Your search keyword '"AB-initio calculations"' showing total 116 results

1. Enhanced Chemical Stability of Tetramethylammonium Head Groups via Deep Eutectic Solvent: A Computational Study.

Author

Karibayev, Mirat, Myrzakhmetov, Bauyrzhan, Wang, Yanwei, and Mentbayeva, Almagul

Subjects

*ION-permeable membranes, *CHEMICAL stability, *DENSITY functional theory, *MOLECULAR theory, *AB-initio calculations, *CHOLINE chloride

Abstract

The chemical stability of tetramethylammonium (TMA) head groups, both with and without the presence of a choline chloride and ethylene glycol-based deep eutectic solvent (DES), was studied using Density Functional Theory (DFT) calculations and ab initio Molecular Dynamics (MD) simulations. DFT calculations of transition state energetics ( Δ E reaction , Δ G reaction , Δ E activation , and Δ G activation ) for key degradation mechanisms, ylide formation (YF) and nucleophilic substitution ( S N 2 ), suggested that the presence of DES enhances the stability of the TMA head groups compared to systems without DES. Ab initio MD simulations across hydration levels (HLs) 1 to 5 indicated that without DES, YF dominates at lower HLs, while S N 2 does not occur. In contrast, both mechanisms are suppressed in the presence of DES. Temperature also plays a role: without DES, YF dominates at 298 K, while S N 2 becomes prominent at 320 K and 350 K. With DES, both degradation mechanisms are inhibited. These findings suggest DES could improve the chemical stability of TMA head groups in anion exchange membranes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Ab Initio Neural Network Potential Energy Surface and Quantum Dynamics Calculations on Na(2 S) + H 2 → NaH + H Reaction.

Author

Liu, Siwen, Cheng, Huiying, Cao, Furong, Sun, Jingchang, and Yang, Zijiang

Subjects

*ARTIFICIAL neural networks, *POTENTIAL energy surfaces, *QUANTUM theory, *AB-initio calculations, *ACTIVATION energy

Abstract

The collisions between Na atoms and H2 molecules are of great significance in the field of chemical reaction dynamics, but the corresponding dynamics results of ground-state reactions have not been reported experimentally or theoretically. Herein, a global and high-precision potential energy surface (PES) of NaH2 (12A′) is constructed by the neural network model based on 21,873 high-level ab initio points. On the newly constructed PES, the quantum dynamics calculations on the Na(2S) + H2(v0 = 0, j0 = 0) → NaH + H reaction are carried out using the time-dependent wave packet method to study the microscopic reaction mechanism at the state-to-state level. The calculated results show that the low-vibrational products are mainly formed by the dissociation of the triatomic complex; whereas, the direct reaction process dominates the generation of the products with high-vibrational states. The reaction generally follows the direct H-abstraction process, and there is also the short-lived complex-forming mechanism that occurs when the collision energy exceeds the reaction threshold slightly. The PES could be used to further study the stereodynamics effects of isotope substitution and rovibrational excitations on the title reaction, and the presented dynamics data would provide an important reference on the corresponding experimental research at a higher level. [ABSTRACT FROM AUTHOR]

Published

2024

3. C-C Bonding in Molecular Systems via Cross-Coupling-like Reactions Involving Noncovalently Bound Constituent Ions.

Author

Kerr, Stephen and Naumkin, Fedor Y.

Subjects

*COUPLING reactions (Chemistry), *AB-initio calculations, *CHEMICAL processes, *ACTIVATION energy, *COMPLEX ions

Abstract

Carbon-based molecules are of universal importance for a huge variety of chemical and biological processes. The complication of the structure of such molecules proceeds via the bonding of carbon atoms. An efficient mechanism for such reactions proceeds via cross-coupling, related to the association of bond-terminating counter-ions. Here, an uncommon version of such a process is investigated, with at least some ions bound in the system noncovalently and/or switching the bonding mode in due course. The analyzed sample reactions involve a single C-C bond formation in environmentally relevant halocarbon species and involve alkali–halide ion-pair components. A consistent ab initio computational study predicts the related energy barriers to alter significantly in the presence of the ion pair. Different channels are checked, with the carbon–halogen bond cleavage preceding or following the actual C-C bonding and with the counter-ions located closely or farther apart. The relative heights of the corresponding energy barriers are found to be switched by the ion pair. The above results suggest a possibility of facilitating such reactions without expensive catalysts. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ab Initio Manganese K α and K β Energy Eigenvalues, Shake-Off Probabilities, Auger Rates, with Convergence Tests.

Author

Dean, Jonathan William, Thompson, Scott Neil, and Chantler, Christopher Thomas

Subjects

*RELATIVISTIC quantum mechanics, *AB-initio calculations, *X-ray fluorescence, *PROBABILITY theory, *EIGENVALUES

Abstract

This work presents ab initio calculations for the K α spectrum of manganese (Z = 25, [Ar] 3 d 5 4 s 2 ), a highly complex system due to the five open orbitals in the 3 d shell. The spectrum is composed of the canonical diagram line [ 1 s ] → [ 2 p ] and shake-off satellite lines [ 1 s n l ] → [ 2 p n l ] ( n l ∈ { 2 s , 2 p , 3 s , 3 p , 3 d , 4 s } ), where square brackets denote a hole state. The multiconfiguration Dirac–Hartree–Fock method with the active set approach provides the initial and final atomic wavefunctions. Results are presented as energy eigenvalue spectra for the diagram and satellite transitions. The calculated wavefunctions include over one hundred million configuration state functions and over 280,000 independent transition energies for the seven sets of spectra considered. Shake-off probabilities and Auger transition rates determine satellite intensities. The number of configuration state functions ensures highly-converged wavefunctions. Several measures of convergence demonstrate convergence in the calculated parameters. We obtain convergence of the transition energies in all eight transitions to within 0.06 eV and shake-off probabilities to within 4.5%. [ABSTRACT FROM AUTHOR]

Published

2024

5. Prediction of Two-Dimensional Janus Transition-Metal Chalcogenides: Robust Ferromagnetic Semiconductor with High Curie Temperature.

Author

Wang, Zijin, Qureshi, Ali Hamza, Duan, Yuanyuan, Liu, Yujie, Wang, Yanbiao, Zhu, Jun, Lu, Jinlian, Guo, Tianxia, Liu, Yongjun, and Zhang, Xiuyun

Subjects

*NANOTECHNOLOGY, *CURIE temperature, *TRANSITION metal chalcogenides, *INFORMATION technology, *AB-initio calculations

Abstract

Two-dimensional (2D) ferromagnetic semiconductors (FM SCs) provide an ideal platform for the development of quantum information technology in nanoscale devices. However, many developed 2D FM materials present a very low Curie temperature (TC), greatly limiting their application in spintronic devices. In this work, we predict two stable 2D transition metal chalcogenides, V3Se3X2 (X = S, Te) monolayers, by using first-principles calculations. Our results show that the V3Se3Te2 monolayer is a robust bipolar magnetic SC with a moderate bandgap of 0.53 eV, while V3Se3S2 is a direct band-gap FM SC with a bandgap of 0.59 eV. Interestingly, the ferromagnetisms of both monolayers are robust due to the V–S/Se/Te–V superexchange interaction, and TCs are about 406 K and 301 K, respectively. Applying biaxial strains, the FM SC to antiferromagnetic (AFM) SC transition is revealed at 5% and 3% of biaxial tensile strain. In addition, their high mechanical, dynamical, and thermal stabilities are further verified by phonon dispersion calculations and ab initio molecular dynamics (AIMD) calculations. Their outstanding attributes render the V3Se3Y2 (Y = S, Te) monolayers promising candidates as 2D FM SCs for a wide range of applications. [ABSTRACT FROM AUTHOR]

Published

2024

6. Field-Induced Slow Magnetic Relaxation in Mononuclear Cobalt(II) Complexes Decorated by Macrocyclic Pentaaza Ligands.

Author

Zeng, Mengmeng, Ruan, Zeyu, Wu, Siguo, and Tong, Mingliang

Subjects

*ATOMS, *MAGNETIC relaxation, *SINGLE molecule magnets, *MAGNETIC measurements, *COBALT, *AB-initio calculations

Abstract

Two cobalt(II) complexes [CoL1](OTf)2 (1, L1 = 6,6′′-di(anilino)-4′-phenyl-2,2′:6′,2′′-terpyridine) and [CoL2](OTf)2·MeOH (2, L2 = 6,6′′-di(N,N-dimethylamino)-4′-phenyl-2,2′:6′,2′′-terpyridine) were synthesized and characterized. Crystal structure analyses showed that the spin carries were coordinated by five N atoms from the neutral pentaaza ligands, forming distorted trigonal bipyramidal coordination environments. Ab initio calculations revealed large easy-axial anisotropy in complexes 1 and 2. Magnetic measurements suggest that complexes 1 and 2 are field-induced single-molecule magnets, whose relaxations are mainly predominated by Raman and direct processes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Measurements of Nuclear Magnetic Shielding in Molecules.

Author

Jackowski, Karol and Wilczek, Marcin

Subjects

*MAGNETIC shielding, *SINGLE molecule magnets, *MAGNETIC measurements, *MAGNETIC dipole moments, *AB-initio calculations, *RADIATION shielding

Abstract

The origin of nuclear magnetic shielding in diamagnetic molecules is discussed, pointing out various contributions to the shielding from electrons and the effects of intra- and intermolecular interactions. In NMR practice, chemical shifts are determined first as the measure of shielding in observed samples. The descriptions of shielding and chemical shifts are not fully consistent. Gas phase studies permit the withdrawal of intermolecular contributions from shielding and obtaining the magnetic shielding data in isolated molecules. The shielding determination in molecules is possible using at least three methods delivering the reference shielding standards for selected nuclei. The known shielding of one magnetic nucleus can be transferred to other nuclei if the appropriate nuclear magnetic moments are available with satisfactory accuracy. It is possible to determine the nuclear magnetic dipole moments using the most advanced ab initio shielding calculations jointly with the NMR frequencies measurements for small-sized isolated molecules. Helium-3 gas is postulated as all the molecules' primary and universal reference standard of shielding. It can be easily applied using common deuterium lock solvents as the secondary reference standards. The measurements of absolute shielding are available for everyone with the use of standard NMR spectrometers. [ABSTRACT FROM AUTHOR]

Published

2024

8. Mechanisms for deNOx and deN 2 O Processes on FAU Zeolite with a Bimetallic Cu-Fe Dimer in the Presence of a Hydroxyl Group—DFT Theoretical Calculations.

