Sort by
Refine Your Search
-
that function as susceptibility factors, as the pathogen relies on them for successful infection. We will then genetically engineer plants modifying those effector targets and test resistance against Xanthomonas
-
the design of work. Some jobs may disappear, some new ones may arise, and some jobs will be augmented through close cooperation with new technology. Are you interested in studying the effect of technological
-
, connecting the expertise in visual anthropology and science and technology studies offered by the supervision team. While the supervisory team has extensive research experience in Western and Eastern Europe
-
The Catalysis Engineering group focuses on developing sustainable chemical processes by combiningchemical engineering, chemistry and materials science. We are looking for a highly motivated PhD
-
. The main research themes are Artificial Intelligence, Computational Science and Systems and Network Engineering. Our research involves complex information systems at large, with a focus on collaborative
-
on scientific explanation and methods applied to areas such as AI, Mathematics, Quantum Physics, Cognitive Science, Life Science and the Engineering Sciences. What are you going to do? You will develop an account
-
the Natural Language Processing and Digital Humanities unit of the ILLC (Projects 1-3) or the Digital Heritage research group of the AHM (Project 4). We are working with leading universities, key technology
-
Software-defined and programmable networking is a key enabling technology to support 6G in achieving their promises of increased scalability and flexibility at a lower cost. Deep network
-
team, and are interested in engaging with policy makers, engineers, and researchers. You thoroughly like theory and theory-development, but you enjoy it most when you see it in action. You are inspired
-
response of metasurfaces. Optical metasurfaces offer ultra-flat and compact alternatives to conventional bulky optical elements like mirrors, lenses, and prisms. By accurate engineering of the resonant light