4.7 Article

QSPR models for sublimation enthalpy of energetic compounds

CHEMICAL ENGINEERING JOURNAL (2023)

Related references

Note: Only part of the references are listed.
Article Chemistry, Physical

Toward Chemical Accuracy in Predicting Enthalpies of Formationwith General-Purpose Data-Driven Methods

Peikun Zheng et al.

Summary: The calculation of enthalpies of formation using neural networks and data-driven methods achieves high accuracy and speed without specific training on formation enthalpies. These methods provide statistical means for uncertainty quantification of predictions, which can help in detecting and eliminating outliers and revising reference experimental data.

JOURNAL OF PHYSICAL CHEMISTRY LETTERS (2022)

Add to Collection
Article Energy & Fuels

Calculation of Gas-phase Standard Formation Enthalpy via Ring-Preserved Connectivity-Based Hierarchy and Automatic Bond Separation Reaction Platform

Jian Liu et al.

Summary: In this article, an improved scheme of bond separation reaction (BSR) called Ring-Preserved Connectivity-Based Hierarchy (RCBH) is proposed to enhance the accuracy of gas-phase standard enthalpy of formation (EOF) predicted by quantum chemical calculations. The superiority of RCBH in calculating EOF is verified through experiments, and an automated BSR software package called Automatic Bond Separation Reaction Platform (ABSRP) is developed for all categories of organic molecules.

FUEL (2022)

Add to Collection
Article Multidisciplinary Sciences

Calculation of exact Shapley values for support vector machines with Tanimoto kernel enables model interpretation

Christian Feldmann et al.

Summary: The support vector machine (SVM) algorithm, which is widely used in chemistry and drug discovery, can be interpreted through feature weighting or the Shapley additive explanations (SHAP). To enhance the interpretability of SVM models, researchers introduce SVETA, an algorithm for calculating Shapley values using the Tanimoto kernel. The results show consistent explanations with independently derived random forest models.

ISCIENCE (2022)

Add to Collection
Article Chemistry, Multidisciplinary

Machine learning-guided property prediction of energetic materials: Recent advances, challenges, and perspectives

Xiao-lan Tian et al.

Summary: This article reviews the recent advances in predicting the properties of energetic compounds using machine learning and presents general steps for applying this method. It also discusses controversies and possible development directions in this field.

ENERGETIC MATERIALS FRONTIERS (2022)

Add to Collection
Article Chemistry, Physical

Progress and performance of energetic materials: open dataset, tool, and implications for synthesis

Nikita Muravyev et al.

Summary: This study analyzed the detonation parameters of 260 energetic compounds and identified trends in the development of energetic materials. It compared the accuracy of various prediction methods and proposed a new equation for detonation velocity and metal acceleration ability with improved accuracy.

JOURNAL OF MATERIALS CHEMISTRY A (2022)

Add to Collection
Article Chemistry, Medicinal

Density Prediction Models for Energetic Compounds Merely Using Molecular Topology

Chunming Yang et al.

Summary: The study introduces three machine learning models - support vector machine, random forest, and Graph neural network - with molecular topology as the only input, to establish direct mappings between molecular structure and density. Through training and testing on over 2000 nitro compounds, it is found that the Graph neural network model has slightly higher accuracy compared to the traditional DFT-QSPR method, making it suitable for high-throughput screening of energetic compounds.

JOURNAL OF CHEMICAL INFORMATION AND MODELING (2021)

Add to Collection
Article Chemistry, Multidisciplinary

From Hydrate to Peroxosolvate: A Test of Prediction with Cyclic N-Oxides

Leila M. Foroughi et al.

Summary: Harnessing hydrogen bond donation in hydrate structures, researchers successfully identified peroxosolvates for N-oxide compounds in the Cambridge Structural Database, showcasing stronger O-H···O-N interactions in the peroxosolvates than in the hydrates. This discovery strategy provides insight into predicting target molecules that may form peroxosolvates, particularly impacting energetic materials.

CRYSTAL GROWTH & DESIGN (2021)

Add to Collection
Article Biochemical Research Methods

Predicting aqueous solubility by QSPR modeling

Nastaran Meftahi et al.

Summary: This study predicts aqueous solubility using QSPR models and explores the combination of descriptors to generate favorable models for predicting aqueous solubility. Results showed that all models had R-2 greater than 0.7 and Q(2) greater than 0.6 for estimating aqueous solubility. Improvement in the model was achieved by uncoupling descriptors and using an artificial neural network for model refinement, resulting in significantly better models with improved R-2 and standard deviation.

JOURNAL OF MOLECULAR GRAPHICS & MODELLING (2021)

Add to Collection
Review Chemistry, Multidisciplinary

A review of quantum chemical methods for treating energetic molecules

Shi-tai Guo et al.