Author

Kurzydym, Izabela and Czekaj, Izabela

Subjects

*BIMETALLIC catalysts, *HYDROXYL group, *AB-initio calculations, *ZEOLITES, *CHEMICAL industry, *DENSITY functional theory

Abstract

In this paper, a detailed mechanism is discussed for two processes: deNOx and deN2O. An FAU catalyst was used for the reaction with Cu-Fe bimetallic adsorbates represented by a dimer with bridged oxygen. Partial hydration of the metal centres in the dimer was considered. Ab initio calculations based on the density functional theory were used. The electron parameters of the structures obtained were also analysed. Visualisation of the orbitals of selected structures and their interpretations are presented. The presented research allowed a closer look at the mechanisms of processes that are very common in the automotive and chemical industries. Based on theoretical modelling, it was possible to propose the most efficient catalyst that could find potential application in industry–this is the FAU catalyst with a Cu-O-Fe bimetallic dimer with a hydrated copper centre. The essential result of our research is the improvement in the energetics of the reaction mechanism by the presence of an OH group, which will influence the way NO and NH3 molecules react with each other in the deNOx process depending on the industrial conditions of the process. Our theoretical results suggest also how to proceed with the dosage of NO and N2O during the industrial process to increase the desired reaction effect. [ABSTRACT FROM AUTHOR]

Published

2024

9. Metalloid–Organic Intermolecular Complexes with Charge State-Controlled Conformations.

Author

Naumkin, Fedor Y.

Subjects

*MOLECULAR shapes, *INFRARED spectra, *AB-initio calculations, *ORGANOMETALLIC compounds, *SEMIMETALS

Abstract

Shape alterations of molecular systems, induced by their (electric) charging/discharging, could facilitate useful electronic and/or mechanical functions in molecular-scale devices and machines. The present study reports structures, stabilities, charge distributions, and IR spectra for a group of complexes of a main-group metalloid (boron) atom with hydrocarbon molecules. The considered systems include the smallest species demonstrating the basic principle of operation, as well as their size-extended analogues, generalizing it to larger counterparts based on such units. The system geometries vary considerably between neutral and ionic counterparts and exhibit two–three typical conformations related to twisting by up to about 90 degrees. The predicted structures correlate with specific infrared spectra, which can enable their experimental identification and transformation tracking. The above-mentioned characteristics suggest the potential utility of such systems for intermolecular switches, with the possible spectral monitoring of their functioning. [ABSTRACT FROM AUTHOR]

Published

2024

10. Quantum-Chemistry Study of the Hydrolysis Reaction Profile in Borate Networks: A Benchmark.

Author

Muniz-Miranda, Francesco, Occhi, Leonardo, Fontanive, Francesco, Menziani, Maria Cristina, and Pedone, Alfonso

Subjects

*BORATES, *AB-initio calculations, *DENSITY functional theory, *ACTIVATION energy, *ELECTRON configuration

Abstract

This investigation involved an ab initio and Density Functional Theory (DFT) analysis of the hydrolysis mechanism and energetics in a borate network. The focus was on understanding how water molecules interact with and disrupt the borate network, an area where the experimental data are scarce and unreliable. The modeled system consisted of two boron atoms, bridging oxygen atoms, and varying numbers of water molecules. This setup allows for an exploration of hydrolysis under different environmental conditions, including the presence of OH− or H+ ions to simulate basic or acidic environments, respectively. Our investigation utilized both ab initio calculations at the MP2 and CCSD(T) levels and DFT with a range of exchange–correlation functionals. The findings indicate that the borate network is significantly more susceptible to hydrolysis in a basic environment, with respect to an acidic or to a neutral pH setting. The inclusion of explicit water molecules in the calculations can significantly affect the results, depending on the nature of the transition state. In fact, some transition states exhibited closed-ring configurations involving water and the boron–oxygen–boron network; in these cases, there were indeed more water molecules corresponding to lower energy barriers for the reaction, suggesting a crucial role of water in stabilizing the transition states. This study provides valuable insights into the hydrolysis process of borate networks, offering a detailed comparison between different computational approaches. The results demonstrate that the functionals B3LYP, PBE0, and wB97Xd closely approximated the reference MP2 and CCSD(T) calculated reaction pathways, both qualitatively in terms of the mechanism, and quantitatively in terms of the differences in the reaction barriers within the 0.1–0.2 eV interval for the most plausible reaction pathways. In addition, CAM-B3LYP also yielded acceptable results in all cases except for the most complicated pathway. These findings are useful for guiding further computational studies, including those employing machine learning approaches, and experimental investigations requiring accurate reference data for hydrolysis reactions in borate networks. [ABSTRACT FROM AUTHOR]

Published

2024

11. Oxygen Isotope Fractionation between Carbonate Minerals and Carbonic Acid Systems and Constraints for Environmental Science and Geological Processes.

Author

Zhang, Jixi

Subjects

*OXYGEN isotopes, *ISOTOPIC fractionation, *ENVIRONMENTAL sciences, *CARBONIC acid, *CARBONATE minerals, *DOLOMITE, *AB-initio calculations

Abstract

The equilibrium oxygen isotope fractionation factor is widely used in geological thermometry. However, under most natural conditions, the oxygen isotope exchange is rare to reach equilibrium. Especially for the complex water–rock interaction process, the contribution of the H2CO3 solution, CO32− solution, Ca(HCO3)2 solution, and CaCO3 solution to the equilibrium oxygen isotope fractionation factor of this process is poorly understood. In view of this predicament, these key parameters are obtained by ab initio calculations. The results showed that the contributions of different carbonate minerals and different aqueous solutions to the equilibrium oxygen isotope fractionation factor were different. Among all nine carbonate minerals (dolomite, calcite, aragonite, magnesite, siderite, otavite, smithsonite, ankerite, and strontianite), the minerals with the highest and lowest reduced partition function ratios (RPFR) were siderite and strontianite, respectively. At the same time, the RPFR of nitratine, which has the same structure as carbonate, was studied. The RPFRs of the three most widely distributed carbonates in nature (dolomite, calcite, and aragonite) were dolomite > calcite > aragonite. Among the H2CO3 solution, CO32− solution, Ca(HCO3)2 solution, and CaCO3 solution, the H2CO3 solution had the strongest ability to enrich 18O. In addition, the equilibrium oxygen isotope fractionation factors between aqueous solutions and gas phase species (CO2(g), H2O(g), and O2(g), etc.) were calculated systematically. The results showed that the oxygen isotope fractionation factors between solutions and gas phases were often inconsistent with the temperature change direction and that the kinetic effects played a key role. These theoretical parameters obtained in this study will provide key equilibrium oxygen isotope constraints for water-rock interaction processes. [ABSTRACT FROM AUTHOR]

Published

2024

12. High-Pressure Limit and Pressure-Dependent Rate Rules for β -Scission Reaction Class of Hydroperoxyl Alkyl Hydroperoxyl Radicals (•P(OOH) 2) in Normal-Alkyl Cyclohexanes Combustion.

Author

Yao, Xiaoxia, Sun, Xiaoli, and Zhu, Yifei

Subjects

*ALKYL radicals, *AB-initio calculations, *COMBUSTION, *TRANSITION state theory (Chemistry)

Abstract

Chemical kinetic studies of the β-scission reaction class of hydroperoxyl alkyl hydroperoxyl radicals (•P(OOH)2) from normal-alkyl cyclohexanes are carried out systematically through high-level ab initio calculations. Geometry optimizations and frequency calculations for all species involved in the reactions are performed at the B3LYP/CBSB7 level of theory. Electronic single-point energy calculations are calculated at the CBS-QB3 level of theory. Rate constants for the reactions of β-scission, in the temperature range of 500–1500 K and the pressure range of 0.01–100 atm, are calculated using transition state theory (TST) and Rice-Ramsberger-Kassel-Marcus/Master-Equation (RRKM/ME) theory taking asymmetric Eckart tunneling corrections and the one-dimensional hindered rotor approximation into consideration. The rate rules are obtained by averaging the rate constants of the representative reactions of this class. These rate rules can greatly assist in constructing more accurate low-temperature combustion mechanisms for normal-alkyl cyclohexanes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Isotropic Contact Properties in Monolayer GeAs Field-Effect Transistors.

Author

Song, Weiqi, Liu, Haosong, Zou, Feihu, Niu, Yize, Zhao, Yue, Cong, Yao, Pan, Yuanyuan, and Li, Qiang

Subjects

*FIELD-effect transistors, *ISOTROPIC properties, *MONOMOLECULAR films, *COPPER, *SCHOTTKY barrier, *OHMIC contacts, *AB-initio calculations, *COPPER-titanium alloys

Abstract

Owing to the tunable bandgap and high thermodynamic stability, anisotropic monolayer (ML) GeAs have arisen as an attractive candidate for electronic and optoelectronic applications. The contact properties of ML GeAs with 2D metal (graphene, Ti2CF2, V2CF2, and Ti3C2O2) and Cu electrodes are explored along two principal axes in field-effect transistors (FET) by employing ab initio electronic structure calculations and quantum transport simulations. Weak van der Waals interactions are found between ML GeAs and the 2D metal electrodes with the band structure of ML GeAs kept the same, while there is a strong interaction between ML GeAs and the Cu metal electrode, resulting in the obvious hybridization of the band structure. Isotropic contact properties are seen along the two principal directions. P-type lateral Schottky contacts are established in ML GeAs FETs with Ti3C2O2, graphene, and Ti2CF2 metals, with a hole Schottky barrier height (SBH) of 0.12 (0.20), 0.15 (0.11), and 0.29 (0.21) eV along the armchair (zigzag) direction, respectively, and an n-type lateral Schottky contact is established with the Cu electrode with an electron SBH of 0.64 (0.57) eV. Surprisingly, ML GeAs forms ideal p-type Ohmic contacts with the V2CF2 electrode. The results provide a theoretical foundation for comprehending the interactions between ML GeAs and metals, as well as for designing high-performance ML GeAs FETs. [ABSTRACT FROM AUTHOR]

Published

2023

14. Benchmark Study of the Electronic States of the LiRb Molecule: Ab Initio Calculations with the Fock Space Coupled Cluster Approach.

