Fraunhofer-Gesellschaft, Germany invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Fraunhofer-Gesellschaft, Germany.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Microwave electrode carbonization and surface functionalisation
The goal of the doctoral thesis is to develop efficient energy processes for carbonization and graphitization of electrodes with microwaves and the comparison with conventional processes. Plasma processes will be investigated to activate and modify the surface of the electrodes, which enhances battery performance based on process gases and other carbonization parameters.
The recruited researcher will investigate the influence of microwave field modes and process parameters (such as time, microwave power, and frequency) on the degree and structure of carbonization and graphitization of the electrodes, aiming to reduce battery costs through process optimization. Additionally, the effects of various microwave plasma sources and processes on the surface of the carbonized electrodes will be examined. The developed procedures will be scaled up to test the modified materials in laboratory cells, specifically battery prototypes.
Deadline : 09/30/2025
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Nano and micro structuring of carbon electrode surface
The recruited researcher will investigate the influence of treatment procedures on the surface and electrochemical properties of carbon electrodes. These modified electrode materials will be used for better understanding of vanadium electrode reactions, which provide a basis for vanadium flow battery chemistry and the possibility to reduce battery costs by optimization of the materials. The developed procedures for carbon surface modification will be upscaled to meso-scale to test modified materials in laboratory cells, i.e. battery prototypes.
Deadline : 09/30/2025
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(03) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Microwave electrode carbonization and surface functionalisation
The goal of the doctoral thesis is to develop efficient energy processes for carbonization and graphitization of electrodes with microwaves and the comparison with conventional processes. Plasma processes will be investigated to activate and modify the surface of the electrodes, which enhances battery performance based on process gases and other carbonization parameters.
The recruited researcher will investigate the influence of microwave field modes and process parameters (such as time, microwave power, and frequency) on the degree and structure of carbonization and graphitization of the electrodes, aiming to reduce battery costs through process optimization. Additionally, the effects of various microwave plasma sources and processes on the surface of the carbonized electrodes will be examined. The developed procedures will be scaled up to test the modified materials in laboratory cells, specifically battery prototypes.
Deadline : 30.09.2025
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Nano and micro structuring of carbon electrode surface
The goal of this doctoral thesis is to apply various procedures such as electrochemical wet treatment, covalent bonding, targeted surface functionalization to modify the surface of carbon electrode materials.
The recruited researcher will investigate the influence of treatment procedures on the surface and electrochemical properties of carbon electrodes. These modified electrode materials will be used for better understanding of vanadium electrode reactions, which provide a basis for vanadium flow battery chemistry and the possibility to reduce battery costs by optimization of the materials. The developed procedures for carbon surface modification will be upscaled to meso-scale to test modified materials in laboratory cells, i.e. battery prototypes.
Deadline : 30.09.2025
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD Candidate “III-V CPV Cells”
Deadline : 09/21/2025
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(06) PhD Degree – Fully Funded
PhD position summary/title: PhD thesis in IC Design with focus on CMOS backplanes
Developing innovative technology solutions and bringing them to application – that is our goal at the Fraunhofer Institute for Photonic Microsystems IPMS. With our expertise in the development of photonic microsystems, related technologies including nanoelectronics and wireless communication solutions, we create – in flexible and interdisciplinary teams – technologies for innovative products in a wide range of markets such as automotive, industrial and aerospace.
Our interdisciplinary field of “Microdisplays and Sensors” is engaged in the development and manufacturing of micro-displays and sensors based on the integration of organic light emitting diodes (OLED) onto silicon CMOS substrates. Here, our activities range from the initial idea, through design in close cooperation with the OLED technology, the circuit design of the OLED integration, testing, assembly and interconnection technology to the development of the complete system and application. Here, we are working in the interdisciplinary scope of different subjects such as electrical engineering/electronics, microelectronics, microsystems technology, information technology, computer science, physics, chemistry, optics and manufacturing.
We offer you a topic for a PhD thesis at our location Dresden as soon as possible. Therefore, we are looking for a person to support our team in the technical and technological development in the field of IC design with a focus on new architectures of CMOS backplanes.
Deadline : Open until filled
(07) PhD Degree – Fully Funded
PhD position summary/title: PhD student »Interferometry-based field-resolved spectroscopy«
Our »Optical Quantum Metrology« research group develops innovative measurement technologies for clinical and industrial applications based on the ability to measure individual the oscillations of optical electric fields in the infrared and terahertz spectral ranges.
As part of the Laboratory for Lightwave Metrology, the research group on the one hand offers the opportunity to fundamentally examine light at the quantum limit, and on the other hand to apply this knowledge in order to develop novel spectroscopic tools for medicine, biology and industrial material characterisation.
The advertised PhD program aims to develop novel photonic measurement techniques based on interferometry and nonlinear optics that enable spectroscopic measurements of the entire physiologically relevant concentration range of molecules in biological fluids and gases.
