Shermo：A general code for calculating molecular thermodynamic properties

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Latest version：2.6 (First release: 2024-Feb-11)

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_2.6.pdf. Many examples and introduction of background knowledge of thermochemistry calculation can also be found in the manual.

Executable file: Shermo_2.6.zip (including executable files of Windows and Linux platforms with manual)

Source code (in Fortran): Shermo_2.6_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, CP2K and xtb. 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.
• Thermochemistry properties can be calculated based on the standard rigid-rotor harmonic oscillator (RRHO) model. While in order to much better deal with low frequencies, two kinds of quasi-RRHO treatments can also be used: (1) Raising lower frequencies to a specific value (2) Interpolation between harmonic oscillator and free-rotor approximations (for entropy part, and can also be for internal energy part, corresponding to Grimme’s and Minenkov’s models, respectively).
• Imaginary frequencies are allowed to be treated as real frequencies.
• 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

2024-Feb-11: Version 2.6. g98.out file outputted by vibrational analysis task of xtb is supported to calculate thermodynamic data. See Section 2.4 of manual for detail.

2024-Feb-3: Version 2.5. Small imaginary frequencies are allowed to be treated as real frequencies when calculating thermodynamic data for situations with small imaginary frequencies, see Section A.4 of manual on discussion about this treatment. Correspondingly, a new parameter "imagreal" is added to settings.ini, imaginary frequencies with norm smaller than this value (usually 100 cm^-1) will be treated as real frequencies.

2024-Jan-31: Updated version 2.4.2. Fixed a bug that point group cannot be specified directly with argument "-PGlabel" in command-line mode.
2024-Jan-16: Version 2.4.2. Fixed a bug for ilowfreq=3, namely the free rotor contribution was not correctly calculated by older versions (1/2 factor is missed). Thanks Leo Lugo for reporting.

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. Chenkai Mu, Tianyu Li, Chengbo Zhan, et al., Harnessing Solvation Chemistry of Pentavalent Vanadium for Wide-temperature Range Vanadium Flow Batteries, Angew. Chem. Int. Ed. (2025) https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.202508456
2. Hei Wun Kan, Xiao-Tian Li, Tong Zhu, et al., Invariant-Potential-Driven Molecular Dynamics Unravels Formose Reaction Kinetics, ChemRxiv (2025) https://chemrxiv.org/engage/chemrxiv/article-details/68230d67e561f77ed48be570
3. Dan Huang, Zhen Zhu, Derong Cao, Hanchu Huang, Aza-Michael Addition–Fragmentation Ring-Opening Polymerization, J. Am. Chem. Soc. (2025) https://pubs.acs.org/doi/abs/10.1021/jacs.5c03181
4. Bo Hu, Wei Wei, Fengxia Liu, et al., A novel dual-functionalized ionic liquid biphasic absorbent with direct rich-phase regeneration and energy-saving properties was designed through experiments combined with quantum chemical calculations, Chem. Eng. J., 515, 163944 (2025) https://www.sciencedirect.com/science/article/abs/pii/S1385894725047795
5. Qi Zhang, Yan Ma, Yuqi Shao, et al., A Theoretical Study of Bimolecular Reaction Between SCI and Organic Acid in the Atmosphere, Preprints (2025) https://www.preprints.org/frontend/manuscript/19dc2d4bda3534e0db13e46b9325c3bc/download_pub
6. Zhenyu Lu, Determination of Burning Speed of Methane/Hydrogen/Air, Propane/Hydrogen/Air, Normal Decane/Air and Propylene/Carbon Dioxide/Air Mixtures, Dissertation of Northeastern University (2025) https://www.proquest.com/openview/6ee96f90b3409d04a37288d519b27e2c/1?cbl=18750&diss=y&pq-origsite=gscholar