Author

Skrzyński, Grzegorz and Musial, Monika

Subjects

*FOCK spaces, *AB-initio calculations, *INTERATOMIC distances, *POTENTIAL energy, *MOLECULES

Abstract

Accurate potential energy curves (PECs) are determined for the twenty-two electronic states of LiRb. In contrast to previous studies, the applied approach relies on the first principle calculations involving correlation among all electrons. The current methodology is founded on the multireference coupled cluster (CC) scheme constructed within the Fock space (FS) formalism, specifically for the (2,0) sector. The FS methodology is established within the framework of the intermediate Hamiltonian formalism and offers an intruder-free, efficient computational scheme. This method has a distinctive feature that, when applied to the doubly ionized system, provides the characteristics of the neutral case. This proves especially beneficial when investigating PECs in situations where a closed-shell molecule dissociates into open-shell fragments, yet its double positive ion forms closed-shell species. In every instance, we successfully computed continuous PECs spanning the entire range of interatomic distances, from the equilibrium to the dissociation limit. Moreover, the spectroscopic characteristic of various electronic states is presented, including relativistic effects. Relativistic corrections included at the third-order Douglas-Kroll level have a non-negligible effect on the accuracy of the determined spectroscopic constants. [ABSTRACT FROM AUTHOR]

Published

2023

15. Ab Initio Approach to the Structure, Vibrational Properties, and Electron Binding Energies of H 2 S∙∙∙SO 2.

Author

Magalhães, Isaac O. M., Cabral, Benedito J. C., and Martins, João B. L.

Subjects

*BINDING energy, *ELECTRON affinity, *IONIZATION energy, *AB-initio calculations, *ELECTRONS

Abstract

The present study employs high-level ab initio calculations to investigate the structure, vibrational frequencies, and electronic properties of H2S∙∙∙SO2. The analysis of vibrational frequencies reveals an intramolecular vibrational energy transfer phenomenon, where energy from the stretching modes of H2S is transferred to the ν1s mode of SO2. At the CCSD(T)/aug-cc-pVQZ level, the interaction energy between H2S and SO2 is predicted to be 2.78 kcal/mol. Electron propagator theory calculations yield a HOMO–LUMO gap of 8.24 eV for H2S∙∙∙SO2. Furthermore, by utilizing ab initio results for the adiabatic ionization energy and electron affinity, the electrophilicity of H2S∙∙∙SO2 is estimated to be 2.01 eV. This value is similar to the electrophilicity of SO2, suggesting comparable reactivity and chemical behavior. The non-covalent interaction (NCI) analysis of the H2S∙∙∙SO2 complex emphasizes the significant contribution of non-covalent van der Waals interactions in its energetic stabilization. [ABSTRACT FROM AUTHOR]

Published

2023

16. Host Dynamics under General-Purpose Force Fields.

Author

Wang, Xiaohui, Huai, Zhe, and Sun, Zhaoxi

Subjects

*AB-initio calculations, *CONFORMATIONAL analysis, *ATOMIC charges

Abstract

Macrocyclic hosts as prototypical receptors to gaseous and drug-like guests are crucial components in pharmaceutical research. The external guests are often coordinated at the center of these macromolecular containers. The formation of host–guest coordination is accompanied by the broken of host–water and host–ion interactions and sometimes also involves some conformational rearrangements of the host. A balanced description of various components of interacting terms is indispensable. However, up to now, the modeling community still lacks a general yet detailed understanding of commonly employed general-purpose force fields and the host dynamics produced by these popular selections. To fill this critical gap, in this paper, we profile the energetics and dynamics of four types of popular macrocycles, including cucurbiturils, pillararenes, cyclodextrins, and octa acids. The presented investigations of force field definitions, refitting, and evaluations are unprecedently detailed. Based on the valuable observations and insightful explanations, we finally summarize some general guidelines on force field parametrization and selection in host–guest modeling. [ABSTRACT FROM AUTHOR]

Published

2023

17. Ab Initio Calculations on the Ground and Excited Electronic States of Thorium–Ammonia, Thorium–Aza-Crown, and Thorium–Crown Ether Complexes.

Author

Lu, Zhongyuan, Jackson, Benjamin A., and Miliordos, Evangelos

Subjects

*AB-initio calculations, *ELECTRONIC excitation, *CONDUCTION electrons, *ETHERS, *CROWN ethers, *LIQUID metals

Abstract

Positively charged metal–ammonia complexes are known to host peripheral, diffuse electrons around their molecular skeleton. The resulting neutral species form materials known as expanded or liquid metals. Alkali, alkaline earth, and transition metals have been investigated previously in experimental and theoretical studies of both the gas and condensed phase. This work is the first ab initio exploration of an f-block metal–ammonia complex. The ground and excited states are calculated for Th0–3+ complexes with ammonia, crown ethers, and aza-crown ethers. For Th3+ complexes, the one valence electron Th populates the metal's 6d or 7f orbitals. For Th0–2+, the additional electrons prefer occupation of the outer s- and p-type orbitals of the complex, except Th(NH3)10, which uniquely places all four electrons in outer orbitals of the complex. Although thorium coordinates up to ten ammonia ligands, octa-coordinated complexes are more stable. Crown ether complexes have a similar electronic spectrum to ammonia complexes, but excitations of electrons in the outer orbitals of the complex are higher in energy. Aza-crown ethers disfavor the orbitals perpendicular to the crowns, attributed to the N-H bonds pointing along the plane of the crowns. [ABSTRACT FROM AUTHOR]

Published

2023

18. Challenges for Kinetics Predictions via Neural Network Potentials: A Wilkinson's Catalyst Case.

Author

Staub, Ruben, Gantzer, Philippe, Harabuchi, Yu, Maeda, Satoshi, and Varnek, Alexandre

Subjects

*AB-initio calculations, *TRANSITION metal complexes, *CATALYSTS, *TOPOGRAPHIC maps, *CHEMICAL reactions

Abstract

Ab initio kinetic studies are important to understand and design novel chemical reactions. While the Artificial Force Induced Reaction (AFIR) method provides a convenient and efficient framework for kinetic studies, accurate explorations of reaction path networks incur high computational costs. In this article, we are investigating the applicability of Neural Network Potentials (NNP) to accelerate such studies. For this purpose, we are reporting a novel theoretical study of ethylene hydrogenation with a transition metal complex inspired by Wilkinson's catalyst, using the AFIR method. The resulting reaction path network was analyzed by the Generative Topographic Mapping method. The network's geometries were then used to train a state-of-the-art NNP model, to replace expensive ab initio calculations with fast NNP predictions during the search. This procedure was applied to run the first NNP-powered reaction path network exploration using the AFIR method. We discovered that such explorations are particularly challenging for general purpose NNP models, and we identified the underlying limitations. In addition, we are proposing to overcome these challenges by complementing NNP models with fast semiempirical predictions. The proposed solution offers a generally applicable framework, laying the foundations to further accelerate ab initio kinetic studies with Machine Learning Force Fields, and ultimately explore larger systems that are currently inaccessible. [ABSTRACT FROM AUTHOR]

Published

2023

19. Dynamic and Static Nature of XH-∗-π and YX-∗-π (X = F, Cl, Br, and I; Y = X and F) in the Distorted π-System of Corannulene Elucidated with QTAIM Dual Functional Analysis.

Author

Hayashi, Satoko, Kato, Takahiro, Sugibayashi, Yuji, and Nakanishi, Waro

Subjects

*CORANNULENE, *FUNCTIONAL analysis, *ATOMS in molecules theory, *AB-initio calculations

Abstract

The dynamic and static nature of the XH-∗-π and YX-∗-π (X = F, Cl, Br, and I; Y = X and F) interactions in the distorted π-system of corannulene (π(C20H10)) is elucidated with a QTAIM dual functional analysis (QTAIM-DFA), where asterisks emphasize the presence of bond critical points (BCPs) on the interactions. The static and dynamic nature originates from the data of the fully optimized and perturbed structures, respectively, in QTAIM-DFA. On the convex side, H in F–H-∗-π(C20H10) and each X in Y–X-∗-π(C20H10) join to C of the central five-membered ring in π(C20H10) through a bond path (BP), while each H in X–H-∗-π(C20H10) does so to the midpoint of C=C in the central five-membered ring for X = Cl, Br, or I. On the concave side, each X in F–X-∗-π(C20H10) also joins to C of the central five-membered ring with a BP for X = H, Cl, Br, and I; however, the interactions in other adducts are more complex than those on the convex side. Both H and X in X–H-∗-π(C20H10) (X = Cl and Br) and both Fs in F–F-∗-π(C20H10) connect to the three C atoms in each central five-membered ring (with three BPs). Two, three, and five BPs were detected for the Cl–Cl, I–H, Br–Br, and I–I adducts, where some BPs do not stay on the central five-membered ring in π(C20H10). The interactions are predicted to have a vdW to CT-MC nature. The interactions on the concave side seem weaker than those on the convex side for X–H-∗-π(C20H10), whereas the inverse trend is observed for Y–X-∗-π(C20H10) as a whole. The nature of the interactions in the π(C20H10) adducts of the convex and concave sides is examined in more detail, employing the adducts with X–H and F–X placed on their molecular axis together with the π(C24H12) and π(C6H6) adducts. [ABSTRACT FROM AUTHOR]

Published

2023

20. Interaction of Water and Oxygen Molecules with Phosphorene: An Ab Initio Study.

Author

Benini, Francesca, Bassoli, Nicolò, Restuccia, Paolo, Ferrario, Mauro, and Righi, Maria Clelia

Subjects

*OXYGEN in water, *PHOSPHORENE, *MOLECULAR dynamics, *SOLID lubricants, *OXIDATION of water, *AB-initio calculations

