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Computational Studies of Oxidative Addition Reactions with Bidentate N-heterocyclic Carbene Nickel Complexes


Shodor > NCSI > XSEDE EMPOWER > XSEDE EMPOWER Positions > Computational Studies of Oxidative Addition Reactions with Bidentate N-heterocyclic Carbene Nickel Complexes

Status
Completed
Mentor NameS. Chantal E. Stieber
Mentor's XSEDE AffiliationCampus Champion, Research Allocation, Educational Allocation,
Mentor Has Been in XSEDE Community4-5 years
Project TitleComputational Studies of Oxidative Addition Reactions with Bidentate N-heterocyclic Carbene Nickel Complexes
SummaryThe intern will conduct quantum mechanical calculations of nickel complexes with bidentate N-heterocyclic carbene ligands. These complexes are synthesized in the PI's lab and this computational work will investigate electronic structures and mechanisms related to oxidative addition reactions of alkyl fluorides. This will complement experimental work in the area of C-F activation for applications in pharmaceutical chemistry.
Job DescriptionThe intern will continue to conduct geometry optimization calculations for crystallographically characterized nickel complexes that include starting materials and products from oxidative additionreactions with alkyl fluorides. The calculations will be conducted with the ORCA program, which is a free software for computational chemistry that the PI has installed on the Comet cluster. The student will analyze the results to determine the electronic structure of each complex. Next, the student will conduct calculations to evaluate the mechanism of the oxidative addition reactions by determining possible transition states and reaction trajectories. They will write up their results in a final report with the intent of eventual publication and present their findings in group meeting.
Computational ResourcesThe student will use the Comet cluster with Oasis storage to conduct quantum mechanical calculations that necessitate the use of parallel processing. The program (ORCA) the student will use is already installed on the cluster and has been actively used by the PI, the research group, and the educational allocations. For the complexes of interest, typically one node is sufficient, however up to 24 processors greatly improve the speed.
Contribution to CommunityThis project enables an application of the XSEDE resources to broader projects in chemistry and pharmaceutical applications. The project takes place at a Hispanic-Serving Institution, so this facilitates broader participation for all students in STEM and the XSEDE community. Past students who have been involved in the EMPOWER program have been vocal advocates on campus for XSEDE and the EMPOWER program, enabling more students to join the community.
Position TypeIntern
Training PlanThe student will already be trained since they have been employed as an apprentice already. The student should have familiarity with searching the chemical literature and will meet with the PI on a regular basis to set goals and discuss any challenges. The student will be working remotely from home (due to COVID restrictions) and will need a computer and wifi/Zoom access, but all software for computations and data analysis are free. The student will be expected to write brief weekly updates with progress and questions, with a final research report at the end of the semester.
Student Prerequisites/Conditions/QualificationsFamiliarity with Orca program
DurationSummer
Start Date05/31/2021
End Date08/06/2021

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