7. Houliang Sun, Zaka Ullah, Ledi Chen, et al., Photo-Assisted Liquid Organic Cathode with Ultralow Resistance and High Diffusion Coefficient for Membrane-Free Aqueous Zinc-Ion Battery, Adv. Energy Mater. (2025) https://advanced.onlinelibrary.wiley.com/doi/full/10.1002/aenm.202501115
8. Yongliang Ma, Yajun Zhou, Xinyu Jiang, et al., Multi-pathway inhibition of heterocyclic amines in braised chicken by carnosic acid: Combined experimental and DFT calculations, Food Chem., 487, 144752 (2025) https://www.sciencedirect.com/science/article/abs/pii/S0308814625020035
9. Leandro Ayarde-Henríquez, Jacopo Lupi, Bernardo Ballotta, Stephen Dooley, Evans–Polanyi-like Formulations for Rapidly Predicting Key Depolymerization Barriers in Xylopyranoses: Toward the Faster Development of Kinetic Models for Hemicellulose Pyrolysis, J. Phys. Chem. A (2025) https://pubs.acs.org/doi/full/10.1021/acs.jpca.5c00675
10. Fengting Hao, Zhaochun Liu, Pengcheng Huang, et al., Shape-selective zeolite catalysis for the tandem reaction of aromatic alcohol dehydration isomerization to internal alkene, J. Catal. (2025) https://www.sciencedirect.com/science/article/abs/pii/S0021951725002866
11. Jinling Li, Zhiyan Zhou, Fangjian Feng, et al., Three New α-Pyrone Derivatives with Antiepileptic Activity from the Marine Actinomycete Nocardiopsis sp. NBUDK19, Marine Biotechnol., 27, 85 (2025) https://link.springer.com/article/10.1007/s10126-025-10462-9
12. Zhao-qun Gao, Shuo-zhen Hu, Qing-gang Zhou, et al., Enhancement of formic acid electro-oxidation efficiency via spontaneous polarization electric field by ferroelectric tourmaline on platinum surface, Chem. Eng. J., 515, 163609 (2025) https://www.sciencedirect.com/science/article/abs/pii/S1385894725044432
13. Shi Cheng, Tian Chen, Jiaxi Xu, Mechanistic Insights on the Annulation of Difluorocarbene and Enaminones, J. Org. Chem. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.joc.5c00598
14. Leandro Ayarde-Henríquez, Jacopo Lupi, Bernardo Ballotta, Stephen Dooley, Towards the faster development of kinetic models for hemicellulose pyrolysis: An Evans-Polanyi-type approach, ChemRxiv (2025) https://chemrxiv.org/engage/chemrxiv/article-details/6818cdeee561f77ed4241811
15. Enhui Jiang, Daisong Chen, Zhuoliang Ying, et al., Zero- to One-Dimensional Transformation in a Highly Porous Metal–Organic Framework to Enhance Physicochemical Properties, J. Am. Chem. Soc. (2025) https://pubs.acs.org/doi/full/10.1021/jacs.5c03967
16. Zengsheng Yin, Yuxuan He, Guo Wei, et al., Exo-selective Intramolecular (4+3) Cycloadditions to trans-Fused Perhydroazulenes: An Asymmetric Formal Synthesis of (−)-Pseudolaric acid B, ChemRxiv (2025) https://chemrxiv.org/engage/chemrxiv/article-details/6811054a50018ac7c5b0879f
17. Huanhuan Wang, Chuangchuang Cao, Shu Zheng, Ran Sui, Theoretical Investigation on the Reaction Mechanism of Two Branched Aldehydes with Hydrogen Atoms: 2- and 3-Methyl-1-Butanal, Combust. Sci. Technol. (2025) https://www.tandfonline.com/doi/abs/10.1080/00102202.2025.2500503
18. Peng Xiaogai, Hu Zhubin, Sun Haitao, et al., Theoretical Study on Dihydrogen Bond Interaction Dominated Dodecaborate-Solvent Molecular Clusters, Acta Chim. Sinica (2025) https://doi.org/10.6023/A25020041
19. Minghao Jin, Huan Liu, Zhi He, Hong Yao, Intensified Enrichment and Leaching Strategy of Phosphorus in Sewage Sludge via Species-Targeted Conversion, Environ. Sci. Technol. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.est.4c13182