Abstract

Phosphorene, the 2D form of black phosphorus, has recently attracted interest for optoelectronic and tribological applications. However, its promising properties are affected by the strong tendency of the layers to oxidize in ambient conditions. A significant effort has been made to identify the role of oxygen and water in the oxidation process. In this work, we introduce a first-principles study of the phosphorene phase diagram and provide a quantitative estimate of the interaction of pristine and fully oxidized phosphorene layers with oxygen and water molecules. Specifically, we study oxidized layers with oxygen coverages of 25% and 50% that keep the typical anisotropic structure of the layers. We found that hydroxilated and hydrogenated phosphorene layers are both energetically unfavorable, leading to structural distortions. We also studied the water physisorption on both pristine and oxidized layers, finding that the adsorption energy gain doubled on the oxidized layers, whereas dissociative chemisorption was always energetically unfavorable. At the same time, further oxidation (i.e., the dissociative chemisorption of O 2 ) was always favorable, even on oxidized layers. Ab initio molecular dynamics simulations of water intercalated between sliding phosphorene layers showed that even under harsh tribological conditions water dissociation was not activated, thus further strengthening the results obtained from our static calculations. Overall, our results provide a quantitative description of the interaction of phosphorene with chemical species that are commonly found in ambient conditions at different concentrations. The phase diagram that we introduced confirms the tendency of phosphorene layers to fully oxidize due to the presence of O 2 , resulting in a material with improved hydrophilicity, a piece of information that is relevant for the application of phosphorene, e.g., as a solid lubricant. At the same time, the structural deformations found for the H- and OH- terminated layers undermine their electrical, mechanical, and tribological anisotropic properties and, therefore, the usage of phosphorene. [ABSTRACT FROM AUTHOR]

Published

2023

21. Substituent Effects in Tetrel Bonds Involving Aromatic Silane Derivatives: An ab initio Study.

Author

Burguera, Sergi, Frontera, Antonio, and Bauzá, Antonio

Subjects

*ATOMS in molecules theory, *ELECTRON donors, *ELECTRIC potential, *HYDROCYANIC acid, *SURFACE analysis, *AB-initio calculations

Abstract

In this manuscript substituent effects in several silicon tetrel bonding (TtB) complexes were investigated at the RI-MP2/def2-TZVP level of theory. Particularly, we have analysed how the interaction energy is influenced by the electronic nature of the substituent in both donor and acceptor moieties. To achieve that, several tetrafluorophenyl silane derivatives have been substituted at the meta and para positions by several electron donating and electron withdrawing groups (EDG and EWG, respectively), such as –NH2, –OCH3, –CH3, –H, –CF3 and –CN substituents. As electron donor molecules, we have used a series of hydrogen cyanide derivatives using the same EDGs and EWGs. We have obtained the Hammett's plots for different combinations of donors and acceptors and in all cases we have obtained good regression plots (interaction energies vs. Hammet's σ parameter). In addition, we have used the electrostatic potential (ESP) surface analysis as well as the Bader's theory of atoms in molecules (AIM) and noncovalent interaction plot (NCI plot) techniques to further characterize the TtBs studied herein. Finally, a Cambridge Structural Database (CSD) inspection was carried out, retrieving several structures where halogenated aromatic silanes participate in tetrel bonding interactions, being an additional stabilization force of their supramolecular architectures. [ABSTRACT FROM AUTHOR]

Published

2023

22. Thermal Polymorphism in CsCB 11 H 12.

Author

Černý, Radovan, Brighi, Matteo, Wu, Hui, Zhou, Wei, Dimitrievska, Mirjana, Murgia, Fabrizio, Gulino, Valerio, de Jongh, Petra E., Trump, Benjamin A., and Udovic, Terrence J.

Subjects

*IONIC conductivity, *AB-initio calculations, *QUASI-elastic scattering, *X-ray powder diffraction, *NEUTRON spectroscopy, *NEUTRON scattering

Abstract

Thermal polymorphism in the alkali-metal salts incorporating the icosohedral monocarba-hydridoborate anion, CB11H12−, results in intriguing dynamical properties leading to superionic conductivity for the lightest alkali-metal analogues, LiCB11H12 and NaCB11H12. As such, these two have been the focus of most recent CB11H12− related studies, with less attention paid to the heavier alkali-metal salts, such as CsCB11H12. Nonetheless, it is of fundamental importance to compare the nature of the structural arrangements and interactions across the entire alkali-metal series. Thermal polymorphism in CsCB11H12 was investigated using a combination of techniques: X-ray powder diffraction; differential scanning calorimetry; Raman, infrared, and neutron spectroscopies; and ab initio calculations. The unexpected temperature-dependent structural behavior of anhydrous CsCB11H12 can be potentially justified assuming the existence of two polymorphs with similar free energies at room temperature: (i) a previously reported, ordered R3 polymorph stabilized upon drying and transforming first to R3c symmetry near 313 K and then to a similarly packed but disordered I 4 3d polymorph near 353 K and (ii) a disordered Fm 3 polymorph that initially appears from the disordered I 4 3d polymorph near 513 K along with another disordered high-temperature P63mc polymorph. Quasielastic neutron scattering results indicate that the CB11H12− anions in the disordered phase at 560 K are undergoing isotropic rotational diffusion, with a jump correlation frequency [1.19(9) × 1011 s−1] in line with those for the lighter-metal analogues. [ABSTRACT FROM AUTHOR]

Published

2023

23. Structural, Spectroscopic, Electric and Magnetic Properties of New Trigonal K 5 FeHf(MoO 4) 6 Orthomolybdate.

Author

Grossman, Victoria, Atuchin, Victor, Bazarov, Bair G., Aleksandrovsky, Aleksandr, Eremin, Evgeniy, Krylov, Alexander, Kuratieva, Natalia, Bazarova, Jibzema G., Maximov, Nikolai, Molokeev, Maxim, Oreshonkov, Aleksandr, Pervukhina, Natalia, and Shestakov, Nikolay

Subjects

*MAGNETIC properties, *ELECTRIC properties, *AB-initio calculations, *GROUP theory, *DENSITY functional theory, *METAL-insulator transitions

Abstract

A new multicationic structurally disordered K5FeHf(MoO4)6 crystal belonging to the molybdate family is synthesized by the two-stage solid state reaction method. The characterization of the electronic and vibrational properties of the K5FeHf(MoO4)6 was performed using density functional theory calculations, group theory, Raman and infrared spectroscopy. The vibrational spectra are dominated by vibrations of the MoO4 tetrahedra, while the lattice modes are observed in a low-wavenumber part of the spectra. The experimental gap in the phonon spectra between 450 and 700 cm−1 is in a good agreement with the simulated phonon density of the states. K5FeHf(MoO4)6 is a paramagnetic down to 4.2 K. The negative Curie–Weiss temperature of −6.7 K indicates dominant antiferromagnetic interactions in the compound. The direct and indirect optical bandgaps of K5FeHf(MoO4)6 are 2.97 and 3.21 eV, respectively. The K5FeHf(MoO4)6 bandgap narrowing, with respect to the variety of known molybdates and the ab initio calculations, is explained by the presence of Mott-Hubbard optical excitation in the system of Fe3+ ions. [ABSTRACT FROM AUTHOR]

Published

2023

24. The Atomic Structure and Mechanical Properties of ZIF-4 under High Pressure: Ab Initio Calculations.

Author

Shi, Zuhao, Weng, Kaiyi, and Li, Neng

Subjects

*AB-initio calculations, *BULK modulus, *ATOMIC structure, *ELASTIC constants, *ELASTICITY, *POISSON'S ratio, *AUXETIC materials

Abstract

The effects of pressure on the structural and electronic properties and the ionic configuration of ZIF-4 were investigated through the first-principles method based on the density functional theory. The elastic properties, including the isotropic bulk modulus K, shear modulus G, Young's modulus E, and Poisson's ratio ν of the orthorhombic-type structure ZIF-4 were determined using the Voigt–Reuss–Hill averaging scheme. The results show that the ZIF-4 phase is ductile according to the analysis of K/G and Cauchy pressure. The Debye temperatures obtained from the elastic stiffness constants increase with increasing pressure. Finally, the pressure-dependent behaviors of the density of states and ionic configuration are successfully calculated and discussed. [ABSTRACT FROM AUTHOR]

Published

2023

25. Field-Induced Slow Magnetic Relaxation in Co II Cyclopropane-1,1-dicarboxylates.

Author

Matyukhina, Anna K., Zorina-Tikhonova, Ekaterina N., Goloveshkin, Alexander S., Babeshkin, Konstantin A., Efimov, Nikolay N., Kiskin, Mikhail A., and Eremenko, Igor L.

Subjects

*MAGNETIC relaxation, *AB-initio calculations, *MAGNETIC fields, *ALKALI metals, *CARBON dioxide, *COBALT, *MAGNETIC anisotropy

Abstract

New CoII substituted malonate field-induced molecular magnets {[Rb6Co3(cpdc)6(H2O)12]∙6H2O}n (1) and [Cs2Co(cpdc)2(H2O)6]n (2) (where cpdc2− stands for cyclopropane-1,1-dicarboxylic acid dianions) were synthesized. Both compounds contain mononuclear bischelate fragments {CoII(cpdc)2(H2O)2}2− where the quasi-octahedral cobalt environment (CoO6) is complemented by water molecules in apical positions. The alkali metal atoms play the role of connectors between the bischelate fragments to form 3D and 2D polymeric structures for 1 and 2, respectively. Analysis of dc magnetic data using the parametric Griffith Hamiltonian for high-spin CoII supported by ab initio calculations revealed that both compounds have an easy axis of magnetic anisotropy. Compounds 1 and 2 exhibit slow magnetic relaxation under an external magnetic field (HDC = 1000 and 1500 Oe, respectively). [ABSTRACT FROM AUTHOR]

Published

2022

26. PANI–WO 3 ·2H 2 O Nanocomposite: Phase Interaction and Evaluation of Electronic Properties by Combined Experimental Techniques and Ab-Initio Calculation.

