基于密度泛函理论计算的化工本科虚拟实验室

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Chemistry Teacher International : best practices in chemistry education Pub Date : 2023-09-04 DOI:10.1515/cti-2022-0054
M. Altarawneh
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引用次数: 0

摘要

为化学工程专业的学生提供虚拟实验室可能会超越COVID-19时代。因此,有必要在广泛的学科中开发更多基于模拟的任务,包括热力学、化学反应和单元操作。基于密度泛函理论(DFT)计算的分子和材料建模为训练学生如何获得通常通过实验测量的热动力值提供了无限的机会。通过一系列说明性的案例,本书提供了计算反应速率常数、标准反应焓、氧化还原电位、平衡反应常数和表面辅助机理的详细程序。我们希望dft运作的虚拟实验室能协助学生取得学习成果,并促进他们在上述科目上的自学。从更广泛的角度来看,所提出的案例研究希望鼓励学生欣赏DFT的实际应用,不仅在学术领域,而且在工业领域。
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Virtual undergraduate chemical engineering labs based on density functional theory calculations
Abstract Offering virtual laboratories to chemical engineering students is likely to extend beyond the COVID-19 era. Thus, there is a need to develop more simulation-based tasks in a wide blend of subjects, spanning thermodynamics, chemical reactions, and unit operations. Molecular and material modeling based on density functional theory (DFT) calculations provides limitless opportunities to train students on how to obtain thermokinetic values that are typically measured experimentally. Through a series of illustrative cases, this contribution provides detailed procedures pertinent to calculating reaction rate constants, standard enthalpies of reactions, redox potentials, equilibrium reaction constants, and surface-assisted mechanisms. We hope that DFT-operated virtual labs will assist students in attaining learning outcomes and promote their self-learning in the above-mentioned subjects. From a broader prospective, the presented case studies are expected to encourage students to appreciate the practical applications of DFT, not only in the academic but also in the industrial domains.
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