20. Jiaqiang Wang, Dexin Liu, Jie Yuan, et al., Experiment and mechanism of CO2 capture by low-energy functional ionic liquid phase change absorbent: phase change breaks low viscosity-high load limit, Chem. Eng. J. (2025) https://www.sciencedirect.com/science/article/abs/pii/S1385894725035727
21. Mamta Pal, Raj Shukla, Anushree Maurya, et al., In silico insights into dual COX inhibition by fluoro-substituted indole derivative using DFT, molecular docking, and MD simulation studies, J. Chin. Chem. Soc. (2025) https://onlinelibrary.wiley.com/doi/full/10.1002/jccs.70020
22. Peng Jiang, Yu-Meng Luo, Xin-Yuan Li, et al., Discovery of undescribed schinortriterpenoids from Schisandra chinensis by molecular networking and their neuroprotective effects, Phytochem., 237, 114524 (2025) https://www.sciencedirect.com/science/article/abs/pii/S0031942225001475
23. Kaixuan Feng, Ruixiang Lin, Yuyan Hu, et al., Mechanism of N2O reduction by H2 on alkali metal-activated char at low temperatures, Appl. Surf. Sci., 702, 163387 (2025) https://www.sciencedirect.com/science/article/abs/pii/S0169433225011018
24. Guo-Wei Guan, Su-Tao Zheng, Li-Ping Zhang, et al., Incorporating atomic-level center into porphyrin-based COF for photocatalytic H2 evolution, Chem. Eng. J. (2025) https://www.sciencedirect.com/science/article/abs/pii/S1385894725039610
25. Yao Ning, Bo Zhao, Wenpeng Min, et al., Co-doped Metal-Organic Framework as a Heterogeneous Catalyst for Ethylene Dimerization, Chem. Res. Chin. Univ. (2025) https://link.springer.com/article/10.1007/s40242-025-5014-z
26. Dan Liu, Lidong Zhang, Peng Zhang, et al., Ab Inito Chemical Kinetics Modeling of Liquid-phase Reactions of Monomethylhydrazine and Nitrogen Tetroxide, J. Phys. Chem. A (2025) https://pubs.acs.org/doi/abs/10.1021/acs.jpca.5c00893
27. Huibin Shan, Wei Zhao, Ji Wang, et al., Manipulating the Isomerization of a Tris-azobenzene Cage by Anion Binding, J. Am. Chem. Soc. (2025) https://pubs.acs.org/doi/abs/10.1021/jacs.5c04399
28. Jian Cai, Yongqi Li, Anfei Wang, et al., Breaking the Solubility Limit of Sodium Difluorophosphate with Anion Receptor: Enabling High-Voltage, Zero-Gas-Emission Sodium-Ion Pouch Cell, Energy Storage Mater., 78, 104263 (2025) https://doi.org/10.1016/j.ensm.2025.104263
29. Yang Long, Liming Tai, Shi Yan, et al., Degradation mechanism of decabromodiphenyl ether: Reaction with reactive radicals and formation chemistry of polybrominated dibenzo-p-dioxins and dibenzofurans, J. Anal. Appl. Pyrol. (2025) https://doi.org/10.1016/j.jaap.2025.107139
30. Zhuoran Feng Yaoxuan Fu, Jiahui Li, et al., Deep Insight of the Mechanism for Nitrate-Promoted PFASs Defluorination in UV/Sulfite ARP: Activation of the Decarboxylation–Hydroxylation–Elimination–Hydrolysis Degradation Pathway, Environ. Sci. Technol. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.est.4c14559
31. Hsiao-Yang Hsi, George Hsiao, Shih-Wei Wang, et al., Polyketides from a marine medicinal brown alga-derived fungal strain Hypomontagnella monticulosa SC1047, Phytochem., 236, 114508 (2025) https://doi.org/10.1016/j.phytochem.2025.114508
32. Tai-Chu Lau, Zhenguo Guo, Houjuan Yang, et al., Highly Efficient and Selective Photocatalytic CO2 Reduction to Ethanol by Cu4 Clusters with Adjacent Cu Single Atoms Anchored on Carbon Nitride, Angew. Chem. (2025) https://onlinelibrary.wiley.com/doi/abs/10.1002/ange.202423666
33. Shijie Zhen, Fayun Ma, Hong Chen, et al., Visible-Light-Driven Multifunctional Luminogens With More Than 150 Nm Absorption Band Separation for Dynamic Information Encryption, Aggregate (2025) https://doi.org/10.1002/agt2.70044
34. Caihong Qiu, Xiafeng Liao, Yiru Zheng, et al., Synthesis of PS-P2VP modified by the POSS group and its self-assembly behavior, J. Polym. Res. (2025) https://link.springer.com/article/10.1007/s10965-025-04384-2