Author

de Souza Carolino, Adriano, Moraes Biondo, Matheus, Ţălu, Ştefan, da Fonseca Filho, Henrique Duarte, Campelo, Pedro Henrique, Bezerra, Jaqueline de Araújo, Mota, Cicero, da Frota, Hidembergue Ordozgoith, Bagnato, Vanderlei Salvador, Inada, Natalia Mayumi, and Sanches, Edgar Aparecido

Subjects

*CONJUGATED polymers, *AB-initio calculations, *POLYMERIC nanocomposites, *NANOCOMPOSITE materials, *TUNGSTEN oxides, *DENSITY functional theory, *ELECTRIC conductivity, *CHARGE transfer

Abstract

The development of conjugated polymer-based nanocomposites by adding metallic particles into the polymerization medium allows the proposition of novel materials presenting improved electrical and optical properties. Polyaniline Emeraldine-salt form (ES–PANI) has been extensively studied due to its controllable electrical conductivity and oxidation states. On the other hand, tungsten oxide (WO3) and its di-hydrated phases, such as WO3·2H2O, have been reported as important materials in photocatalysis and sensors. Herein, the WO3·2H2O phase was directly obtained during the in-situ polymerization of aniline hydrochloride from metallic tungsten (W), allowing the formation of hybrid nanocomposites based on its full oxidation into WO3·2H2O. The developed ES–PANI–WO3·2H2O nanocomposites were successfully characterized using experimental techniques combined with Density Functional Theory (DFT). The formation of WO3·2H2O was clearly verified after two hours of synthesis (PW2 nanocomposite), allowing the confirmation of purely physical interaction between matrix and reinforcement. As a result, increased electrical conductivity was verified in the PW2 nanocomposite: the DFT calculations revealed a charge transfer from the p-orbitals of the polymeric phase to the d-orbitals of the oxide phase, resulting in higher conductivity when compared to the pure ES–PANI. [ABSTRACT FROM AUTHOR]

Published

2022

27. Photo-Induced Reactions between Glyoxal and Hydroxylamine in Cryogenic Matrices.

Author

Golec, Barbara, Sałdyka, Magdalena, and Mielke, Zofia

Subjects

*MATRIX isolation spectroscopy, *AMINO group, *GLYOXAL, *AB-initio calculations, *HYDROGEN atom, *CARBONYL group, *ACETALDEHYDE

Abstract

In this paper, the photochemistry of glyoxal–hydroxylamine (Gly–HA) complexes is studied using FTIR matrix isolation spectroscopy and ab initio calculations. The irradiation of the Gly–HA complexes with the filtered output of a mercury lamp (λ > 370 nm) leads to their photoconversion to hydroxyketene–hydroxylamine complexes and the formation of hydroxy(hydroxyamino)acetaldehyde with a hemiaminal structure. The first product is the result of a double hydrogen exchange reaction between the aldehyde group of Gly and the amino or hydroxyl group of HA. The second product is formed as a result of the addition of the nitrogen atom of HA to the carbon atom of one aldehyde group of Gly, followed by the migration of the hydrogen atom from the amino group of hydroxylamine to the oxygen atom of the carbonyl group of glyoxal. The identification of the products is confirmed by deuterium substitution and by MP2 calculations of the structures and vibrational spectra of the identified species. [ABSTRACT FROM AUTHOR]

Published

2022

28. Novel Sterically Crowded and Conformationally Constrained α-Aminophosphonates with a Near-Neutral p K a as Highly Accurate 31 P NMR pH Probes. Application to Subtle pH Gradients Determination in Dictyostelium discoideum Cells.

Author

Delehedde, Caroline, Culcasi, Marcel, Ricquebourg, Emilie, Cassien, Mathieu, Siri, Didier, Blaive, Bruno, Pietri, Sylvia, and Thétiot-Laurent, Sophie

Subjects

*DICTYOSTELIUM discoideum, *AB-initio calculations, *INDUCTIVE effect

Abstract

In order to discover new 31P NMR markers for probing subtle pH changes (<0.2 pH unit) in biological environments, fifteen new conformationally constrained or sterically hindered α-aminophosphonates derived from diethyl(2-methylpyrrolidin-2-yl)phosphonate were synthesized and tested for their pH reporting and cytotoxic properties in vitro. All compounds showed near-neutral pKas (ranging 6.28–6.97), chemical shifts not overlapping those of phosphorus metabolites, and spectroscopic sensitivities (i.e., chemical shifts variation Δδab between the acidic and basic forms) ranging from 9.2–10.7 ppm, being fourfold larger than conventional endogenous markers such as inorganic phosphate. X-ray crystallographic studies combined with predictive empirical relationships and ab initio calculations addressed the inductive and stereochemical effects of substituents linked to the protonated amine function. Satisfactory correlations were established between pKas and both the 2D structure and pyramidalization at phosphorus, showing that steric crowding around the phosphorus is crucial for modulating Δδab. Finally, the hit 31P NMR pH probe 1b bearing an unsubstituted 1,3,2-dioxaphosphorinane ring, which is moderately lipophilic, nontoxic on A549 and NHLF cells, and showing pKa = 6.45 with Δδab = 10.64 ppm, allowed the first clear-cut evidence of trans-sarcolemmal pH gradients in normoxic Dictyostelium discoideum cells with an accuracy of <0.05 pH units. [ABSTRACT FROM AUTHOR]

Published

2022

29. On the Dynamics of the Carbon–Bromine Bond Dissociation in the 1-Bromo-2-Methylnaphthalene Radical Anion.

Author

Bonechi, Marco, Giurlani, Walter, Innocenti, Massimo, Pasini, Dario, Mishra, Suryakant, Giovanardi, Roberto, and Fontanesi, Claudio

Subjects

*RADICAL anions, *CARBON-carbon bonds, *AB-initio calculations, *SURFACE potential, *ELECTROSYNTHESIS, *POTENTIAL energy surfaces, *ELECTRON affinity

Abstract

This paper studies the mechanism of electrochemically induced carbon–bromine dissociation in 1-Br-2-methylnaphalene in the reduction regime. In particular, the bond dissociation of the relevant radical anion is disassembled at a molecular level, exploiting quantum mechanical calculations including steady-state, equilibrium and dissociation dynamics via dynamic reaction coordinate (DRC) calculations. DRC is a molecular-dynamic-based calculation relying on an ab initio potential surface. This is to achieve a detailed picture of the dissociation process in an elementary molecular detail. From a thermodynamic point of view, all the reaction paths examined are energetically feasible. The obtained results suggest that the carbon halogen bond dissociates following the first electron uptake follow a stepwise mechanism. Indeed, the formation of the bromide anion and an organic radical occurs. The latter reacts to form a binaphthalene intrinsically chiral dimer. This paper is respectfully dedicated to Professors Anny Jutand and Christian Amatore for their outstanding contribution in the field of electrochemical catalysis and electrosynthesis. [ABSTRACT FROM AUTHOR]

Published

2022

30. Exploration of the Crystal Structure and Thermal and Spectroscopic Properties of Monoclinic Praseodymium Sulfate Pr 2 (SO 4) 3.

Author

Denisenko, Yuriy G., Atuchin, Victor V., Molokeev, Maxim S., Sedykh, Alexander E., Khritokhin, Nikolay A., Aleksandrovsky, Aleksandr S., Oreshonkov, Aleksandr S., Shestakov, Nikolai P., Adichtchev, Sergey V., Pugachev, Alexey M., Sal'nikova, Elena I., Andreev, Oleg V., Razumkova, Illaria A., and Müller-Buschbaum, Klaus

Subjects

*CRYSTAL structure, *THERMAL properties, *PRASEODYMIUM, *AB-initio calculations, *RIETVELD refinement, *THERMAL expansion, *SULFATES

Abstract

Praseodymium sulfate was obtained by the precipitation method and the crystal structure was determined by Rietveld analysis. Pr2(SO4)3 is crystallized in the monoclinic structure, space group C2/c, with cell parameters a = 21.6052 (4), b = 6.7237 (1) and c = 6.9777 (1) Å, β = 107.9148 (7)°, Z = 4, V = 964.48 (3) Å3 (T = 150 °C). The thermal expansion of Pr2(SO4)3 is strongly anisotropic. As was obtained by XRD measurements, all cell parameters are increased on heating. However, due to a strong increase of the monoclinic angle β, there is a direction of negative thermal expansion. In the argon atmosphere, Pr2(SO4)3 is stable in the temperature range of T = 30–870 °C. The kinetics of the thermal decomposition process of praseodymium sulfate octahydrate Pr2(SO4)3·8H2O was studied as well. The vibrational properties of Pr2(SO4)3 were examined by Raman and Fourier-transform infrared absorption spectroscopy methods. The band gap structure of Pr2(SO4)3 was evaluated by ab initio calculations, and it was found that the valence band top is dominated by the p electrons of oxygen ions, while the conduction band bottom is formed by the d electrons of Pr3+ ions. The exact position of ZPL is determined via PL and PLE spectra at 77 K to be at 481 nm, and that enabled a correct assignment of luminescent bands. The maximum luminescent band in Pr2(SO4)3 belongs to the 3P0 → 3F2 transition at 640 nm. [ABSTRACT FROM AUTHOR]

Published

2022

31. Current Status of the X + C 2 H 6 [X ≡ H, F(2 P), Cl(2 P), O(3 P), OH] Hydrogen Abstraction Reactions: A Theoretical Review.

Author

Espinosa-Garcia, Joaquin, Rangel, Cipriano, and Corchado, Jose C.

