Shermo：A general code for calculating molecular thermodynamic properties

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Latest version：2.4.1 (Release date: 2023-Dec-6)

Developer

Dr. Tian Lu (Contact: sobereva[at]sina.com. Beijing Kein Research Center for Natural Sciences, China)

If you encountered any difficulty in using Shermo, or you have found bug, or you have any suggestion on improving Shermo, please feel free to contact me!

Note: There is a nice online version of Shermo maintained by Stevan Armaković: https://atomistica-online-shermo.anvil.app. After uploading a file, you will quickly obtain result from the webpage. Please contact corresponding developer if you have any relevant question.

Citation

If Shermo is utilized in your work, the following paper must be cited in your article:

Tian Lu, Qinxue Chen, Shermo: A general code for calculating molecular thermodynamic properties, Comput. Theor. Chem., 1200, 113249 (2021) DOI: 10.1016/j.comptc.2021.113249

If you do not have permission to access the above paper, see preprint version DOI: 10.26434/chemrxiv.12278801, but please cite the above one.

Download

Manual: Shermo_manual_2.4.1.pdf. Many examples and introduction of background knowledge of thermochemistry calculation can also be found in the manual.

Executable file: Shermo_2.4.1.zip (including executable files of Windows and Linux platforms with manual)

Source code (in Fortran): Shermo_2.4.1_src.zip

Quickly getting start

Learning basic usages of Shermo in minutes (Video tutorial): https://youtu.be/qGJRt4j-5mY

中国的用户可以看此文快速入门：使用Shermo结合量子化学程序方便地计算分子的各种热力学数据

使用Shermo程序计算各种热力学数据的基本操作演示视频：https://www.bilibili.com/video/BV1EN411X7b3/

Introduction of Shermo

What is Shermo?

Shermo program is a free, general, very easy-to-use and flexible code for calculating molecular thermochemistry data based on ideal gas assumption. Although most quantum chemistry programs have their own codes used to calculate thermochemistry data after performing frequency analysis, their functionalities are very limited, and usually their outputs are inconvenient to read, especially for beginners. The aim of developing Shermo is making calculation of various basic and some advanced thermochemistry data as convenient as possible, and meantime providing deeper insight into their components.

Features of Shermo

• Output file of frequency analysis task of various quantum chemistry programs can be used as input file, including Gaussian, ORCA, GAMESS-US, NWChem and CP2K. Other programs can also utilize Shermo to compute thermochemistry data as long as they can generate the .shm file defined by Shermo.
• All common thermochemistry quantities can be calculated, including internal energy (U), enthalpy (H), entropy (S), constant volume heat capacity (C_V), constant pressure heat capacity (C_P) and partition function (q).
• Contributions of translation, rotation, vibration, electron to various thermochemistry properties are outputted in a very compact and clear format. Contribution of every vibrational mode can also be printed to understand their influences on the calculated properties.
• Temperature and pressure can be easily scanned.
• Conformation/configuration weights and weighted thermodynamic data can be obtained.
• The thermochemistry properties are calculated based on rigid-rotor harmonic oscillator (RRHO) model. In order to better deal with low frequencies, two quasi-RRHO treatments are supported: Raising lower frequencies to a specific value, interpolation between harmonic oscillator and free-rotor approximations (can be applied to both entropy and internal energy parts).
• Frequency scaling factors for ZPE, heating contribution to internal energy, entropy and heat capacity can be individually specified.
• Point group and rotational symmetry number can be automatically assigned.
• Variation of Gibbs free energy due to concentration change from current state to specific state can be taken into account.
• Shermo can not only run in interactive mode but also run in command-line mode, thus it can be easily incorporated into shell script for batch processing.
• Very easy to use. The program can be used without installation, and users do not need to prepare any running environment like Python.
  

Update History

2023-Dec-6: Version 2.4.1. A new parameter "intpvib" is added to settings.ini. It makes user to customize the vibrational frequency threshold used in interpolation when ilowfreq=2 and 3. In older version, this parameter is fixed to 100 (cm^-1).

