Highly motivated undergraduate student at Sichuan University with a relatively robust foundation in computational chemistry, mathematics, and physical chemistry. Possessing 2 years of hands-on Linux experience and proficient in C/C++ programming, currently contributing to the development of a solvation model for the quantum chemistry software Qbics. Eager to apply strong analytical and technical skills to advance scientific research and development.
Undergraduate Student
Chengdu, Sichuan, China
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Summary
Leading the development of a solvation model for quantum chemistry software Qbics, applying advanced computational methods to enhance simulation capabilities.
Highlights
Developed a polarized continuum model for Qbics quantum chemistry software, enhancing its capability for accurate solvent effects simulation and increasing computational efficiency.
Utilized C/C++ programming to implement and optimize complex computational algorithms, improving software performance and reliability for research applications.
Collaborated within a research team to integrate novel computational approaches, contributing to advancements in quantum chemical modeling and theoretical chemistry.
Applied strong analytical skills to troubleshoot and refine model parameters, ensuring high fidelity and predictive accuracy in scientific simulations.
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Bachelor of Engineering (in progress)
Light Chemical Engineering
Grade: 85.96% (Required Courses GPA)
Courses
Calculus I & II (Average 87%)
Linear Algebra (87%)
Probability and Statistics (90%)
Physical Chemistry I & II (Average 89%)
Principles of Chemical Engineering (93%)
C++, C.
Gaussian, BDF, Qbics.
Linux (2 years experience).
SSH, Git, CMake, Vim.
STL, Boost, Eigen, libtorch, VTK.
Quantum Chemistry, Physical Chemistry, Chemical Engineering Principles, Mathematics.
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Summary
Ongoing university-level research project focused on leveraging quantum chemistry calculations for the design and synthesis of innovative bio-molecular dyes.
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Summary
Successfully completed university-level research project investigating the mesoscopic structure regulation of modified collagen fiber/waterborne polyurethane composites.