Achieving these ambitious goals requires substantial further development of key femtosecond technologies, which will be realised in the frame of a prestigious Max-Planck-Fraunhofer cooperation project.
Deadline : Open until filled
(08) PhD Degree – Fully Funded
PhD position summary/title: PhD Thesis: Integration and characterization of ferroelectric memory devices
Developing innovative technology solutions and bringing them to application – that is our goal at the Fraunhofer Institute for Photonic Microsystems IPMS. With our expertise in the development of photonic microsystems, related technologies including nanoelectronics and wireless communication solutions, we create – in flexible and interdisciplinary teams – technologies for innovative products in a wide range of markets such as automotive, industrial, aerospace and defense.
The development of new components and integration concepts for semiconductor devices with a wide range of applications is an important field of research at the Center Nanoelectronic Technologies of the Fraunhofer IPMS. One research focus is on the development of non-volatile memory technologies based on ferroelectric hafnium oxide. These are used beyond traditional storage applications, including AI applications. Two promising approaches exist for ferroelectric memories. One is the so-called FeFET (1T) concept, in which the ferroelectric is used as the gate dielectric of a transistor, and the other is the FRAM (1T1C) concept, in which the ferroelectric is used as the capacitor dielectric.
As a PhD Student, you will simulate and characterize the dependence of process and device parameters on ferroelectric behavior and reliability properties, as well as drive targeted optimizations of the layer stack up to experimental verification and transfer into memory test circuits. Depending on your skills and interests, you can focus either on material and device optimization or on application-oriented memory system integration and statistical characterization. You will also have the opportunity to investigate properties for use in neuromorphic computing architectures. The developments described offer significant potential for innovative approaches that can be translated into publications or invention disclosures. At Fraunhofer IPMS, you can expect a motivated international team, close ties to research projects with industrial clients on current innovative topics, and state-of-the-art equipment as well as a modern 300 mm wafer processing cleanroom.
Deadline : Open until filled
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(09) PhD Degree – Fully Funded
PhD position summary/title: PhD Thesis: Integration and characterization of ferroelectric memory devices
As a PhD Student, you will simulate and characterize the dependence of process and device parameters on ferroelectric behavior and reliability properties, as well as drive targeted optimizations of the layer stack up to experimental verification and transfer into memory test circuits. Depending on your skills and interests, you can focus either on material and device optimization or on application-oriented memory system integration and statistical characterization. You will also have the opportunity to investigate properties for use in neuromorphic computing architectures. The developments described offer significant potential for innovative approaches that can be translated into publications or invention disclosures. At Fraunhofer IPMS, you can expect a motivated international team, close ties to research projects with industrial clients on current innovative topics, and state-of-the-art equipment as well as a modern 300 mm wafer processing cleanroom.
Deadline : Open until filled
(10) PhD Degree – Fully Funded
PhD position summary/title: PhD – AI Methods for CMOS Circuit Design
Become part of our AI team at the brand-new “Innovation Park Artificial Intelligence” at our branch in Heilbronn (ipai campus). Together with leading partners from industry and science, we research and develop electronic complementary metal oxide semiconductor digital circuits with the help of artificial intelligence. Unleash your potential in an inspiring environment focused on research and development of the latest applications in the automotive, robotics, space, and security sectors—become part of our mission to create innovative solutions for the future.
Around the world, intensive efforts are underway to improve the use of artificial intelligence. This involves continuously optimizing the basic hardware components and refining the methods used to develop them. The design flow of these circuits and (sub)systems is particularly crucial, as it is considered the key to realizing groundbreaking applications. This doctoral thesis aims to investigate and develop innovative circuit concepts. Using AI design tools, the CMOS design flow is to be improved while simultaneously being made transparent and verifiable.
Deadline : Open until filled
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About Fraunhofer-Gesellschaft, Germany –Official Website
The Fraunhofer-Gesellschaft, based in Germany, is one of the world’s leading applied research organizations. It plays a crucial role in the innovation process by prioritizing research in key future technologies and transferring its research findings to industry in order to strengthen Germany as a hub of industrial activity as well as for the benefit of society.
Founded in 1949, the Fraunhofer-Gesellschaft currently operates 76 institutes and research units throughout Germany. Its nearly 32,000 employees, predominantly scientists and engineers, work with an annual business volume of 3.4 billion euros; 3.0 billion euros of this stems from contract research, which is divided into three funding pillars. Fraunhofer generates a share of this from industry and license-fee revenue, totaling 836 million euros. This high proportion of industrial revenue is Fraunhofer’s unique selling point in the German research landscape. Another share of contract research revenue comes from publicly funded research projects. The final share is base funding supplied by the German federal and state governments and enables our institutes to develop solutions now that will become relevant to the private sector and society in a few years.
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