2023-Jul-8: Version 2.4. J. Comput. Chem., 44, 1807 (2023) suggests applying interpolation between harmonic oscillator and free rotor models to both entropy and internal energy to obtain better result and more consistent theory than only applying it to entropy. Now this scheme has been implemented and can be used by setting "ilowfreq" in settings.ini to 3.

2023-May-4: Version 2.3.6. Fixed minor bugs of dealing with CP2K output file. In addition, rule has changed to: when dealing with CP2K output file, if imode=1 (use for periodic systems), point group will simply be set to C1 since determining it is meaningless in this case, while for imode=0 (used for isolated systems), point group will be determined as usual to proper account for rotation contribution.

2023-Jan-21: Version 2.3.5, now compatible with CP2K 2023.1.

2022-Oct-7: Updated Version 2.3.4, fixed a bug, which causes crashing when loading ORCA output file with "usesym" keyword.

2022-Apr-1: Updated Version 2.3.4, fixed a bug of loading modmass setting from settings.ini file.

2022-Mar-24: Updated Version 2.3.4, making it compatible with CP2K 9.1.

2022-Jan-24: Version 2.3.4. Bug fixed: When dealing with multiple systems recorded in a list file, point group is only determined for the first system rather than respectively determined for each system.

2022-Jan-9: Version 2.3.3. Bug fixed: When loading frequencies from ORCA output file, if a frequency ends with "0.00", e.g. 2580.00, then frequencies cannot be correctly loaded, leading to wrong vibrational contribution.

2021-Dec-28: Version 2.3.2. "PGlabel" parameter in settings.ini now supports four-letter point group label, such as D11h.

2021-Dec-23: Version 2.3.1. Fixed a bug: When explicitly considering electronic transition contribution by defining excitation energies in .shm file, the thermal corrections to U, H, G contributed by electronic transition are incorrect.

2021-Sep-4: Version 2.3. Variation of Gibbs free energy due to concentration change from present state to specific state can be printed and automatically added to reported Gibbs free energy. See corresponding description in Section 2.3 of manual for detail and example in Section 3.8.

In addition, Shermo now can be invoked by Molclus since version 1.9.9.6 (http://www.keinsci.com/research/molclus.html) for calculating thermodynamic data during configuration/coformation search.

2021-Jun-17: Version 2.2. New option "imode" has been added to settings.ini. When it is set to 1, then translation and rotation contributions to thermodynamic data will be ignored. This is suitable for crystal, slab and adsorbate systems.

2021-Apr-27: Version 2.1.2. Fixed a bug: Frequency analysis task of ORCA cannot be normally loaded if effective core potential is used.

2021-Apr-14: Version 2.1.1. Fixed a bug: The unit of the energy read from CP2K output file is wrong.

2021-Mar-18: Version 2.1. Source code of Shermo is now available for public download. A new section "Appendix 2: Structure and subroutines of Shermo" has been added at the end of manual to facilitate professional users to easily extend the functionality of Shermo. A video tutorial of Shermo has been presented.

2021-Feb-10: Version 2.0.8. Output file of vibrational analysis task of CP2K has been supported, see manual for detail. "PGlabel" parameter now can be specified via argument.

2021-Feb-8: Version 2.0.7. Point group now can be directly specified by "PGlabel" parameter in settings.ini. See manual for supported point group labels.

2021-Feb-4: Version 2.0.6. Fixed a bug: U, H, G are shown as NaN when temperature is set to 0.

2020-Sep-30: Version 2.0.5. Fixed a bug: Rotational symmetry number of molecules of Th point group cannot be assigned.

2020-Sep-20: Version 2.0.4.
Bug Fixed: (1) Rotation contribution is wrong for single atom system in rare cases. (2) In the printed information, the negative sign of -TS term is missing.
Section 3.8 has been added to manual to show how to use shell script to invoke Shermo to deal with a batch of files.

2020-Jul-23: Version 2.0.3. Fixed a bug: Rotation entropy in scan task is incorrect for linear molecule

2020-Jul-12: Version 2.0.2. Fixed a bug: Rotation symmetry number cannot be identified for molecule of Td point group

2020-May-20: Version 2.0.1. Fixed the bug of loading frequency scale factor for heat capacity

2020-May-14: Updated version 2.0. Now electronic energy can be directly specified via the "E" parameter, and in the conformation weighted calculation, electronic energies can be directly specified in the list file.

