A Perspective on Sustainable Computational Chemistry Software Development and Integration

Di Felice, Rosa; Mayes, Maricris L.; Richard, Ryan M.; Williams-Young, David B.; Chan, Garnet Kin-Lic; de Jong, Wibe A.; Govind, Niranjan; Head-Gordon, Martin; Hermes, Matthew R.; Kowalski, Karol; Li, Xiaosong; Lischka, Hans; Mueller, Karl T.; Mutlu, Erdal; Niklasson, Anders M. N.; Pederson, Mark R.; Peng, Bo; Shepard, Ron; Valeev, Edward F.; van Schilfgaarde, Mark; Vlaisavljevich, Bess; Windus, Theresa L.; Xantheas, Sotiris S.; Zhang, Xing; Zimmerman, Paul M.

doi:10.1021/acs.jctc.3c00419

Cited by 13 publications

(4 citation statements)

References 304 publications

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Section: Software For Computational Chemistsmentioning

confidence: 99%

“…Despite all the difficulties, many solutions and roadmaps to potential solutions begin to emerge. 123,124 Particularly the development of packages like ASE allows bridging together different types of models to enable common simulations such as molecular dynamics (MD) and geometry optimizations. 125 We also provide a software solution for AI-enhanced computational chemistry -an open-source MLatom package that was started in 2013 as a standalone package for creating and using generic ML models for users without programming experience.…”

Section: Software For Computational Chemistsmentioning

confidence: 99%

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AI in computational chemistry through the lens of a decade-long journey

Dral

2024

Chem. Commun.

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Section: Software For Computational Chemistsmentioning

confidence: 99%

Section: Software For Computational Chemistsmentioning

confidence: 99%

AI in computational chemistry through the lens of a decade-long journey

Dral

2024

Chem. Commun.

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“…With the vast rise of computational resources, − computational chemistry emerges as a promising tool for chiral ligand design . Different approaches to data-driven models for catalysis exist, categorized as being based on the reaction-specific mechanism, − or mechanism-agnostic model structures. ,− One mechanism-agnostic approach involves computing 3D descriptors to characterize catalyst structures. ,− These descriptors aim to identify ligands that optimize certain attributes, such as reactivity or selectivity, often measured in terms of conversion or ee.…”

Section: Introductionmentioning

confidence: 99%

Impact of Model Selection and Conformational Effects on the Descriptors for In Silico Screening Campaigns: A Case Study of Rh-Catalyzed Acrylate Hydrogenation

Baidun,

Kalikadien,

Lefort

et al. 2024

J. Phys. Chem. C

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Data-driven catalyst design is a promising approach for addressing the challenges in identifying suitable catalysts for synthetic transformations. Models with descriptor calculations relying solely on the precatalyst structure are potentially generalizable but may overlook catalyst−substrate interactions. This study explores substrate-specific interactions in the context of Rh-catalyzed asymmetric hydrogenation to elucidate the impact of substrate inclusion on the catalyst structure and on the descriptors derived from it. We compare a catalyst−substrate complex with methyl 2-acetamidoacrylate as a model substrate with the generic precatalyst structure involving a placeholder substrate, norbornadiene, across 11 Rh-based catalysts with bidentate bisphosphine ligands. For these systems, a full conformer ensemble analysis reveals an intriguing finding: the rigid substrate induces conformational freedom in the ligand. This flexibility gives rise to a more diverse conformer landscape, showing a previously overlooked aspect of catalyst− substrate dynamics. Electronic descriptor variations particularly highlight differences between substrate-specific and precatalyst structures. This study suggests that generic precatalyst-like models may lack crucial insights into the conformational freedom of the catalyst. We speculate that such conformational freedom may be a more general phenomenon that can influence the development of generalizable predictive models of computational TM-based catalysis.

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“…The development of new materials is a process of great theoretical [20] and experimental [21] complexity, capable of posing challenges that test the methods and knowledge considered canonical by the scientific community. Regarding the theoretical aspect of this endeavor, the current scientific literature has a plethora of methodologies that describe atomic and molecular movements with excellent efficiency [22], enabling a detailed analysis of the physicochemical properties of the material under study even before resorting to its laboratory synthesis [23]. Among various experimentally obtained characteristics, thermomechanical properties present a considerable range of interest within the scientific community working on carbon-based nanomaterials [24][25][26][27].…”

Section: Introductionmentioning

confidence: 99%

On the Mechanical Properties and Fracture Patterns of Biphenylene-Based Nanotubes: A Reactive Molecular Dynamics Study

Armando,

Giozza,

Ribeiro Junior

et al. 2024

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Carbon-based materials have garnered significant attention since the groundbreaking synthesis of graphene. The exploration of novel 2D carbon allotropes has led to the discovery of materials with intrinsic properties distinct from graphene. Within this context, the biphenylene network (BPN) was successfully synthesized. In this study, we used molecular dynamics (MD) simulations with the Reactive Force Field (ReaxFF) to delve into the thermomechanical properties and fracture patterns of biphenylene-based nanotubes (BPN-NTs) exhibiting armchair (AC-BPN-NT) and zigzag (ZZ-BPN-NT) chiralities. Throughout the longitudinal deformation process, we observed significant morphological transformations preceding the structural fracture of the system. These transformations unfolded in distinct inelastic phases. In both cases, AC- and ZZ-BPN-NT, stress accumulation in four-membered rings led to the creation of octagonal structures; however, in AC, this occurs in the fracture region, subsequently causing the presence of nanopores. On the other hand, for ZZ-BPN-NT, stress accumulation in the rectangular rings occurred in bonds parallel to the deformation, with elongated octagonal structures. The Young’s modulus of these nanotubes ranged from 746 to 1259 GPa, with a melting point of around 4000 K. Our results also explore the influence of diameter and curvature, drawing comparisons with BPN monolayers.

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A Perspective on Sustainable Computational Chemistry Software Development and Integration

Cited by 13 publications

References 304 publications

AI in computational chemistry through the lens of a decade-long journey

AI in computational chemistry through the lens of a decade-long journey

Impact of Model Selection and Conformational Effects on the Descriptors for In Silico Screening Campaigns: A Case Study of Rh-Catalyzed Acrylate Hydrogenation

On the Mechanical Properties and Fracture Patterns of Biphenylene-Based Nanotubes: A Reactive Molecular Dynamics Study

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