35. Xiaoxue Wu, Guoqing Liu, Fangyu Ren, et al., Substituent-induced modulation of competing dual-acceptor hydrogen bond in ESIPT-type HBT derivatives, Spectrochim. Acta A (2025) https://doi.org/10.1016/j.saa.2025.126247
36. Chengyi Hong, Xiaopeng Huang, Tzu-An Lee, et al., Thermal Decomposition of Metacinnabar (β-HgS) during Monoethylene Glycol Regeneration in Natural Gas Processing, Energy Fuels (2025) https://pubs.acs.org/doi/full/10.1021/acs.energyfuels.5c00428
37. Maocai Yan, Xinfa Ding, Likun Zhao, et al., Mechanistic Insights into the Nonenzymatic Biosynthesis of Artemisinin and Related Natural Products: A Quantum Chemical Study, J. Chem. Inf. Model. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.jcim.5c00034
38. Hejie Lu, Zixuan Jin, Sichao Zhu, et al., Facile synthesis of amino thiourea modified metal–organic frameworks for efficient removal of Hg (II) in aqueous solution, Sep. Purif. Technol. (2025) https://www.sciencedirect.com/science/article/pii/S1383586625015667
39. Kai Liu, Haoran Li, Alan Kueichieh Chang, et al., Evaluation of the Safety of Fenbuconazole Monomers via Enantioselective Toxicokinetics, Molecular Docking and Enantiomer Conversion Analyses, J. Agric. Food Chem. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.jafc.4c13065
40. Yan Liu, Li Zhang, Changqi Li, et al., Theoretical studies on the interface-mediated photocatalytic conversion of CO2 and H2O to CH3OH and CH4 over M6@ SrTiO3 (100)(M= Ir, Ru, Rh), Int. J. Hyd. Energy, 126, 376 (2025) https://www.sciencedirect.com/science/article/pii/S036031992501701X
41. Xiaofan Shi, Ling Zhu, Lin Zhang, et al., The Origin of Enantioselectivity of Aryl Terminal Alkenes Hydroboration Catalyzed by Cobalt Complex: A Density Functional Theory (DFT) Study, Org. Lett. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.orglett.5c00809
42. Yu-Xuan Huo, Ren-Fei Cao, Jie Huang, et al., N-(Acyldithio)saccharin: Design, Synthesis and Applications in Catalytic Enantioselective Disulfuration/Amination of Alkenes, Angew. Chem. Int. Ed. (2025) https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.202503815
43. Fan-Zhi Bu, Ming-Yu Zhao, Ling-Yang Wang, et al., Cocrystallization of amantadine hydrochloride with nutrient: Insights into directed self- assembly and optimized biopharmaceutical character by integrating theory and experiment, Spectrochim. Acta A (2025) https://www.sciencedirect.com/science/article/abs/pii/S1386142525004925
44. Ming-Tian Hao, Beibei Zhang, Deqing Li, et al., Theoretical Studies on the Reduction of N2 to NH3/N2H4 Catalyzed by Chromium Complexes, Inorg. Chem. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.inorgchem.4c05237
45. Zhilin Zhang, Junhao Lin, Jiawei Liu, et al., Effect of Cl− on activated peroxymonosulfate based advanced oxidation process: Transformation of radicals and mechanism of singlet oxygen generation, Sep. Purif. Technol. (2025) https://www.sciencedirect.com/science/article/pii/S1383586625014182
46. Zhichao Huang, Jianwei Zhao, Lei Yang, et al., MView: A pre- and post-processing tool for quantum chemistry calculation, J. Chem. Phys., 162, 132501 (2025) https://pubs.aip.org/aip/jcp/article/162/13/132501/3341912
47. Tong Hao, Qian Zhou, Jinyuan Jiang, et al., Density functional theory study on the microscopic mechanism of NO2 adsorption and reduction by potassium-doped biochar: the key role of the active sites, Biochar (2025) https://link.springer.com/article/10.1007/s42773-025-00449-z