2020-May-12: Initial release of version 2.0

Published papers that utilized Shermo

Shermo has been utilized by more and more computational chemists in their daily research due to its unique value. The following publications have employed and cited Shermo (incomplete list):

1. Yu Chen, Qianru Zhang, Xinyu Zhang, et al., Structure and activity of new degraded products of limonoid from root bark of Dictamnus dasycarpus, and insights from broadened NMR spectra into self-aggregation of hydroxy acids, Arbian J. Chem. (2023) https://www.sciencedirect.com/science/article/pii/S1878535223009796
2. Guangzheng Ma, Zihan Zhang, Zeping Lu, et al., Hydrophobic deep eutectic solvents-lipase synergistically catalyze the synthesis of Vitamin E succinate via hydrogen bonds, J. Mol. Liq. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0167732223025187
3. Liwei Ye, Xiaoyang Liu, Kristen B. Beckett, et al., Catalyst metal-ligand design for rapid, selective, and solventless depolymerization of Nylon-6 plastics, Chem (2023) https://doi.org/10.1016/j.chempr.2023.10.022
4. Yanzhou Ding, Yiwen Zhu, Xia Yu, et al., Mechanistic and kinetic aspects of florfenicol degradation by radical OH: Chloride moiety resistance, Chem. Eng. J., 479, 147696 (2024) https://www.sciencedirect.com/science/article/abs/pii/S1385894723064288
5. Zhaoqiang Wang, Guixiang Ding, Juntao Zhang, et al., Critical role of hydrogen bond between microcrystalline cellulose and g-C3N4 enables highly efficient photocatalysis, Chem. Commun. (2023) https://pubs.rsc.org/en/content/articlelanding/2023/cc/d3cc04800d/
6. Xuan Zhu, Yan Liu, Menglin Wang, et al., Boosting solar photothermal synergy for efficient overall water splitting based on Mg, Al codoped and Rh/Cr2O3/CoOOH coloaded SrTiO3, Chem. Eng. J., 479, 147636 (2024) https://www.sciencedirect.com/science/article/abs/pii/S1385894723063672
7. Matthew P. Confer, David A. Dixon, Acid Gas Capture by Nitrogen Heterocycle Ring Expansion, J. Phys. Chem. A (2023) https://pubs.acs.org/doi/abs/10.1021/acs.jpca.3c06094
8. K. Deepakvijay, A. Prakasam, R. Arivazhagan, P.M. Anbarasan, Insights into the structural, electronic, quantum chemical properties and molecular docking studies on novel NAMPT inhibitor molecule, Chem. Phys. Impact (2023) https://www.sciencedirect.com/science/article/pii/S2667022423002347
9. Guoxun Zhu, Yan Lin, Wenxian Zhou, et al., Study of the electronic effect and quantitative spectra predictions of o-methoxyaniline-terminated monoazonaphthols: a combined experimental and DFT study, RSC Adv., 13, 33736 (2023) https://pubs.rsc.org/en/content/articlehtml/2023/ra/d3ra05518c
10. Jacopo Lupi, Leandro Ayarde-Henr ́ıquez, Mark Kelly, Stephen Doole, Ab Initio and Kinetic Modelling of β-D-xylopyranose Under Fast Pyrolysis Conditions, Arxiv (2023) https://arxiv.org/pdf/2311.07983.pdf
11. Zhenyingnan Zhang, Ang Li, Zhuohang Li, et al., A Kinetic Modeling and Engine Simulation Study on Ozone-Enhanced Ammonia Oxidation, SAE Technical Paper 2023-01-1639 (2023) https://doi.org/10.4271/2023-01-1639
12. Weijiang Cheng, Na Li, Jingcheng Liu, et al., Solid Electrolyte Interface Film-Forming and Surface-Stabilizing Bifunctional 1,2-Bis((trimethylsilyl)oxy) Benzene as Novel Electrolyte Additive for Silicon-Based Lithium-Ion Batteries, ACS Appl. Mater. Interfaces (2023) https://pubs.acs.org/doi/abs/10.1021/acsami.3c10008
    
