First name,Last name,Preferred title,Overview,Position,Department,Individual
Xin,Yan,Assistant Professor,"At the Yan lab, we seek to develop and apply novel mass spectrometric methodologies in disease diagnosis, reaction monitoring, and development of new synthetic methods. In particular, we are motivated by the possibility of enabling new technology for next-generation approaches to precision medicine, and sustainable synthesis.
Our research interests span a range of topics, including i) metabolomics in brain research: we couple dual imaging modality (mass spectrometry imaging and fluorescence imaging) with liquid chromatography mass spectrometry to discover biomarkers and elucidate their biological mechanism in brain aging and brain cancer research. ii) point-of-care diagnostics: we are interested in the development of ambient ionization for fast analysis of enzymatic biomarkers, as well as the design and development of the interface to mini-mass spectrometer (mini-MS) for point-of-care diagnosis. iii) microdroplet reaction: mass spectrometry is universally considered as an analytical tool, however, its new feature was discovered: its use as a unique tool in synthesis. The uniqueness represents in its capabilities of dramatical acceleration of organic reactions and the driving of reactions that cannot occur in bulk. We aim to develop microdroplet reactors for acceleration, explore new reactivity, and study fundamentals of microdroplet acceleration. iv) reaction mechanistic study: reaction mechanisms play an essential role in the study of organic chemistry. We aim to develop new online mass spectrometric reaction monitoring system to explore unknown reaction mechanism, capture short-lived intermediates, study kinetics of fast reactions, and control process of active pharmaceutical ingredient (API) synthesis. The central theme of all the topics above is about droplet chemistry.
This lab is a highly interdisciplinary research group. It provides students the opportunity to obtain hands-on experience in analytical, biological and synthetic chemistry.",Assistant Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/nc863cc6e
Danny,Yeager,Professor,Our research in theoretical chemistry is currently focused in the development and study of new methods for electronic structure and for molecular ionization.,Professor,Chemistry,https://scholars.library.tamu.edu/vivo/display/nda8f94d9
Sherry,Yennello,Professor and Director,"Research is centered around utilizing the newly available ability to produce beams of nuclei removed from the valley of stability to investigate nuclear reaction mechanisms. The experiments study the collisional dynamics of heavy-ion reactions and the thermodynamics of the resultant hot nuclear system.
Emission of fragments prior to equilibrium allows us to learn about cluster formation by studying the dynamics involved in the collision of two composite groups of nucleons. Projectile fragmentation reactions allow determination of the final state of the excited nuclear system thus enabling a reconstruction of the thermodynamics of fragmentation.
Much of our work is conducted at the Cyclotron Institute using the K500 superconducting cyclotron. Beams of radioactive ions can currently be separated in the recoil spectrometer, MARS. Complementary experiments with stable beams are also performed utilizing a 4-pi neutron detector for event characterization and selection.",Professor and Director,Chemistry,https://scholars.library.tamu.edu/vivo/display/ne2dd81c6