field Experiences with nano- and microfabrication and processing, biomolecular surface modification, nucleic acids sensing Proficiency in
-
quantum computing as well as experience with cryogenics, signal delivery, microfabrication, materials optimization, and microwave control are highly preferred qualifications Please feel free to apply
-
holder will be required to have practical experience in high-density microelectrode pattern on soft substrates with good understanding of advanced microfabrication processes, electrode substrate
-
knowledge of microfabrication techniques, a strong interest in medical device development and clinical translation, excellent communication and teamwork skills, motivation to engage with interdisciplinary and
-
PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
Bachelor/Masters degree (or equivalent) in electrical/electronic engineering, nano/microfabrication, physics (optical) or a field related to the desired skills listed below, with a high level of academic
-
several members working in different disciplines, such as biology, microfabrication, pharmaceutical science and polymer science. The project is highly interdisciplinary, and we expect that you enjoy
-
, integrating microfabrication, cell component and biomaterial incorporation, staining of specific biological features, and computational modelling of intrinsic properties. The evaluation of results and further