Subjects

*ABSTRACTION reactions, *POTENTIAL energy surfaces, *AB-initio calculations, *ENTRANCES & exits, *HYDROGEN atom, *CHALCOGENS, *CHLORIDE channels

Abstract

This paper is a detailed review of the chemistry of medium-size reactive systems using the following hydrogen abstraction reactions with ethane, X + C2H6 → HX + C2H5; X ≡ H, F(2P), Cl(2P), O(3P) and OH, and focusing attention mainly on the theoretical developments. These bimolecular reactions range from exothermic to endothermic systems and from barrierless to high classical barriers of activation. Thus, the topography of the reactive systems changes from reaction to reaction with the presence or not of stabilized intermediate complexes in the entrance and exit channels. The review begins with some reflections on the inherent problems in the theory/experiment comparison. When one compares kinetics or dynamics theoretical results with experimental measures, one is testing both the potential energy surface describing the nuclei motion and the kinetics or dynamics method used. Discrepancies in the comparison may be due to inaccuracies of the surface, limitations of the kinetics or dynamics methods, and experimental uncertainties that also cannot be ruled out. The paper continues with a detailed review of some bimolecular reactions with ethane, beginning with the reactions with hydrogen atoms. The reactions with halogens present a challenge owing to the presence of stabilized intermediate complexes in the entrance and exit channels and the influence of the spin-orbit states on reactivity. Reactions with O(3P) atoms lead to three surfaces, which is an additional difficulty in the theoretical study. Finally, the reactions with the hydroxyl radical correspond to a reactive system with ten atoms and twenty-four degrees of freedom. Throughout this review, different strategies in the development of analytical potential energy surfaces describing these bimolecular reactions have been critically analyzed, showing their advantages and limitations. These surfaces are fitted to a large number of ab initio calculations, and we found that a huge number of calculations leads to accurate surfaces, but this information does not guarantee that the kinetics and dynamics results match the experimental measurements. [ABSTRACT FROM AUTHOR]

Published

2022

32. Resonant Ionic, Covalent Bond, and Steric Characteristics Present in 1 Σ u + States of Li 2.

Author

Ahn Furudate, Michiko, Hagebaum-Reignier, Denis, Kim, Jin-Tae, and Jeung, Gwang-Hi

Subjects

*COVALENT bonds, *HIGH resolution spectroscopy, *AB-initio calculations, *CHEMICAL bonds, *EXCITED states, *CHOLESTERIC liquid crystals

Abstract

The molecular bonding in the excited states of the alkali dimers involves the resonant ionic, covalent bond and steric interactions. We show here the case of the 1Σu+ states of Li2 by ab initio calculation. These interactions as functions of the internuclear distance lead to complex potential energy curves, providing an important application for high resolution laser spectroscopy. The spectroscopic constants for the 4 and 5 1Σu+ states are obtained for the first time. [ABSTRACT FROM AUTHOR]

Published

2022

33. A Quinoxaline−Naphthaldehyde Conjugate for Colorimetric Determination of Copper Ion.

Author

Sahu, Sutapa, Sikdar, Yeasin, Bag, Riya, Drew, Michael G. B., Cerón-Carrasco, José P., and Goswami, Sanchita

Subjects

*COPPER ions, *SCHIFF bases, *DETECTION limit, *AB-initio calculations, *ETHYLENEDIAMINETETRAACETIC acid

Abstract

This work facilitates detection of bivalent copper ion by a simple Schiff base probe QNH based on a quinoxaline−naphthaldehyde framework. The detailed study in absorption spectroscopy and theoretical aspects and crystal study of the probe and probe−copper complex has been discussed. The detection limit of the probe in the presence of Cu2+ is 0.45 µM in HEPES−buffer/acetonitrile (3/7, v/v) medium for absorption study. The reversibility of the probe−copper complex has been investigated by EDTA. The selective visual detection of copper has been established also in gel form. [ABSTRACT FROM AUTHOR]

Published

2022

34. Insight into Spodium–π Bonding Characteristics of the MX 2 ⋯π (M = Zn, Cd and Hg; X = Cl, Br and I) Complexes—A Theoretical Study.

Author

Gao, Meng, Zhao, Qibo, Yu, Hao, Fu, Min, and Li, Qingzhong

Subjects

*AB-initio calculations, *MOLECULAR shapes, *LEWIS bases, *ELECTRON density, *LEWIS acids, *HEAVY metals, *TRACE elements

Abstract

The spodium–π bonding between MX2 (M = Zn, Cd, and Hg; X = Cl, Br, and I) acting as a Lewis acid, and C2H2/C2H4 acting as a Lewis base was studied by ab initio calculations. Two types of structures of cross (T) and parallel (P) forms are obtained. For the T form, the X–M–X axis adopts a cross configuration with the molecular axis of C≡C or C=C, but both of them are parallel in the P form. NCI, AIM, and electron density shifts analyses further, indicating that the spodium–π bonding exists in the binary complexes. Spodium–π bonding exhibits a partially covalent nature characterized with a negative energy density and large interaction energy. With the increase of electronegativity of the substituents on the Lewis acid or its decrease in the Lewis base, the interaction energies increase and vice versa. The spodium–π interaction is dominated by electrostatic interaction in most complexes, whereas dispersion and electrostatic energies are responsible for the stability of the MX2⋯C2F2 complexes. The spodium–π bonding further complements the concept of the spodium bond and provides a wider range of research on the adjustment of the strength of spodium bond. [ABSTRACT FROM AUTHOR]

Published

2022

35. Excited-State Intramolecular Proton Transfer Dyes with Dual-State Emission Properties: Concept, Examples and Applications.

Author

Stoerkler, Timothée, Pariat, Thibault, Laurent, Adèle D., Jacquemin, Denis, Ulrich, Gilles, and Massue, Julien

Subjects

*AB-initio calculations, *STOKES shift, *DYES & dyeing, *ORGANIC electronics, *FLUOROPHORES, *FLUORESCENT dyes, *ORGANIC dyes

Abstract

Dual-state emissive (DSE) fluorophores are organic dyes displaying fluorescence emission both in dilute and concentrated solution and in the solid-state, as amorphous, single crystal, polycrystalline samples or thin films. This comes in contrast to the vast majority of organic fluorescent dyes which typically show intense fluorescence in solution but are quenched in concentrated media and in the solid-state owing to π-stacking interactions; a well-known phenomenon called aggregation-caused quenching (ACQ). On the contrary, molecular rotors with a significant number of free rotations have been engineered to show quenched emission in solution but strong fluorescence in the aggregated-state thanks to restriction of the intramolecular motions. This is the concept of aggregation-induced emission (AIE). DSE fluorophores have been far less explored despite the fact that they are at the crossroad of ACQ and AIE phenomena and allow targeting applications both in solution (bio-conjugation, sensing, imaging) and solid-state (organic electronics, data encryption, lasing, luminescent displays). Excited-State Intramolecular Proton Transfer (ESIPT) fluorescence is particularly suitable to engineer DSE dyes. Indeed, ESIPT fluorescence, which relies on a phototautomerism between normal and tautomeric species, is characterized by a strong emission in the solid-state along with a large Stokes' shift, an enhanced photostability and a strong sensitivity to the close environment, a feature prone to be used in bio-sensing. A drawback that needs to be overcome is their weak emission intensity in solution, owing to detrimental molecular motions in the excited-state. Several strategies have been proposed in that regard. In the past few years, a growing number of examples of DSE-ESIPT dyes have indeed emerged in the literature, enriching the database of such attractive dyes. This review aims at a brief but concise overview on the exploitation of ESIPT luminescence for the optimization of DSE dyes properties. In that perspective, a synergistic approach between organic synthesis, fluorescence spectroscopy and ab initio calculations has proven to be an efficient tool for the construction and optimization of DSE-ESIPT fluorophores. [ABSTRACT FROM AUTHOR]

Published

2022

36. Semiempirical Potential in Kinetics Calculations on the HC 3 N + CN Reaction.

Author

Valença Ferreira de Aragão, Emília, Mancini, Luca, Faginas-Lago, Noelia, Rosi, Marzio, Skouteris, Dimitrios, and Pirani, Fernando

Subjects

*POTENTIAL energy surfaces, *GAS phase reactions, *PLANETARY atmospheres, *AB-initio calculations, *CHEMICAL reactions, *INTEGRAL field spectroscopy

Abstract

The reaction between the cyano radical CN and cyanoacetylene molecule HC 3 N is of great interest in different astronomical fields, from star-forming regions to planetary atmospheres. In this work, we present a new synergistic theoretical approach for the derivation of the rate coefficient for gas phase neutral-neutral reactions. Statistic RRKM calculations on the Potential Energy Surface are coupled with a semiempirical analysis of the initial bimolecular interaction. The value of the rate coefficient for the HC 3 N + CN → H + NCCCCN reaction obtained with this method is compared with previous theoretical and experimental investigations, showing strengths and weaknesses of the new presented approach. [ABSTRACT FROM AUTHOR]

Published

2022

37. Identifying Stereoisomers by ab-initio Calculation of Secondary Isotope Shifts on NMR Chemical Shieldings

Author

Karl-Heinz Böhm, Klaus Banert, and Alexander A. Auer

Subjects

secondary isotope effects, NMR chemical shieldings, zero point vibrational effects, electronic structure calculations, ab-initio calculations, Organic chemistry, QD241-441

Abstract

We present ab-initio calculations of secondary isotope effects on NMR chemical shieldings. The change of the NMR chemical shift of a certain nucleus that is observed if another nucleus is replaced by a different isotope can be calculated by computing vibrational corrections on the NMR parameters using electronic structure methods. We demonstrate that the accuracy of the computational results is sufficient to even distinguish different conformers. For this purpose, benchmark calculations for fluoro(2-2H)ethane in gauche and antiperiplanar conformation are carried out at the HF, MP2 and CCSD(T) level of theory using basis sets ranging from double- to quadruple-zeta quality. The methodology is applied to the secondary isotope shifts for 2-fluoronorbornane in order to resolve an ambiguity in the literature on the assignment of endo- and exo-2-fluoronorbornanes with deuterium substituents in endo-3 and exo-3 positions, also yielding insight into mechanistic details of the corresponding synthesis.

Published

2014

38. (R,R)-Tartaric Acid Dimethyl Diester from X-Ray and Ab Initio Studies: Factors Influencing Its Conformation and Packing

Author

J. Rychlewski, M. Hoffmann, B. Warzajtis, and U. Rychlewska

Subjects

(R, R)-tartaric acid derivatives, ab-initio calculations, crystal structure, Organic chemistry, QD241-441

Abstract

The conformation of dimethyl (R,R)-tartrate has been analyzed on the basis of the single crystal X-ray diffraction method as well as by ab-initio quantum chemical studies. The results showed that the extended T conformation containing two planar hydroxyester moieties predominates in both ab-initio and X-ray studies. The lowest energy conformer in ab-initio calculations has C2 symmetry and hydrogen bonds between a hydroxyl group and the nearest carbonyl oxygen. The second in energetical sequence, with an energy difference of only 1.2 kcal/mol, is the asymmetrical conformer, which differs from the lowest energy form by the rotation of one of the ester groups by 180°. Intramolecular OH...O hydrogen bonds observed in this rotamer again involve only proximal functional groups. This conformer is present in the crystal structure of the studied compound, although its conformation in the solid state is no longer stabilized by intramolecular hydrogen bonds of the type mentioned above. In the crystal, hydroxyl groups are mostly involved in intermolecular hydrogen bonds and form only a weak intramolecular hydrogen bond with each other. The planar arrangement of the α-hydroxyester moieties combined with the extended conformation of the carbon chain seems to be stabilized by the intramolecular hydrogen bonds between neighboring functional groups and by the long range dipole-dipole interactions between two pairs of CO and (β)C-H bonds.

