Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- ICN2
- Institut Català de Nanociència i Nanotecnologia
- UNIVERSIDAD CATÓLICA DE MURCIA - FUNDACIÓN UNIVERSITARIA SAN ANTONIO DE MURCIA
- UNIVERSIDAD DE LAS PALMAS DE GRAN CANARIA
- Universitat Autonoma de Barcelona
- Universitat de Barcelona
- CIC nanoGUNE
- Cancer Research Foundation of the University of Salamanca
- Computer Vision Center (CVC)
- Fundació Hospital Universitari Vall d'Hebron- Institut de recerca
- Fundació per a la Universitat Oberta de Catalunya
- Institute for bioengineering of Catalonia, IBEC
- Institute of Materials Science of Barcelona (ICMAB-CSIC)
- Nature Careers
- Universidade de Vigo
- noma de Barcelona
- 6 more »
- « less
-
Field
-
areas of nanoscience and nanotechnology. Job Title: PhD STUDENT (INTRANASAL TREATMENT AND IMAGING OF NEUROLOGICAL DISORDERS USING NANOPARTICLES) Research area or group: Nanostructured Functional Materials
-
for imaging blood flow dynamics in cancer using nuclear imaging techniques. This position involves pursuing a PhD thesis under the supervision of Dr. Pellico as part of the project "NanoFLOW” funded by
-
sytnhesis and functionalization, materials science, characetrization techniques and in vitro/in vivo prototype validation in relevant environments. The candidate will work as part of an international team and
-
. Cell culture and genetic manipulation, including lentivirus production, transduction, transfection, and CRISPR/Cas9 genome editing. 2. Live-cell imaging using confocal microscopy, along with quantitative
-
a paradigm shift in materials science by embedding mechanistic AI agents into physical experimentation cycles-enabling rapid, transparent, and reproducible design of advanced electrocatalysts. Main
-
) techniques mainly involving MEX, PBF, VPP, metal Atomic diffusion (ADAM), electrospinning, electroforming, rapid tooling and vacuum casting, as well as on polymer processing (injection moulding, compression
-
the design and optimization of multistatic and multifrequency radar architectures for near-field 3D imaging. - Contribute to the electromagnetic modeling of radiating systems, wave-object interaction, and
-
emphasis on model fine-tuning, quantization (compression / distillation), and evaluation of large language, vision, and audio models. The Gnm3 group focuses part of its research on the design, synthesis, and
-
) techniques mainly involving MEX, PBF, VPP, metal Atomic diffusion (ADAM), electrospinning, electroforming, rapid tooling and vacuum casting, as well as on polymer processing (injection moulding, compression
-
. MAIAMI aims to establish a paradigm shift in materials science by embedding mechanistic AI agents into physical experimentation cycles—enabling rapid, transparent, and reproducible design of advanced