Last Updated on July 9, 2021
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is a field of materials science concerning the design, synthesis, characterization, and application of organic molecules or polymers that show desirable electronic properties such as conductivity. Unlike conventional inorganic conductors and semiconductors, organic electronic materials are constructed from organic (carbon-based) molecules or polymers using synthetic strategies developed in the context of organic chemistry and polymer chemistry.
One of the promised benefits of organic electronics is their potential low cost compared to traditional electronics.Attractive properties of polymeric conductors include their electrical conductivity (which can be varied by the concentrations of dopants) and comparatively high mechanical flexibility. Challenges to the implementation of organic electronic materials are their inferior thermal stability, high cost, and diverse fabrication issues.
Masters in Material and Organic Electronics
A Master’s degree program is an ideal way to delve further into a subject field after you have finished your undergraduate degree and make yourself much more marketable to a prospective employer. Masters programs range in duration based on the number of academic credits that are to be completed. Usually, in 12 months, a 30-credit degree will be finished. Unlike undergraduate degrees, where you take a wide variety of classes in addition to your major, graduate degrees are based on a single area of study. Many master’s degrees are taught for two years. In order to complete a Master’s degree, you would normally need to apply a ‘thesis’ in addition to studying in class, which is a dissertation about an extended study project. You no longer need to engage in a futile search for Masters in Material and Organic Electronics. Collegelearners.com offers you everything you need and more without putting you through any unnecessary hassle like most websites are likely to. Visit infolearners.com.
Apply for a masters degree in organic and material electronics from a recognized technical university in Germany and get an opportunity to study one of the most popularmaterial engineering degree on free tuition in the most technologically advanced country in Europe. With a masters degree in organic electronics, you will be prepared for both current and future industry challenges, you will also be ready to seize new opportunities and play a role in shaping the future of material and organic electronics technology. This material and organic electronic masters degree program was conceptually designed to provide a solid and versatile technical background that not only stresses practical relevance, but also employs an interdisciplinary, application-oriented approach with a strong international current, in part due to the use of English as the language of instruction.
The Master’s in Organic and Molecular Electronics degree strives to educate young professionals in the cutting-edge field of organic electronics. The MSc in organic electronics offers an interdisciplinary study programme comprising physics, chemistry, electrical engineering, and materials science. The close collaboration with industry partners in the organic electronics masters degree enables a highly practice-oriented education.
Organic electronics is an innovative class of electronics with enormous market potential in four key application areas: displays, photovoltaics, lighting, and integrated smart systems. While the technology is novel it is also able to be employed in many current applications, providing reduced cost and low energy manufacturing processes. The field is evolving at a rapid pace, opening many exciting application possibilities and developments.
Admission Requirement For The Masters in Organic Electronics
- Language certificates
- First degree in physics, chemistry, electrical engineering, materials science or a related field
Please note: for most non-EU countries (including India and China), a minimum of a four-year Bachelor’s degree or three-year Bachelor’s degree plus a one-year Master’s degree is required (i.e. a minimum of a four-year study duration).
- CV with photo
- Copy of passport or national ID card
- If necessary, proof of previous studies and results
There are no tuition fees for this degree program.
About The M.Sc in Organic Electronics
The interdisciplinary Master’s in Organic and Molecular Electronics is designed to provide students with professional skills needed to advance a successful international career in the cutting-edge field of organic electronics.
Laboratory of Organic Electronics
LOE is one of the world’s leading groups at the forefront of research in organic/plastic electronics. Specifically, we are interested in using the coupling between electronic and ionic charges to develop novel device and system concepts in the areas of energy, internet-of-things, healthcare, and biology.
Our research themes span synthesis, material science, devices, systems and applications. Projects closer to applications and commercialization are conducted in close collaboration with RISE. Results are regularly published in leading high-impact journals (see publications at Research).
The laboratory is intended for the production and determination of basic characteristics of organic electronics devices, such as photovoltaic cells and light emitting diodes.
1. Vacuum evaporator Edwards coupled with Braun glovebox
2. Setup for measurement of photocurrents, magnetophotocurrents, electro- and magnetomodulated photoluminescence in thin organic layers, with the use of modulation technique and phase-sensitive detection.
Parts of the setup:
- source of light with pre-set photon flux and wavelength, with possibility of light intensity modulation;
- electrometers, current-voltage amplifiers of weak signals with system of filters, lock-in amplifiers with corresponding sources of modulating and reference signals;
- photomultipliers, also with cooled housing;
- sources of alternating and direct magnetic field, in the range between 1 mT – 800 mT.
3. KLA TENCOR profilometer for measurement of thicknesses of nanometric layers.
4. Setup for measurement of absorption, electroabsorption, and optical emission spectra.
Parts of the setup:
- absorption spectrophotometer Perkin Elmer Lamda 10;
- emission spectrophotometer Perkin Elmer LS 55B,
- electroabsorption spectrophotometer.
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- MOST Wiedzy
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Students admitted to the degree will carryout their studies in the following format;
Semester 1: Organic Semiconductors, Semiconductor Technology, Concepts of Molecular Modelling, Basics (Chemistry, Semiconductor Physics, Circuit Technology, Solid State & Quantum Physics)
Semester 2: Optoelectronics, courses from two of the following specialisation areas: Physics, Electronics, Chemistry, Nanotechnology
Semester 3: Molecular Electronics, Physical Characterisation of Organic and Organic-Inorganic Thin Films, Materials for Nanoelectronics & Printing Technology, specialisation courses, Project Work
Semester 4: Master’s Thesis
The unique module “Project Work” offers the opportunity for an internship or independent research project within the Master’s programme.