Published

1997

39. Identifying Stereoisomers by ab-initio Calculation of Secondary Isotope Shifts on NMR Chemical Shieldings.

Author

Böhm, Karl-Heinz, Banert, Klaus, and Auer, Alexander A.

Subjects

STEREOISOMERS, NUCLEAR magnetic resonance, CHEMICAL shift (Nuclear magnetic resonance), ISOTOPE shift, AB initio quantum chemistry methods, DEUTERIUM

Abstract

We present ab-initio calculations of secondary isotope effects on NMR chemical shieldings. The change of the NMR chemical shift of a certain nucleus that is observed if another nucleus is replaced by a different isotope can be calculated by computing vibrational corrections on the NMR parameters using electronic structure methods. We demonstrate that the accuracy of the computational results is sufficient to even distinguish different conformers. For this purpose, benchmark calculations for fluoro(2-²H)ethane in gauche and antiperiplanar conformation are carried out at the HF, MP2 and CCSD(T) level of theory using basis sets ranging from double- to quadruple-zeta quality. The methodology is applied to the secondary isotope shifts for 2-fluoronorbornane in order to resolve an ambiguity in the literature on the assignment of endo- and exo-2-fluoronorbornanes with deuterium substituents in endo-3 and exo-3 positions, also yielding insight into mechanistic details of the corresponding synthesis. [ABSTRACT FROM AUTHOR]

Published

2014

40. Intriguing Chloride: Involvement of Chloride Ions in Proton Transfers.

Author

Pilepić, Viktor, Jakobušić Brala, Cvijeta, and Uršić, Stanko

Subjects

*CHLORIDE ions, *HYDROXAMIC acids, *KINETIC isotope effects, *ION pairs, *PROTONS, *AB-initio calculations, *CHLORIDES

Abstract

The proton transfer from carbon to a chloride ion and the proton transfer to a molecule of water promoted by chloride ions in the acid-catalyzed formation of hydroxamic acids from aldehydes and substituted nitrosobenzenes in mixed solvents have been proposed based on experimental and theoretical investigations. The formation of uncommon contact ion pairs consisting of the nitrosocarbinolic cation intermediate and a chloride anion, followed by the proton transfer from a C-H moiety of the cation intermediate, has been proposed. The influence of chloride on the proton transfer to a water molecule of the solvent-separated nitrosocarbinolic-cation–chloride ion pair was investigated too. The insights are based on the obtained kinetic and other evidence with regard to (1) influences of chloride anions on the observed reaction rates and primary kinetic isotope effects (PKIE) in the reaction; (2) the observed variation of the PKIE-s and rates of the reaction when perchlorate anions are present along with the chloride ions; and (3) the consideration of a model of the nitrosocarbinolic-cation-intermediate—chloride ion pair and transition structure for the proposed proton transfers based on the ab initio calculations. [ABSTRACT FROM AUTHOR]

Published

2022

41. High Resolution Infrared Spectroscopy in Support of Ozone Atmospheric Monitoring and Validation of the Potential Energy Function.

Author

Barbe, Alain, Mikhailenko, Semen, Starikova, Evgeniya, and Tyuterev, Vladimir

Subjects

*HIGH resolution spectroscopy, *ENERGY function, *POTENTIAL energy, *AB-initio calculations, *ATMOSPHERIC ozone, *OZONE, *DIPOLE moments

Abstract

The first part of this review is a brief reminder of general information concerning atmospheric ozone, particularly related to its formation, destruction, observations of its decrease in the stratosphere, and its increase in the troposphere as a result of anthropogenic actions and solutions. A few words are said about the abandonment of the Airbus project Alliance, which was expected to be the substitute of the supersonic Concorde. This project is over due to the theoretical evaluation of the impact of a fleet in the stratosphere and has been replaced by the A380, which is now operating. The largest part is devoted to calculations and observations of the transitions in the infrared range and their applications for the atmosphere based both on effective models (Hamiltonian, symmetry rules, and dipole moments) and ab initio calculations. The complementarities of the two approaches are clearly demonstrated, particularly for the creation of an exhaustive line list consisting of more than 300,000 lines reaching experimental accuracies (from 0.00004 to 0.001 cm−1) for positions and a sub percent for the intensities in the 10 microns region. This contributes to definitively resolving the issue of the observed discrepancies between line intensity data in different spectral regions: between the infrared and ultraviolet ranges, on the one hand, and between 10 and 5 microns on the other hand. The following section is devoted to the application of recent work to improve the knowledge about the behavior of potential function at high energies. A controversial issue related to the shape of the potential function in the transition state range near the dissociation is discussed. [ABSTRACT FROM AUTHOR]

Published

2022

42. Adsorption Sites on Pd Nanoparticles Unraveled by Machine-Learning Potential with Adaptive Sampling.

Author

Tereshchenko, Andrei, Pashkov, Danil, Guda, Alexander, Guda, Sergey, Rusalev, Yury, and Soldatov, Alexander

Subjects

*RADIAL distribution function, *ANGULAR distribution (Nuclear physics), *SUPPORT vector machines, *ADSORPTION (Chemistry), *BINDING energy, *AB-initio calculations

Abstract

Catalytic properties of noble-metal nanoparticles (NPs) are largely determined by their surface morphology. The latter is probed by surface-sensitive spectroscopic techniques in different spectra regions. A fast and precise computational approach enabling the prediction of surface–adsorbate interaction would help the reliable description and interpretation of experimental data. In this work, we applied Machine Learning (ML) algorithms for the task of adsorption-energy approximation for CO on Pd nanoclusters. Due to a high dependency of binding energy from the nature of the adsorbing site and its local coordination, we tested several structural descriptors for the ML algorithm, including mean Pd–C distances, coordination numbers (CN) and generalized coordination numbers (GCN), radial distribution functions (RDF), and angular distribution functions (ADF). To avoid overtraining and to probe the most relevant positions above the metal surface, we utilized the adaptive sampling methodology for guiding the ab initio Density Functional Theory (DFT) calculations. The support vector machines (SVM) and Extra Trees algorithms provided the best approximation quality and mean absolute error in energy prediction up to 0.12 eV. Based on the developed potential, we constructed an energy-surface 3D map for the whole Pd55 nanocluster and extended it to new geometries, Pd79, and Pd85, not implemented in the training sample. The methodology can be easily extended to adsorption energies onto mono- and bimetallic NPs at an affordable computational cost and accuracy. [ABSTRACT FROM AUTHOR]

Published

2022

43. Thermodynamic Stability of Fenclorim and Clopyralid.

Author

Almeida, Ana R. R. P., Pinheiro, Bruno D. A., Lobo Ferreira, Ana I. M. C., and Monte, Manuel J. S.

Subjects

*ISOBARIC heat capacity, *HERBICIDES, *VAPOR pressure, *AB-initio calculations, *DIFFERENTIAL scanning calorimetry, *PHASE diagrams, *THERMODYNAMICS, *THERMODYNAMIC functions

Abstract

The present work reports an experimental thermodynamic study of two nitrogen heterocyclic organic compounds, fenclorim and clopyralid, that have been used as herbicides. The sublimation vapor pressures of fenclorim (4,6-dichloro-2-phenylpyrimidine) and of clopyralid (3,6-dichloro-2-pyridinecarboxylic acid) were measured, at different temperatures, using a Knudsen mass-loss effusion technique. The vapor pressures of both crystalline and liquid (including supercooled liquid) phases of fenclorim were also determined using a static method based on capacitance diaphragm manometers. The experimental results enabled accurate determination of the standard molar enthalpies, entropies and Gibbs energies of sublimation for both compounds and of vaporization for fenclorim, allowing a phase diagram representation of the (p,T) results, in the neighborhood of the triple point of this compound. The temperatures and molar enthalpies of fusion of the two compounds studied were determined using differential scanning calorimetry. The standard isobaric molar heat capacities of the two crystalline compounds were determined at 298.15 K, using drop calorimetry. The gas phase thermodynamic properties of the two compounds were estimated through ab initio calculations, at the G3(MP2)//B3LYP level, and their thermodynamic stability was evaluated in the gaseous and crystalline phases, considering the calculated values of the standard Gibbs energies of formation, at 298.15 K. All these data, together with other physical and chemical properties, will be useful to predict the mobility and environmental distribution of these two compounds. [ABSTRACT FROM AUTHOR]

Published

2022

44. Tetrel Bonds between Phenyltrifluorosilane and Dimethyl Sulfoxide: Influence of Basis Sets, Substitution and Competition.

Author

An, Xiulin, Yang, Xin, and Li, Qingzhong

Subjects

*AB-initio calculations, *DIMETHYL sulfoxide, *ORBITAL interaction, *HYDROGEN bonding, *CHARGE transfer

Abstract

Ab initio calculations have been performed for the complexes of DMSO and phenyltrifluorosilane (PTS) and its derivatives with a substituent of NH3, OCH3, CH3, OH, F, CHO, CN, NO2, and SO3H. It is necessary to use sufficiently flexible basis sets, such as aug'-cc-pVTZ, to get reliable results for the Si···O tetrel bonds. The tetrel bond in these complexes has been characterized in views of geometries, interaction energies, orbital interactions and topological parameters. The electron-donating group in PTS weakens this interaction and the electron-withdrawing group prominently strengthens it to the point where it exceeds that of the majority of hydrogen bonds. The largest interaction energy occurs in the p-HO3S-PhSiF3···DMSO complex, amounting to −122 kJ/mol. The strong Si···O tetrel bond depends to a large extent on the charge transfer from the O lone pair into the empty p orbital of Si, although it has a dominant electrostatic character. For the PTS derivatives of NH2, OH, CHO and NO2, the hydrogen bonded complex is favorable to the tetrel bonded complex for the NH2 and OH derivatives, while the σ-hole interaction prefers the π-hole interaction for the CHO and NO2 derivatives. [ABSTRACT FROM AUTHOR]

Published

2021

45. Slow Magnetic Relaxation in {[CoCxAPy)] 2.15 H 2 O} n MOF Built from Ladder-Structured 2D Layers with Dimeric SMM Rungs.

