Top 10 Organic Electronics experts to follow

by | Oct 10, 2023 | Futurist Blog

Prof. Sir Richard Friend: Working at the University of Cambridge, Friend has been a leading figure in semiconductor . His groundbreaking work on organic light-emitting diodes (OLEDs) has paved the for their widespread commercial use in display technology.

Prof. Jean-Luc Brédas: Based at the Georgia Institute of Technology, Brédas is renowned for his theoretical insights into the electronic and optical properties of conjugated organic , which foundational for organic .

Prof. Rogers: Operating out of Northwestern University, Rogers focuses on bio-integrated and stretchable electronics, using organic materials to develop medical devices, sensors, and other innovative applications.

Prof. Karl Leo: At Technische Universität Dresden, Leo’s research on organic semiconductors, particularly in organic and OLEDs, has contributed significantly to the commercial viability of organic electronic devices.

Dr. Antonio Facchetti: Working with Polyera Corporation and Northwestern University, Facchetti’s contributions to the synthesis and of new organic semiconducting materials have influenced the development of organic field-effect transistors (OFETs) and other devices.

Prof. Yang Yang: At UCLA, Yang’s focus on organic photovoltaic devices, especially in enhancing their efficiency and lifespan, offers promise for sustainable, flexible solar energy solutions.

Prof. Sirringhaus Henning: Operating out of the University of Cambridge, Sirringhaus has been instrumental in advancing the science behind organic thin- transistors, pushing the boundaries of printability and performance of organic electronic circuits.

Prof. Alan Heeger: A Nobel laureate based at UC Santa Barbara, Heeger’s foundational work on conducting polymers has provided a platform for the development of numerous organic electronic devices.

Prof. Tobin Marks: Working at Northwestern University, Marks’ interdisciplinary approach spans the design and understanding of new organic, inorganic, and hybrid materials for electronic, energy, and photonic applications.

Prof. Natalie Stingelin: At the Georgia Institute of Technology, Stingelin’s research on organic functional materials, including their structural and electronic properties, provides insights crucial for the next generation of organic electronic devices.

Top 10 Molecular Electronics experts to follow

by | Oct 10, 2023 | Futurist Blog

Prof. Mark Reed: At Yale Reed is one of the pioneers in electronics. He conducted some of the first experiments that demonstrated transport in molecular , paving the for further research in the field.

Prof. Supriyo Datta: Based at Purdue University, Datta’s work focuses on quantum transport in molecular and nanoscale systems, providing crucial theoretical insights that have helped define the trajectory of molecular electronics.

Dr. James Tour: Operating out of Rice University, Tour’s multidisciplinary approach involves creating molecular switches, memories, and even molecular , furthering the possibilities of molecules in computational devices.

Prof. Paul Weiss: At UCLA, Weiss’s work encompasses nanoscale and molecular electronics, focusing on the understanding and manipulation of molecules in electronic devices.

Dr. Michelle Simmons: Based at the University of New South Wales, Simmons explores quantum physics and molecular electronics, cutting- research in atomic-scale fabrication of electronic devices.

Prof. Herre van der Zant: Working at Delft University of Technology, van der Zant is renowned for his experiments on quantum transport and mechanical properties of molecular systems, elucidating the behavior of molecules in electronic circuits.

Prof. Nongjian Tao: At Arizona State University, Tao’s focus is on molecular and nano-electronics, specifically exploring charge transport in molecular systems and developing new techniques to study molecular processes.

Dr. Colin Lambert: Based at Lancaster University, Lambert is known for his theoretical contributions to understanding electron transport through molecules, providing valuable insights into molecular-scale conductance.

Prof. Christian Joachim: Working at the French National Centre for Scientific Research (CNRS), Joachim’s work in scanning tunneling microscopy has been instrumental in exploring molecular architectures and their potential in electronic devices.

Prof. Andrew Briggs: At the University of Oxford, Briggs investigates the boundaries of quantum mechanics and their implications for molecular electronics, looking into mechanisms like superposition in organic molecules.

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