Summary: This study focuses on Quantum chemical (QC) methods applicable to energetic molecules, including the Hartree-Fock method, semi-empirical QC methods, DFT, and high-accuracy ab initio methods. It covers the accuracy of descriptions for geometric structure, electronic structure, thermodynamic property, and reactivity of energetic molecules, and emphasizes machine learning combined with DFT calculations for accurate property predictions.

ENERGETIC MATERIALS FRONTIERS (2021)

Add to Collection
Article Multidisciplinary Sciences

Coupling complementary strategy to flexible graph neural network for quick discovery of coformer in diverse co-crystal materials

Yuanyuan Jiang et al.

Summary: This study develops a deep learning framework based on graph neural network to predict formations of different types of cocrystals quickly and accurately, showing superior performance and generalization compared to other models.

NATURE COMMUNICATIONS (2021)

Add to Collection
Article Chemistry, Physical

Learning to fly: thermochemistry of energetic materials by modified thermogravimetric analysis and highly accurate quantum chemical calculations

Nikita V. Muravyev et al.

Summary: The study introduces a facile approach to determine solid-state formation enthalpies using high-level quantum chemical calculations and advanced thermal analysis techniques to reduce uncertainties in energetic materials. Extensive benchmarking and comparisons with empirical equations were conducted to enhance accuracy and provide valuable insights for nearly 60 species of explosives-containing compounds, achieving a maximal inaccuracy of 25 kJ mol(-1) in solid-state enthalpy determinations.

PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2021)

Add to Collection
Article Chemistry, Physical

Estimating Systematic Error and Uncertainty in Ab Initio Thermochemistry: II. ATOMIC(hc) Enthalpies of Formation for a Large Set of Hydrocarbons

Dirk Bakowies

JOURNAL OF CHEMICAL THEORY AND COMPUTATION (2020)

Add to Collection
Article Thermodynamics

Estimation of enthalpies of sublimation of organic, organometallic and inorganic compounds

Michael H. Abraham et al.

FLUID PHASE EQUILIBRIA (2020)

Add to Collection
Article Computer Science, Software Engineering

iForest: Interpreting Random Forests via Visual Analytics

Xun Zhao et al.

IEEE TRANSACTIONS ON VISUALIZATION AND COMPUTER GRAPHICS (2019)

Add to Collection
Article Chemistry, Physical

Predicting the Enthalpies of Sublimation of Cyclic Urea Derivatives Using a Model of the Molecular Electrostatic Potential

O. N. Ryzhova et al.

RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY A (2019)

Add to Collection
Article Chemistry, Medicinal

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

Didier Mathieu

JOURNAL OF CHEMICAL INFORMATION AND MODELING (2018)

Add to Collection
Article Chemistry, Physical

Accurate Lattice Energies for Molecular Crystals from Experimental Crystal Structures

Sajesh P. Thomas et al.

JOURNAL OF CHEMICAL THEORY AND COMPUTATION (2018)

Add to Collection
Article Multidisciplinary Sciences

Predicting the Enthalpy and Gibbs Energy of Sublimation by QSPR Modeling

Nastaran Meftahi et al.

SCIENTIFIC REPORTS (2018)

Add to Collection
Article Engineering, Chemical

Accurate or Fast Prediction of Solid-State Formation Enthalpies Using Standard Sublimation Enthalpies Derived From Geometrical Fragments

Didier Mathieu

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2018)

Add to Collection
Article Biochemical Research Methods

Prediction of enthalpies of sublimation of high-nitrogen energetic compounds: Modified Politzer model

Marina A. Suntsova et al.

JOURNAL OF MOLECULAR GRAPHICS & MODELLING (2017)

Add to Collection
Article Thermodynamics

Use of G4 Theory for the Assessment of Inaccuracies in Experimental Enthalpies of Formation of Aromatic Nitro Compounds

Marina A. Suntsova et al.

JOURNAL OF CHEMICAL AND ENGINEERING DATA (2016)

Add to Collection
Article Computer Science, Artificial Intelligence

A novel stability-based adaptive inertia weight for particle swarm optimization

Mojtaba Taherkhani et al.

APPLIED SOFT COMPUTING (2016)

Add to Collection
Article Thermodynamics

Simple approach for predicting the heats of formation of high nitrogen content materials

Mohammad Jafari et al.

FLUID PHASE EQUILIBRIA (2016)

Add to Collection
Article Chemistry, Medicinal

Are the Sublimation Thermodynamics of Organic Molecules Predictable?

James L. McDonagh et al.

Journal of Chemical Information and Modeling (2016)

Add to Collection
Article Chemistry, Multidisciplinary

A Reliable Method for Prediction of the Condensed Phase Enthalpy of Formation of High Nitrogen Content Materials through their Gas Phase Information

Mohammad Jafari et al.