13. Yuhui Li, Xinlang Yang, Yuanqin Yu, et al., Dependence of Intramolecular Hydrogen Bond on Conformational Flexibility in Linear Aminoalcohols, J. Phys. Chem. A (2023) https://pubs.acs.org/doi/abs/10.1021/acs.jpca.3c04674
14. Qichao Zhang, Fang Zhang, Zhihang Wei, et al., Organocatalytic synthesis of δ-sultone-fused benzofurans by the tandem reaction of β-arylethenesulfonyl fluorides, ChemRxiv (2023) https://chemrxiv.org/engage/chemrxiv/article-details/60d9d25c926ad03435038632
15. Yaosong Huang, Hao Chen, A detailed reaction mechanism for hexamethyldisiloxane combustion via experiments and ReaxFF molecular dynamics simulations, Int. J. Chem. Kin. (2023) https://onlinelibrary.wiley.com/doi/abs/10.1002/kin.21698
16. E. S. Ashlin, G. Edwin Sheela, P. R. Babila, Synthesis, Antifungal Activity, Molecular Docking Studies, RDG Analysis, and DFT Computations on Structural Vibrational and Electronic Spectra of 3,5-Diamino-1,2,4-Triazolinium Picrate, Polycycl. Aromat. Comp. (2023) https://www.tandfonline.com/doi/abs/10.1080/10406638.2023.2266094
17. ZanHui Fu, ChunFa Liao, Xu Wang, et al., Thermodynamic investigation on ion structure and conductivity of LiF–NdF3 molten salt, Theor. Chem. Acc, 142, 115 (2023) https://link.springer.com/article/10.1007/s00214-023-03056-y
18. Shuaijie Jiang, Yeteng Wang, Yuangang Xu, et al., Enhancing Stability in Polynitrogen Compounds: Mechanisms and Strategies, Cryst. Growth Des. (2023) https://pubs.acs.org/doi/abs/10.1021/acs.cgd.3c00832
19. Erwei Leng, Li Yang, Tiantian Wang, et al., Mechanistic study on levoglucosan condensation and decomposition in the condensed phase during cellulose pyrolysis, Fuel, 358, 130109 (2024) https://www.sciencedirect.com/science/article/abs/pii/S0016236123027230d
20. Junhong Liu, Haifeng Wu, Yuanxi Liu, Zhen-Gang Wang, Colorimetric Sensor Based on the Oxidase-Mimic Supramolecular Catalyst for Selective and Sensitive Biomolecular Detection, ACS Appl. Mater. Interfaces (2023) https://doi.org/10.1021/acsami.3c09940
21. Mingxian Ning, Xunchao Zhang, Lihua Kang, Mingyuan Zhu, DFT study of N-modified graphene-loaded monometallic cobalt for acetylene hydrochlorination reaction, Comput. Theor. Chem., 1230, 114359 (2023) https://www.sciencedirect.com/science/article/abs/pii/S2210271X23003419
22. Wei Yu, Chao Liu, Luxi Tan, et al., Thermal stability and thermal decomposition mechanism of octamethyltrisiloxane (MDM): Combined experiment, ReaxFF-MD and DFT study, Energy, 284, 129289 (2023) https://www.sciencedirect.com/science/article/abs/pii/S036054422302683X
23. Jinyu Zeng, Duoduo Chen, Jing Zhu, et al., Phosphate recovery using activated sludge cyanophycin: Adsorption mechanism and utilization as nitrogen-phosphorus fertilizer, Chem. Eng. J., 476, 146607 (2023) https://www.sciencedirect.com/science/article/abs/pii/S138589472305338X
24. Xude Yu, Hengyuan Liu, Sida Ling, et al., Microfluidic Printing of Vertically-Oriented Nanosheets/MOFs Hetero-Interface for Intensive Pseudocapacitive Storage, Small (2023) https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.202305396
25. Guanlun Sun, Zhenyu Zhao, Shengjie Sun, et al., Vapor-liquid phase equilibria behavior prediction of binary mixtures using machine learning, Chem. Eng. Sci., 282, 119358 (2023) https://www.sciencedirect.com/science/article/abs/pii/S0009250923009144
26. Zilin Gao, Wenbo Huang, Manli Liu, et al., Highly efficient construction of multi-substituted aminopyrazoles derivatives via iodine-mediated three-components reaction as potential anticancer agents, Green Chem. Lett. Rev., 16, 2264324 (2023) https://doi.org/10.1080/17518253.2023.2264324
27. Qiang Gao, Yutong Shi, Huimin Wen, et al., Asepterpenedol A, a novel indole sesquiterpene with a rare 7/6/5/5/6/6-hexacyclic scaffold from a marine-derived fungus Chloridium sp. NBU3282, J. Mol. Struct. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0022286023018136
28. S. Pushpam, V. Sheelarani, S. Christopher Jeyaseelan, A. Milton Franklin Benial, Spectroscopic, Quantum Chemical and Molecular Docking Studies on N-(9H-Purin-6-yl) Benzamide: A Potent Antimalarial Agent, Polycycl. Aromat. Comp. (2023) https://www.tandfonline.com/doi/abs/10.1080/10406638.2023.2259051
