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Design and synthesis of organic electronic materials

The past two decades has seen a dramatic increase in the number of consumer electronics in use. Previously, most households had a landline phone, one or two televisions and the occasional desktop computer. These days most people own numerous electronic devices, resulting in an increased demand on the semiconducting materials that drive this technology, in addition to the energy needed to power them. Accordingly, there has been a large amount of interest in the development of organic semiconductors, as many of the inorganic materials used in these devices are in limited supply.  Organic semiconductors are either polymers or small molecules that feature and extended pi-conjugation. These materials possess many exceptional electronic, optical, and thermal properties and thus are well suited for applications, such as transistors, solar cells, and light emitting diodes. Unfortunately, there are several issues that must be addressed before real-life products can be developed. Unfortunately, there are several issues that must be addressed before real-life products can be developed. Our group focuses on the design and synthesis of new organic semiconductors based on low cost and/or easily prepared starting materials. Since the properties of organic semiconductors can be readily modified through chemical synthesis, we have turned our attention towards the design and synthesis of novel aromatic building blocks. Our group developed several new materials based including wide band gap materials for use in organic light-emitting diodes and narrow band gap materials for use in photovoltaic cells. Our recent work will be presented.


Malika Jeffries-EL received BA degrees in Chemistry and Africana Studies at Wellesley College and M. Phil and Ph.D. degrees in chemistry from The George Washington University. She worked as a post-doctoral researcher under the direction of Professor Richard D. McCullough at Carnegie Mellon University. In 2005, she joined the faculty in the Chemistry Department at Iowa State University and was promoted to associate professor with tenure in 2012. She was a Martin Luther King Jr. Visiting Professor in the chemistry department of the Massachusetts Institute of Technology in 2015. She joined the Department of Chemistry and Division of Materials Science at Boston University in 2016 and was promoted to Professor in 2022. Since July 2020 she has served as the Associate Dean of the Graduate School in Arts and Sciences.

Dr. Jeffries-EL's research focuses on the development of organic semiconductors–materials that combine the processing properties of polymers with the electronic properties of semiconductors. She has authored over 40 publications, and has given over 180 lectures domestically and abroad. She is an ACS Fellow (2018), fellow of the Royal Society of Chemistry (RSC) (2021), and has won numerous awards including the Percy Julian Award from the National Organization of Black Chemist and Chemical Engineers (NOBCChE) (2021), ACS Stanley C. Israel Regional Award for Advancing Diversity in the Chemical Sciences (2015), the Iota Sigma Pi Agnes Fay Morgan Award (2013), the ACS-Women Chemist Committee Rising Star award (2012), the Lloyd Ferguson Award (NOBCChE) (2009) and 3M Non-Tenured Faculty Award (2008). She is currently an Associate Editor for the RSC flagship journal Chemical Science and has also served on the editorial advisory boards for ACS Central Science, Macromolecules and Chemical and Engineering News. Professor EL is also a staunch advocate for diversity and dedicated volunteer that has served in several activities within the American Chemical Society including the advisory board for the Women Chemist of Color Initiative and the Women Chemist Committee. She also serves the community through her work with Alpha Kappa Alpha Sorority, Incorporated (AKA). Dr. Jeffries-EL is a native of Brooklyn, New York.  

Conférence CQMF avec la professeure Malika Jeffries-EL, Boston University