CHEMISTRYSELECT (2016)

Add to Collection
Review Chemistry, Multidisciplinary

Accurate Composite and Fragment-Based Quantum Chemical Models for Large Molecules

Krishnan Raghavachari et al.

CHEMICAL REVIEWS (2015)

Add to Collection
Article Thermodynamics

A suitable computer code for prediction of sublimation energy and deflagration temperature of energetic materials

Mohammad Hossein Keshavarz et al.

JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY (2015)

Add to Collection
Article Thermodynamics

Acetamidobenzoic acid isomers: Studying sublimation and fusion processes and their relation with crystal structures

Alex N. Manin et al.

THERMOCHIMICA ACTA (2014)

Add to Collection
Review Chemistry, Multidisciplinary

Machine learning methods in chemoinformatics

John B. O. Mitchell

WILEY INTERDISCIPLINARY REVIEWS-COMPUTATIONAL MOLECULAR SCIENCE (2014)

Add to Collection
Article Chemistry, Medicinal

Capturing the Crystal: Prediction of Enthalpy of Sublimation, Crystal Lattice Energy, and Melting Points of Organic Compounds

Maryam Salahinejad et al.

JOURNAL OF CHEMICAL INFORMATION AND MODELING (2013)

Add to Collection
Article Chemistry, Multidisciplinary

Multiwfn: A multifunctional wavefunction analyzer

Tian Lu et al.

JOURNAL OF COMPUTATIONAL CHEMISTRY (2012)

Add to Collection
Article Thermodynamics

Simple yet accurate prediction method for sublimation enthalpies of organic contaminants using their molecular structure

Mehdi Bagheri et al.

THERMOCHIMICA ACTA (2012)

Add to Collection
Article Chemistry, Multidisciplinary

The electrostatic potential: an overview

Jane S. Murray et al.

WILEY INTERDISCIPLINARY REVIEWS-COMPUTATIONAL MOLECULAR SCIENCE (2011)

Add to Collection
Article Chemistry, Multidisciplinary

Sublimation of Molecular Crystals: Prediction of Sublimation Functions on the Basis of HYBOT Physicochemical Descriptors and Structural Clusterization

German L. Perlovich et al.

CRYSTAL GROWTH & DESIGN (2010)

Add to Collection
Article Engineering, Environmental

Improved prediction of heats of sublimation of energetic compounds using their molecular structure

Mohammad Hossein Keshavarz

JOURNAL OF HAZARDOUS MATERIALS (2010)

Add to Collection
Article Engineering, Environmental

Prediction of heats of sublimation of nitroaromatic compounds via their molecular structure

Mohammad Hossein Keshavarz

JOURNAL OF HAZARDOUS MATERIALS (2008)

Add to Collection
Article Engineering, Environmental

Heats of sublimation of nitramines based on simple parameters

Mohammad Hossein Keshavarz et al.

JOURNAL OF HAZARDOUS MATERIALS (2008)

Add to Collection
Article Thermodynamics

A new molecular-based model for prediction of enthalpy of sublimation of pure components

Farhad Gharagheizi

THERMOCHIMICA ACTA (2008)

Add to Collection
Article Computer Science, Artificial Intelligence

Extremely randomized trees

P Geurts et al.

MACHINE LEARNING (2006)

Add to Collection
Article Chemistry, Physical

Computational prediction of standard gas, liquid, and solid-phase heats of formation and heats of vaporization and sublimation

P Politzer et al.

INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY (2005)

Add to Collection
Article Thermodynamics

Use of the DIPPR database for the development of QSPR correlations: Solid vapor pressure and heat of sublimation of organic compounds

BT Goodman et al.

INTERNATIONAL JOURNAL OF THERMOPHYSICS (2004)

Add to Collection
Review Computer Science, Theory & Methods

A tutorial on support vector regression

AJ Smola et al.

STATISTICS AND COMPUTING (2004)

Add to Collection
Article Chemistry, Multidisciplinary

Prediction of physicochemical properties of organic molecules using van der Waals surface electrostatic potentials

CK Kim et al.

JOURNAL OF COMPUTATIONAL CHEMISTRY (2004)

Add to Collection
Article Chemistry, Applied

New aspects of impact reactivity of polynitro compounds, part III. Impact sensitivity as a function of the imtermolecular interactions

S Zeman et al.

PROPELLANTS EXPLOSIVES PYROTECHNICS (2003)

Add to Collection
Article Computer Science, Artificial Intelligence

Random forests

L Breiman

MACHINE LEARNING (2001)

Add to Collection
Webinars Posters Questions Hubs Funding Journals Papers Connect Collections Reviewers About Us FAQs Mobile App Privacy Policy Terms of Use
© Peeref 2019-2024. All rights reserved.