29. Xin Liu, Fuqi Yuan, Yue Pan, et al., Direct synthesis of C2-C4 alcohols with methanol and CaC2 by tandem reactions, Chem. Eng. J. (2023) https://www.sciencedirect.com/science/article/abs/pii/S1385894723049811
30. Ying Gao, Yuang Wang, Yue Jiang, et al., Insights into aromatic methyl groups in the hydrothermal aqueous phase to enhance the efficiency of sludge gasification for hydrogen production, Chem. Eng. Sci. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0009250923008849
31. Ran Tao, Bin Li, Yufeng Wu, et al., Pyrolysis mechanism and recycling strategy of end-of-life photovoltaic modules based on the experiment and the density functional theory, Polym. Degrad. Stab. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0141391023002951
32. Lian Duan, Tianyu Huang, Qi Wang, et al., Boosting the Efficiency and Stability of Blue TADF Emitters by Perdeuteration, Research Square (2023) https://www.researchsquare.com/article/rs-3354760/v1
33. Yinwu Li, Huayu Liang, Yubang Liu, et al., Unraveling the Role of Silyl and Silane in Si–Ni Catalysts for Hydrogenation, ACS Catal., 13, 13008 (2023) https://pubs.acs.org/doi/abs/10.1021/acscatal.3c03329
34. Youlu Pan, Jingli Min, Yanwen He, et al., The acylation with aldehydes via dual C-H activations by combining photocatalysis and palladium catalysis, Mol. Catal., 550, 113542 (2023) https://www.sciencedirect.com/science/article/abs/pii/S2468823123006259
35. Suocheng Chi, Yingzhe Yu, Minhua Zhang, Theoretical Insights into Midchain Radicals and Branching Characteristics in Solution Copolymerization of Ethylene and Vinyl Acetate, J. Phys. Chem. B (2023) https://pubs.acs.org/doi/abs/10.1021/acs.jpcb.3c04570
36. Mohamed Bensebaa, Mebarek Boukelkoul, Ömer Tamer, et al., Theoretical Investigation of Structural, Spectroscopic (IR, 1H and 13C NMR), Static, and Frequency-Dependent Nonlinear Optical Properties of 4-[(1E)-3-(4-Methoxyphenyl)-3-Oxoprop-1-en-1-yl]Phenyl 4-Methylbenzene-1-Sulfonate, Polycycl. Aromat. Comp. (2023) https://www.tandfonline.com/doi/abs/10.1080/10406638.2023.2254906
37. Zehua Bai, Beibei Wang, Jingjing Bian, et al., Antibacterial and osteogenic activities of thiolated and aminated yttria-stabilized tetragonal zirconia polycrystal with tolerance to low temperature degradation, Ceram. Int. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0272884223027396
38. Xiangze Meng, Guangxuan Jin, Rui Yang, A quantum chemical and molecular dynamics simulation study on photo-oxidative aging of polyethylene: Mechanism and differences between crystalline and amorphous phases, Polym. Degrad. Stab., 217, 110536 (2023) https://www.sciencedirect.com/science/article/pii/S0141391023002860
39. Ran Liu, Wenfeng Shen, Theoretical Study on the Rate Constant of Spin-forbidden Reaction SO2+O(3P) (+M)→SO3 (+M), ChemistrySelect (2023) https://chemistry-europe.onlinelibrary.wiley.com/doi/abs/10.1002/slct.202301740
40. Junfeng Teng, Fang Zong, Zhe Zhang, et al., Measurement, Correlation, and Analysis of the Solubility of Triethylamine Hydrochloride in ten Pure Solvents, J. Mol. Liq. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0167732223018469
41. Shengxian Xian, Qing Xu, Haowei Li, Mechanism Insight into the Conversion between H2S and Thiophene during Coal Pyrolysis: A Theoretical Study, ACS Omega (2023) https://pubs.acs.org/doi/full/10.1021/acsomega.3c04847
42. Kaicheng Du, Xingyao Li, Changwei Zheng, et al., Monoterpenoid indole alkaloid dimers from the Melodinus axillaris induce G2/M phase arrest and apoptosis via p38 MAPK activation in HCT116 cells, Bioorg. Chem., 140, 106841 (2023) https://www.sciencedirect.com/science/article/abs/pii/S0045206823005023
43. Andie R Delaney, Asja A Kroeger, Michelle L Coote, Annie L. Colebatch, Oxidative Addition and β-hydride Elimination by a Macrocyclic Dinickel Complex: Observing Bimetallic Elementary Reactions, Chem. Eur. J. (2023) https://chemistry-europe.onlinelibrary.wiley.com/doi/abs/10.1002/chem.202302366
44. Yajie Zhang, Changjiao Shang, Chaofan Sun, Lingling Wang, Simultaneously regulating absorption capacities and antioxidant activities of four stilbene derivatives utilizing substitution effect: A theoretical and experimental study against UVB radiation, Spectrochim. Acta A, 304, 123325 (2024) https://www.sciencedirect.com/science/article/abs/pii/S1386142523010107
