Early Life
Luis M. Campos was born in Guadalajara, Mexico. He remained in his hometown until the age of 11, where he moved to Los Angeles, California.
Career
After moving from his hometown in Guadalajara, Mexico, Campos attended California State University, Dominguez Hills, where he would ultimately graduate with a B.Sc. in Chemistry in 2001. Working under M. A. Garcia-Garibay and K. N. Houk’s supervision, he later attended the University of California, Los Angeles (UCLA) as a graduate student where he received a Ph.D. from the Department of Chemistry and Biochemistry in 2006. He then attended the University of California, Santa Barbara where he worked on polymer chemistry with Craig Hawker.
Campos has started his independent academic career in 2011 at Columbia University in the Department of Chemistry. At Columbia, Campos is directing a research team with broad interests focused on nanostructured materials, macromolecular systems, and single-molecule electronics.
Research
Campos research group explores molecular, macromolecular, and nanostructured materials that allow for advanced functional systems to be formed. The group is trained to adjust such materials using molecular design. Campos’ main strategy is to be able to understand a structure in order to better produce materials to help advance biology, engineering, physics, and processing.
Nanostructured Materials
Nanostructured materials deal with block copolymers and assembles themselves. Campos and colleagues developed copolymers that can self-assemble into different nanoparticles. The research aspires to develop a light-weight, energy efficient devices from the polymers by understading how to control archetecture of these block copolymers.
Molecular and Macromolecular Systems
Campos and colleagues also work on the development of chemistry for the next generation solar cell technologies. Specifically, they have made several important contributions to making singlet-fission materials that can create triplet pairs. This material is utilized to generate parts required for organic photovoltaics.
Single-Molecule Electronics
Studies involving single-molecule transport demonstrate how particular designs lead the synthesis of macromolecular materials. This also allows for chemists to adjust the functionality of a chemical. This research allows for exceptional transport technology.
Awards/Honors
Campos has received recognition for his academic work. He has received several awards throughout his post-graduate career. Such awards include the 2016 ACS Arthur C. Cope Scholar Award, 2016 C&E News Talented 12, 2016 Camille Dreyfus Teacher-Scholar Award, 2015 ONR Young Investigator Award, 2015 Cottrell Scholar Award, and the 2014 NSF CAREER Award.
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