Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- Australia
- France
- Sweden
- Netherlands
- Canada
- Belgium
- Norway
- Denmark
- Spain
- Portugal
- Ireland
- Switzerland
- Austria
- Finland
- Italy
- Czech
- Poland
- Singapore
- New Zealand
- China
- Japan
- United Arab Emirates
- Luxembourg
- Hong Kong
- Morocco
- Latvia
- Cyprus
- Brazil
- Estonia
- Slovakia
- Iceland
- Romania
- Ukraine
- Egypt
- Greece
- Lithuania
- Mexico
- Slovenia
- South Africa
- Worldwide
- Andorra
- Barbados
- Bulgaria
- Czech Republic
- Fiji
- Guinea
- South Korea
- Taiwan
- 41 more »
- « less
-
Program
-
Field
- Medical Sciences
- Economics
- Computer Science
- Business
- Biology
- Engineering
- Science
- Materials Science
- Education
- Arts and Literature
- Mathematics
- Psychology
- Social Sciences
- Chemistry
- Linguistics
- Law
- Humanities
- Sports and Recreation
- Environment
- Earth Sciences
- Design
- Electrical Engineering
- Philosophy
- Physics
- Statistics
- 15 more »
- « less
-
optimizing their self-assembly properties for the development of functional biomaterials. Synthesize and characterize hydrogels based on biopolymers and other polymers combined with nanomaterials
-
Regeneration” (Reference: PROID2025010017). This project focuses on the development of advanced biomaterials combining additive manufacturing, piezoelectric coatings, and drug delivery systems to improve bone
-
combines numerical simulation, finite element methods (FEM), and artificial intelligence applied to biomedical engineering. The selected candidate will be part of the Institute for Intelligent Systems and
-
. The successful candidate will design original solutions for the integration of inference models in heterogeneous programmable user planes composed of a combination of programmable switches, network processing
-
, crystallographic orientation, magnetization, magnetic anisotropy, and environment. By combining fabrication, experimental testing, and numerical modelling, you will develop both a fundamental understanding of
-
combines advanced ligand design, air-sensitive organometallic synthesis, homogeneous catalysis, and mechanistic analysis within a sustainability-driven framework. Where to apply E-mail ruqaya.buhaibeh@univ
-
regeneration. We combine these approaches to bridge the gap between fundamental research and clinical therapies. More information about our research group can be found here: https://physics-of-life.tu
-
. The objective of this PhD project is to use high pressure to obtain new polymorphic forms of poorly soluble APIs, combining experimental investigations and atomistic simulations. Two experimental approaches will
-
- eligible employees and their dependents can obtain a degree TUITION FREE A generous retirement plan and so much more! Salary Grade: T23 Learn more about the “T” salary structure here: https
-
post offers a rare opportunity to combine professional development with funded doctoral study, providing a strong foundation for an academic research career. These are part-time positions (27.75 hours