48. Jianglong Du, Shutong Yang, Yanqiu Chu, et al., Structure Elucidation and Discrimination of Peptides Epimers Induced by Chiral Residue by Ion Mobility Mass Spectrometry, Anal. Chim. Acta (2025) https://www.sciencedirect.com/science/article/pii/S0003267025003940
49. Liangguang Yi, Chan Guo, Qiao Yan, et al., Studies Related to the Proposed Biotransformation of Bohemamine D into the Co-occurring Marine Natural Product Spinoxazine B, J. Nat. Prod. (2025) https://pubs.acs.org/doi/abs/10.1021/acs.jnatprod.5c00109
50. Yifeng Xu, Xipeng Xin, Hexige Wuliji, et al., Full solar spectrum responsive carbon nitride enabled by low-temperature molten-salt-assisted magnesiothermic reduction, J. Am. Ceramic Soc. (2025) https://ceramics.onlinelibrary.wiley.com/doi/abs/10.1111/jace.20525
51. Mingjun Hu, Shize Ji, Mingchen Li, et al., Revealing the aging-induced chemical and microstructure evolution of asphalt via AFM-IR and quantum chemistry simulation, Fuel, 395, 135218 (2025) https://www.sciencedirect.com/science/article/pii/S0016236125009433
52. Zichen Liu, Xiaomeng Lv, Erlong Liu, et al., Quantum chemical calculation of the interaction between unsymmetrical dimethylhydrazine and water molecules, Chem. Phys. Lett. (2025) https://www.sciencedirect.com/science/article/pii/S0009261425001988
53. Shangbiao Feng, Bibo Li, Yunlu Li, et al., The strategy for regulating stabilities of 1,2,3-trizole based energetic materials through the regioisomers, J. Mol. Struct., 1337, 142221 (2025) https://www.sciencedirect.com/science/article/pii/S0022286025009056
54. Zhiping Xu, Xiangze Meng, Ying Liu, Rui Yang, et al., Accelerated photodegradation of PMMA films: Synergistic effect of mixed solvents, J. Anal. Appl. Pyrol. (2025) https://www.sciencedirect.com/science/article/pii/S0165237025001597
55. Xintuo Chen, Wencong Chen, Yu Zhou, et al., Investigation of reaction pathways and kinetics in the gas–phase noncatalytic oxidation of hexafluoropropylene, Chin. J. Chem. Eng. (2025) https://www.sciencedirect.com/science/article/pii/S1004954125001326
56. Gonggen Tang, Kang Peng, Yahua Liu, et al., Propylene-Bridged Associative Bis(bipyridinium) Electrolytes for Long-Lifetime Aqueous Organic Redox Flow Batteries, Angew. Chem. Int. Ed. (2025) https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.202501458
57. Dan Zhang, Yingrui Yin, Jiashuo Yang, et al., Theoretical study on the kinetic control mechanism of ESIPT for the photocyclization of diarylethylethene derivatives, J. Lumin. (2025) https://www.sciencedirect.com/science/article/abs/pii/S0022231325001516
58. Ji Liu, Hong-jin Zhang, Yuan-gu Xia, et al., The fate of bromine during pyrolysis of tetrabromobisphenol A-bis(2,3-dibromopropyl ether): a combined experimental and computational study, J. Anal. Appl. Pyrol. (2025) https://www.sciencedirect.com/science/article/abs/pii/S0165237025001573
59. Jiaming Mao, Yunqian Ma, Yuhui Ci, et al., Anhydrous deep eutectic solvents-based biphasic absorbents for efficient CO2 capture: Unravelling the critical role of hydrogen bond-mediated electron transfer, Chem. Eng. J., 511, 161988 (2025) https://www.sciencedirect.com/science/article/abs/pii/S1385894725028141
60. Hao Wang, Xintong Zhang, Zhencai Zhang, et al., Quantum-Chemically Guided Insights on Ionic Liquid Catalysts for Biobased Polycarbonate Synthesis─Mechanistic Exploration and Cation-Functionalized Optimization, ACS Sustainable Chem. Eng. (2025) https://pubs.acs.org/doi/abs/10.1021/acssuschemeng.4c10922
61. Yuxi Guo, Wei Wang, Ke Guo, et al., A bipolar-redox tetraalkynylporphyrin macrocycle positive electrode with 12-electrons-transfer for high-energy aluminum-organic batteries, Nat. Commun., 16, 2794 (2025) https://www.nature.com/articles/s41467-025-58126-5
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