Ariana Beste

Ariana Beste is a distinguished research scientist at the Joint Institute for Computational Sciences (JICS), with esteemed affiliations at the Oak Ridge National Laboratory (ORNL). She embarked on her academic journey with a Bachelor of Arts in Computer Science, followed by a Master of Science in Chemistry, culminating in a Ph.D. from the University of Florida. Her academic background has provided a robust foundation for her research endeavors in computational chemistry. Beste's research is primarily centered on the intricate study of complex chemical reaction processes. She is particularly noted for her pioneering work in developing methods to incorporate anharmonicity effects, which has significantly advanced the field. Her contributions have not gone unnoticed, as evidenced by her receipt of the prestigious Richard A. Glenn award from the American Chemical Society, a testament to her impactful research and dedication to the scientific community. Throughout her career, Beste has been prolific in her scholarly output, authoring numerous publications and contributing to several book chapters. Her work has been showcased at various international conferences, where she has presented her findings to a global audience, further establishing her as a leading voice in her field. In addition to her individual research pursuits, Beste is actively involved in collaborative projects that span a range of applications. Her work includes exploring the intricacies of carbon fiber production, the degradation of lignin, and the chemical conversion processes on specific surfaces. These projects not only highlight her versatility as a researcher but also her commitment to addressing complex scientific challenges through interdisciplinary collaboration. Beste's contributions to computational chemistry continue to influence the field, and her ongoing research promises to yield further insights into the mechanisms of chemical reactions. Her dedication to advancing scientific knowledge and fostering collaborative research efforts underscores her role as a pivotal figure in the scientific community.