Author

Arauzo, Ana, Bartolomé, Elena, Luzón, Javier, Alonso, Pablo J., Vlad, Angelica, Cazacu, Maria, Zaltariov, Mirela F., Shova, Sergiu, Bartolomé, Juan, and Turta, Constantin

Subjects

*MAGNETIC relaxation, *SINGLE molecule magnets, *COORDINATION polymers, *AB-initio calculations, *MAGNETIC anisotropy, *MAGNETIC properties

Abstract

We present the magnetic properties of the metal-organic framework {[CoCxAPy]·2.15 H2O}n (Cx = bis(carboxypropyl)tetramethyldisiloxane; APy = 4,4′-azopyridine) (1) that builds up from the stacking of 2D coordination polymers. The 2D-coordination polymer in the bc plane is formed by the adjacent bonding of [CoCxAPy] 1D two-leg ladders with Co dimer rungs, running parallel to the c-axis. The crystal packing of 2D layers shows the presence of infinite channels running along the c crystallographic axis, which accommodate the disordered solvate molecules. The Co(II) is six-coordinated in a distorted octahedral geometry, where the equatorial plane is occupied by four carboxylate oxygen atoms. Two nitrogen atoms from APy ligands are coordinated in apical positions. The single-ion magnetic anisotropy has been determined by low temperature EPR and magnetization measurements on an isostructural compound {[Zn0.8Co0.2CxAPy]·1.5 CH3OH}n (2). The results show that the Co(II) ion has orthorhombic anisotropy with the hard-axis direction in the C2V main axis, lying the easy axis in the distorted octahedron equatorial plane, as predicted by the ab initio calculations of the g-tensor. Magnetic and heat capacity properties at very low temperatures are rationalized within a S* = 1/2 magnetic dimer model with anisotropic antiferromagnetic interaction. The magnetic dimer exhibits slow relaxation of the magnetization (SMM) below 6 K in applied field, with a τlf ≈ 2 s direct process at low frequencies, and an Orbach process at higher frequencies with U/kB = 6.7 ± 0.5 K. This compound represents a singular SMM MOF built-up of Co-dimers with an anisotropic exchange interaction. [ABSTRACT FROM AUTHOR]

Published

2021

46. Detection of Heavy Metals in Water Using Graphene Oxide Quantum Dots: An Experimental and Theoretical Study.

Author

Gontrani, Lorenzo, Pulci, Olivia, Carbone, Marilena, Pizzoferrato, Roberto, and Prosposito, Paolo

Subjects

*QUANTUM dots, *GRAPHENE oxide, *METAL detectors, *AB-initio calculations, *WATER use, *HEAVY metals

Abstract

In this work, we investigate by ab initio calculations and optical experiments the sensitivity of graphene quantum dots in their use as devices to measure the presence, and concentration, of heavy metals in water. We demonstrate that the quenching or enhancement in the optical response (absorption, emission) depends on the metallic ion considered. In particular, two cases of opposite behaviour are considered in detail: Cd 2 + , where we observe an increase in the emission optical response for increasing concentration, and Pb 2 + whose emission spectra, vice versa, are quenched along the concentration rise. The experimental trends reported comply nicely with the different hydration patterns suggested by the models that are also capable of reproducing the minor quenching/enhancing effects observed in other ions. We envisage that quantum dots of graphene may be routinely used as cheap detectors to measure the degree of poisoning ions in water. [ABSTRACT FROM AUTHOR]

Published

2021

47. Cadmium-Inspired Self-Polymerization of {Ln III Cd 2 } Units: Structure, Magnetic and Photoluminescent Properties of Novel Trimethylacetate 1D-Polymers (Ln = Sm, Eu, Tb, Dy, Ho, Er, Yb).

Author

Shmelev, Maxim A., Polunin, Ruslan A., Gogoleva, Natalia V., Evstifeev, Igor S., Vasilyev, Pavel N., Dmitriev, Alexey A., Varaksina, Evgenia A., Efimov, Nikolay N., Taydakov, Ilya V., Sidorov, Aleksey A., Kiskin, Mikhail A., Gritsan, Nina P., Kolotilov, Sergey V., and Eremenko, Igor L.

Subjects

*RARE earth metals, *TERBIUM, *MAGNETIC properties, *AB-initio calculations, *SINGLE molecule magnets, *EXCITATION spectrum, *MAGNETIC fields

Abstract

A series of heterometallic carboxylate 1D polymers of the general formula [LnIIICd2(piv)7(H2O)2]n·nMeCN (LnIII = Sm (1), Eu (2), Tb (3), Dy (4), Ho (5), Er (6), Yb (7); piv = anion of trimethylacetic acid) was synthesized and structurally characterized. The use of CdII instead of ZnII under similar synthetic conditions resulted in the formation of 1D polymers, in contrast to molecular trinuclear complexes with LnIIIZn2 cores. All complexes 1–7 are isostructural. The luminescent emission and excitation spectra for 2–4 have been studied, the luminescence decay kinetics for 2 and 3 was measured. Magnetic properties of the complexes 3–5 and 7 have been studied; 4 and 7 exhibited the properties of field-induced single-molecule magnets in an applied external magnetic field. Magnetic properties of 4 and 7 were modelled using results of SA-CASSCF/SO-RASSI calculations and SINGLE_ANISO procedure. Based on the analysis of the magnetization relaxation and the results of ab initio calculations, it was found that relaxation in 4 predominantly occurred by the sum of the Raman and QTM mechanisms, and by the sum of the direct and Raman mechanisms in the case of 7. [ABSTRACT FROM AUTHOR]

Published

2021

48. Atom–Diatom Reactive Scattering Collisions in Protonated Rare Gas Systems.

Author

Koner, Debasish, Barrios, Lizandra, González-Lezana, Tomás, and Panda, Aditya N.

Subjects

*NOBLE gases, *POTENTIAL energy surfaces, *AB-initio calculations, *COLLISION induced dissociation

Abstract

The study of the dynamics of atom–diatom reactions involving two rare gas (Rg) atoms and protons is of crucial importance given the astrophysical relevance of these processes. In a series of previous studies, we have been investigating a number of such Rg (1) + Rg (2) H + → Rg (2) + Rg (1) H + reactions by means of different numerical approaches. These investigations comprised the construction of accurate potential energy surfaces by means of ab initio calculations. In this work, we review the state-of-art of the study of these protonated Rg systems making special emphasis on the most relevant features regarding the dynamical mechanisms which govern these reactive collisions. The aim of this work therefore is to provide an as complete as possible description of the existing information regarding these processes. [ABSTRACT FROM AUTHOR]

Published

2021

49. The Reaction of Hydrogen Halides with Tetrahydroborate Anion and Hexahydro- closo -hexaborate Dianion.

Author

Golub, Igor E., Filippov, Oleg A., Belkova, Natalia V., Epstein, Lina M., and Shubina, Elena S.

Subjects

*DIANIONS, *AB-initio calculations, *HYDROGEN, *ANIONS, *LEWIS acids, *RADICAL anions

Abstract

The mechanism of the consecutive halogenation of the tetrahydroborate anion [BH4]− by hydrogen halides (HX, X = F, Cl, Br) and hexahydro-closo-hexaborate dianion [B6H6]2− by HCl via electrophile-induced nucleophilic substitution (EINS) was established by ab initio DFT calculations [M06/6-311++G(d,p) and wB97XD/6-311++G(d,p)] in acetonitrile (MeCN), taking into account non-specific solvent effects (SMD model). Successive substitution of H− by X− resulted in increased electron deficiency of borohydrides and changes in the character of boron atoms from nucleophilic to highly electrophilic. This, in turn, increased the tendency of the B–H bond to transfer a proton rather than a hydride ion. Thus, the regularities established suggested that it should be possible to carry out halogenation more selectively with the targeted synthesis of halogen derivatives with a low degree of substitution, by stabilization of H2 complex, or by carrying out a nucleophilic substitution of B–H bonds activated by interaction with Lewis acids (BL3). [ABSTRACT FROM AUTHOR]

Published

2021

50. Perturbating Intramolecular Hydrogen Bonds through Substituent Effects or Non-Covalent Interactions.

Author

Lamsabhi, Al Mokhtar, Mó, Otilia, and Yáñez, Manuel

Subjects

*POTENTIAL energy surfaces, *NATURAL orbitals, *ISODESMIC reactions, *AMINO group, *HYDROXYL group, *AB-initio calculations, *HYDROGEN bonding

Abstract

An analysis of the effects induced by F, Cl, and Br-substituents at the α-position of both, the hydroxyl or the amino group for a series of amino-alcohols, HOCH2(CH2)nCH2NH2 (n = 0–5) on the strength and characteristics of their OH···N or NH···O intramolecular hydrogen bonds (IMHBs) was carried out through the use of high-level G4 ab initio calculations. For the parent unsubstituted amino-alcohols, it is found that the strength of the OH···N IMHB goes through a maximum for n = 2, as revealed by the use of appropriate isodesmic reactions, natural bond orbital (NBO) analysis and atoms in molecules (AIM), and non-covalent interaction (NCI) procedures. The corresponding infrared (IR) spectra also reflect the same trends. When the α-position to the hydroxyl group is substituted by halogen atoms, the OH···N IMHB significantly reinforces following the trend H < F < Cl < Br. Conversely, when the substitution takes place at the α-position with respect to the amino group, the result is a weakening of the OH···N IMHB. A totally different scenario is found when the amino-alcohols HOCH2(CH2)nCH2NH2 (n = 0–3) interact with BeF2. Although the presence of the beryllium derivative dramatically increases the strength of the IMHBs, the possibility for the beryllium atom to interact simultaneously with the O and the N atoms of the amino-alcohol leads to the global minimum of the potential energy surface, with the result that the IMHBs are replaced by two beryllium bonds. [ABSTRACT FROM AUTHOR]

Published

2021