45. Yong Han, Yufeng Ni, Xiaoqiang Guo, Tifeng Jiao, Insights into the mechanism of electric field regulating hydrogen adsorption on Li-functionalized N-doped defective graphene: A first-principles perspective, Fuel., 357, 129655 (2023) https://www.sciencedirect.com/science/article/abs/pii/S001623612302269X
46. Xinbo Yang, Nan Li, Yuchuan Li, Siping Pang, Can Catenated Nitrogen Compounds with Amine-like Structures Become Candidates for High-Energy-Density Compounds? J. Org. Chem. (2023) https://pubs.acs.org/doi/abs/10.1021/acs.joc.3c01225
47. Tian-Ming Lv, Jin-Ling Han, Qiu-Lin Yan, et al., Discovery of the Caged-Vibsane Norditerpenoids with Unprecedented Chemical Architectures and Exploration of Their Various Acid Tolerances, J. Org. Chem. (2023) https://pubs.acs.org/doi/abs/10.1021/acs.joc.3c01115
48. Wenwen Fan, Yi Cheng, Mingxia Feng, et al., Lanthanide Metal–Organic Framework Isomers with Novel Water-Boosting Lanthanide Luminescence Behaviors, ACS Appl. Mater. Interfaces (2023) https://pubs.acs.org/doi/abs/10.1021/acsami.3c10272
49. Jian Gao, Zhengning Xu, Runlong Cai, et al., Molecular identification of organic acid molecules from α-pinene ozonolysis, Atmosph. Environ. (2023) https://www.sciencedirect.com/science/article/abs/pii/S1352231023004788
50. Xianpeng Zhang, Shuang Shen, Xinling Liu, et al., Zn2+-Induced aggregation of a water-soluble iridium complex enhances aggregation-induced emission for intracellular Zn2+ imaging, Sens. Actuat. B, 394, 134457 (2023) https://www.sciencedirect.com/science/article/abs/pii/S0925400523011723
51. Guoao Li, Zhenxing Li, Liuzhou Gao, et al., Combined Molecular Dynamics and Coordinate Driving Method for Automatically Searching Complicated Reaction Pathways, Phys. Chem. Chem. Phys. (2023) https://pubs.rsc.org/en/content/articlehtml/2023/cp/d3cp02443a
52. Mingzu Liu, Xiuxiu Zhao, Zefeng Ma, et al., An alkylation route for developing novel liquid aviation fuels from α-pinene and mixed isobutane/isobutene, Chem. Eng. Sci. (2023) https://www.sciencedirect.com/science/article/abs/pii/S0009250923007303
53. Saeedreza Emamian, Mousa Soleymani, Synthesis of tetrazoles through a domino reaction: A molecular electron density theory study of energetics, selectivities, and molecular mechanistic aspects, J. Mol. Graph. Model. (2023) https://www.sciencedirect.com/science/article/abs/pii/S1093326323001948
54. Jie Guo, Hang Yin, Wentian Zhang, et al., Turn on the luminescence channel by the suppression of conical intersection process for the sulfur-containing hydrogen-bonded molecules, Dyes Pigments (2023) https://www.sciencedirect.com/science/article/abs/pii/S0143720823005272
55. Jiabao Hu, Shunping Shi, Xia Li, et al., Reaction mechanism of ZrAln (n=1-4) clusters and water molecules: A density functional theory study, Mater. Today Commun. (2023) https://www.sciencedirect.com/science/article/abs/pii/S2352492823014915
56. Yunze Zhao, Huifang Xing, Meng Rong, et al., Quantum calculation assisted efficient lithium extraction from unconventional oil and gas field brine by β-diketone synergic system, Desalination (2023) https://www.sciencedirect.com/science/article/abs/pii/S0011916423005222
57. Tanlong Zhou, Shunli Wang, Wanqin Zhang, et al., Polyhydroxyalkanoates production from lactic acid fermentation broth of agricultural waste without extra purification: The effect of concentrations, Environ. Technol. Innovat. (2023) https://www.sciencedirect.com/science/article/pii/S2352186423003073
58. Yan Zhang, Hao Lin, Aixin Yu, et al., Migration mechanism of atrazine in the simulated lake icing process at different freezing temperatures based on density function theory, J. Environ. Sci. (2023) https://www.sciencedirect.com/science/article/abs/pii/S1001074223003315
59. Shuai Zhang, Yongjin Wang, Hanchu Huang, Derong Cao, A Strategy for Controlling the Polymerizations of Thiyl Radical Propagation by RAFT Agents, Angew. Chem. (2023) https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.202308524
    
