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'noiseless' optical parametric amplifiers based on silicon nitride or thin-film lithium niobate intended for optical communication applications but also other emerging applications. Our research is both
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layers that are arranged in thin films or nanoparticles. Through your studies, you will change surface terminations, and investigate the emerging properties of the materials in their interaction with
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multiple scientific articles Strong knowledge of English, both orally and in writing. Of merit: Experience in techniques to characterize mixed ionic/electronic conductors both in solution and thin film
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'noiseless' optical parametric amplifiers based on silicon nitride or thin-film lithium niobate intended for optical communication applications but also other emerging applications. Our research is both
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based on thin film technologies. The focus is on materials containing chalcogens such as sulfur and selenium, e.g. (Ag,Cu)(In,Ga)Se2 (CIGS) where we in 2024 have published a world record and Cu2ZnSn(S,Se
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dedicated to fundamental understanding as well as development of effective and low-cost solar cells based on thin film technologies. The focus is on materials containing chalcogens such as sulfur and selenium
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route comprising thin film deposition, thermodynamic interface reaction, and chemical etching. A promising candidate will primarily optimize the deposition and subsequent physical-chemical processes
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-atom-thick gold, namely golden (accepted in Nature Synthesis; patent pending). The synthetic strategy we have developed is a unique elaborate route comprising thin film deposition, thermodynamic