Heron: Visualizing and Controlling Chemical Reaction Explorations and Networks

arXiv - PHYS - Data Analysis, Statistics and Probability Pub Date : 2024-06-13 DOI:arxiv-2406.09541

Charlotte H. Müller, Miguel Steiner, Jan P. Unsleber, Thomas Weymuth, Moritz Bensberg, Katja-Sophia Csizi, Maximilian Mörchen, Paul L. Türtscher, Markus Reiher

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Abstract

Automated and high-throughput quantum chemical investigations into chemical processes have become feasible in great detail and broad scope. This results in an increase in complexity of the tasks and in the amount of generated data. An efficient and intuitive way for an operator to interact with these data and to steer virtual experiments is required. Here, we introduce Heron, a graphical user interface that allows for advanced human-machine interactions with quantum chemical exploration campaigns into molecular structure and reactivity. Heron offers access to interactive and automated explorations of chemical reactions with standard electronic structure modules, haptic force feedback, microkinetic modeling, and refinement of data by automated correlated calculations including black-box complete active space calculations. It is tailored to the exploration and analysis of vast chemical reaction networks. We show how interoperable modules enable advanced workflows and pave the way for routine low-entrance-barrier access to advanced modeling techniques.

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苍鹭可视化和控制化学反应探索和网络

对化学过程进行自动化和高通量量子化学研究已经变得非常可行，而且范围广泛。这导致任务的复杂性和生成的数据量增加。我们需要一种高效、直观的方法，让操作人员与这些数据进行交互，并引导虚拟实验。在这里，我们将介绍一种图形用户界面--Heron，它允许先进的人机交互与量子化学探索活动，以了解分子结构和反应性。Heron 提供了通过标准电子结构模块、触觉力反馈、微观动力学建模和自动相关计算（包括黑盒完整活性空间计算）完善数据的交互式自动化学反应探索。它专为探索和分析庞大的化学反应网络而量身定制。我们展示了互操作模块如何实现先进的工作流程，并为以低门槛的方式获取先进的建模技术铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Data Analysis, Statistics and Probability

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