60. Ya-Min Guo, Hao Wang, Jin-Rong Yang, et al., Synthesis of 2,3-Fused Quinazolinones via the Radical Cascade Pathway and Reaction Mechanistic Studies by DFT Calculations, J. Org. Chem. (2023) https://pubs.acs.org/doi/abs/10.1021/acs.joc.2c03050
61. Zhujun Liu, Xinning Dai, Jun He, et al., Unraveling the thallium immobilization in CuO/PMS system, Chem. Eng. J., 472, 144869 (2023) https://www.sciencedirect.com/science/article/abs/pii/S1385894723036008
62. Fan-Zhi Bu, Yue-Ming Yu, Min Zhang, et al., Directed Self-Assembly with Gallic Acid Provides First Phenolic Acid Cocrystals for the Antiviral Drug Acyclovir toward Increasing Pharmaceutical Features and Synergy: A Theoretical and Experimental Integration Research, Cryst. Growth Des. (2023) https://pubs.acs.org/doi/abs/10.1021/acs.cgd.3c00489
63. Melisa Alkan, Haley K. Banovetz, Mark S. Gordon, Levi M. Stanley, Computational and Mechanistic Studies of Pd-Catalyzed Alkene Carboacylation via Ester C–O Bond Activation, ACS Catal., 13, 9766 (2023) https://pubs.acs.org/doi/abs/10.1021/acscatal.3c01405
64. Saeedreza Emamian, Majid Salami, Diels-Alder Reaction of Oxazolidine-fused Butadienes Toward Alkenes: Shedding Light on the Energetics, Selectivities, and Molecular Mechanistic Aspects by a Density Functional Theory Study, ChemistrySelect (2023) https://chemistry-europe.onlinelibrary.wiley.com/doi/abs/10.1002/slct.202300710
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