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Study Seeks to Determine the Best Materials for Future Electronics Written by AZoMMar 17 2021 At the Institut national de la recherche scientifique (INRS), the aim of Professor Emanuele Orgiu is to determine the best materials for future electronics. Some of the materials in which Professor Orgiu shows interest are made of molecules with the ability to conduct electricity. Image Credit: Adobe Stock Photo. Emanuele has illustrated the role of molecular vibrations on electron conductivity on crystals of these materials. This discovery is crucial for applications of such molecular materials in energy, electronics, and information storage. Performed in collaboration with a research team from the INRS and the University of Strasbourg (France), the study was published in the renowned journal ....
Credit: Christian Fleury (INRS) Finding the best materials for tomorrow s electronics is the goal of Professor Emanuele Orgiu of the Institut national de la recherche scientifique (INRS). Among the materials in which Professor Orgiu is interested, some are made of molecules that can conduct electricity. He has demonstrated the role played by molecular vibrations on electron conductivity on crystals of such materials. This finding is important for applications of these molecular materials in electronics, energy and information storage. The study, conducted in collaboration with a team from the INRS and the University of Strasbourg (France), was published in the prestigious ....
E-Mail IMAGE: Di-thiols structural diversity opens a world of possibilities to regulate the conductivity, adapting it to each specific application. view more Credit: University of Strasbourg The exfoliation of graphite into graphene layers inspired the investigation of thousands of layered materials: amongst them transition metal dichalcogenides (TMDs). These semiconductors can be used to make conductive inks to manufacture printed electronic and optoelectronic devices. However, defects in their structure may hinder their performance. Now, Graphene Flagship researchers have overcome these hurdles by introducing molecular bridges - small molecules that interconnect the TMD flakes, thereby boosting the conductivity and overall performance. The results, published in ....