Computational Chemistry Laboratory: Calculating the Energy Content of Food Applied to a Real-Life Problem

Barbiric, D. A.; Tribe, Lorena; Soriano, Rosario

doi:10.1021/ed2008894

Cited by 12 publications

(17 citation statements)

References 27 publications

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“…However, more computationally efficient methods remain of interest. They are invaluable for the automatic generation of reaction mechanisms, for experimentalists in need of quick enthalpy estimates to analyze measurements, for education purposes, or when it comes to high-throughput screening of Δ f H ° or related properties with the goal of identifying the most promising compounds with regard to a given application, especially in such fields as energetic materials, fuels, and alternative power sources. , In such cases, additivity methods are especially attractive because of their outstanding simplicity and extremely low cost. However, simple bond contribution (BC) methods exhibit clear limitations, , while the application of group contribution (GC) schemes to compounds of practical interest is often hampered by a lack of suitable parameters …”

Section: Introductionmentioning

confidence: 99%

Atom Pair Contribution Method: Fast and General Procedure To Predict Molecular Formation Enthalpies

Mathieu

2018

J. Chem. Inf. Model.

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An atom pair contribution (APC) model aimed at predicting the gas-phase formation enthalpy (ΔH°) of molecules is reported. In contrast to bond contribution (BC) or group contribution (GC) methods, it relies on increments associated with pairs of bonded and geminal atoms along with 15 structural corrections. Another distinctive feature of the present APC method is the large amount of experimental and high-level theoretical data specially compiled in this work to fit and validate the model (2671 entries). Unlike GC methods, the present APC model has wide applicability with the number of adjustable parameters limited to 68. Although it requires only a structural formula as input and involves only back-of-the-envelope calculations, it is more reliable than state-of-the-art quantitative structure-property relationship methods, popular semiempirical Hamiltonians, and even low-level density functional theory approaches based on gradient-corrected functionals. It is therefore a valuable tool for fast screening applications or whenever chemical accuracy is not necessary.

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Section: Introductionmentioning

confidence: 99%

Atom Pair Contribution Method: Fast and General Procedure To Predict Molecular Formation Enthalpies

Mathieu

2018

J. Chem. Inf. Model.

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“…A third approach, which is apparent from the vast majority of publications on CC in education, is to include CC modules or exercises in various courses such as organic chemistry, [63,64] general chemistry, [65,66] or physical chemistry. [67,68] Many examples of such modules, not listed here, were published in the Journal of Chemical Education throughout the years, and in the recent ACS symposium book on the topic.…”

Section: Integrating Computational Chemistry In the Undergraduate Pro...mentioning

confidence: 99%

Computational Chemistry in the Undergraduate Classroom – Pedagogical Considerations and Teaching Challenges

Tuvi-Arad

2021

Israel Journal of Chemistry

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The interdisciplinary field of computational chemistry links many facets of chemistry and provides unique insights into structure, mechanisms, dynamics, and the interplay between them. Various approaches were proposed for integrating computational chemistry in the undergraduate classroom, all highlight the benefits of including it in the chemistry curriculum. This study focuses on the desirable learning outcomes, and defines a structural framework of computational chemistry literacy. Based on this approach analysis of the pedagogical approach of selected studies that implemented computational chemistry in undergraduate chemistry classrooms is presented. Three models for including computational chemistry in the undergraduate program were uncovered in this analysis: the specialized course model, the augmented course model, and the islands of computations model. These models are discussed along with teaching and learning challenges as well as routes to bypass them.

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“…In addition to the mandatory experiments, students are required to design an independent computational project in consultation with the instructor. They may choose an experiment that has already been published in this journal (e.g., refs − ), design a project that is relevant to research projects they have carried out in experimental groups, or explore technical aspects of first-principles calculations. This allows students to focus on topics that are interesting to them and is relevant to their diverse backgrounds.…”

Section: Laboratory Course Setupmentioning

confidence: 99%

The Computational Design of Two-Dimensional Materials

et al. 2019

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A computational laboratory experiment investigating molecular models for hexagonal boron–carbon–nitrogen sheets (h-BCN) was developed and employed in an upper-level undergraduate chemistry course. Students used the Avogadro user interface for molecular editing and the WebMO interface for the quantum computational workflow. Density functional theory calculations were carried out to compare the electronic structures, relative energies, and other properties of mono-, di-, and tetrameric h-BCN molecular models. Experimental precursor molecules and other analogous single-layer two-dimensional (2D) materials were studied as well. These computations exemplified how electronic properties such as the band gaps of potentially useful 2D materials can be finely tuned by varying chemical structure.

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Computational Chemistry Laboratory: Calculating the Energy Content of Food Applied to a Real-Life Problem

Cited by 12 publications

References 27 publications

Atom Pair Contribution Method: Fast and General Procedure To Predict Molecular Formation Enthalpies

Atom Pair Contribution Method: Fast and General Procedure To Predict Molecular Formation Enthalpies

Computational Chemistry in the Undergraduate Classroom – Pedagogical Considerations and Teaching Challenges

The Computational Design of Two-Dimensional Materials

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