Your search keyword '"ISOMERISM"' showing total 51,505 results

1. Impact of chlorine substitution on valence orbitals and ionization dynamics in 3-chloropyridine: Insights from high-resolution vacuum ultraviolet mass-analyzed threshold ionization study.

Author

Park, Sung Man, Kim, Hyojung, and Kwon, Chan Ho

Subjects

*FRONTIER orbitals, *MOLECULAR orbitals, *VIBRATIONAL spectra, *VIBRONIC coupling, *ISOMERISM

Abstract

In this study, the effects of chlorine substitution on the valence orbitals and electronic states of 3-chloropyridine (3-CP) were investigated utilizing high-resolution vacuum ultraviolet mass-analyzed threshold ionization (VUV-MATI) spectroscopy and computational methods. High-quality vibrational spectra were obtained from the VUV-MATI spectra of 3-CP isotopomers (35Cl and 37Cl), revealing high-quality vibrational spectra for the lowest cationic states. The adiabatic ionization energies (AIEs) of these isotopomers were accurately determined, providing detailed information about the electronic structure and ionization dynamics. Intense spectra peaks were linked with the D1 excited state of the 3-CP cation, with vibronic transitions in this state closely matching those predicted by Franck–Condon simulations. This provided insights into the cationic structure and the roles of the highest occupied molecular orbital (HOMO) and the HOMO-1. The HOMO was primarily a π orbital of the pyridine ring, while the HOMO-1 consisted of nonbonding orbitals. The AIEs suggested that meta-chlorine substitution stabilizes nonbonding orbitals less effectively than ortho substitution, indicating closely spaced electronic states in the 3-CP cation. Minor discrepancies in vibrational frequencies and intensities, particularly above 800 cm−1, suggested the presence of vibronic coupling, warranting further investigation. Overall, this study provided a comprehensive understanding of the vibronic and ionization properties of 3-CP, emphasizing the influence of the position of the chlorine substitution on molecular orbitals and the value of advanced theoretical and experimental approaches for analyzing the vibrational spectra of complex molecules. [ABSTRACT FROM AUTHOR]

Published

2024

2. Ultrafast excited state intramolecular proton transfer and isomerization of long-chain linked Schiff bases.

Author

Wang, Ye, Wang, Dongdong, Hu, Xiao, and Zhang, Song

Subjects

*INTRAMOLECULAR proton transfer reactions, *SCHIFF bases, *ISOMERIZATION, *PROTONS, *ISOMERISM, *RADIATIVE transitions

Abstract

The ultrafast proton transfer and the following dynamics for aromatic Schiff bases N,N′-bis(salicylidene)ethylenediamine (salen) and N,N′-bis(salicylidene)-1,4-butylenediamine (salbn) were investigated with experimental and theoretical methods. A dual emission property with a large Stokes shift in salen and salbn indicates that excited state intramolecular proton transfer occurs with photoexcitation. An efficient single proton transfer was confirmed within 200 fs for both molecules. Subsequently, a fast twisted motion of the keto moiety carries cis-keto to a relaxed stable geometry in the S1 state. Following the twisted motion, the phenol ring at keto moiety further rotates to a conical intersection with the ground state and a cis–trans isomerization occurs. The isomerization rate is high, which dominates the competition with the radiative transition, resulting in weak emission intensity. It is confirmed that the length of alkyl chain affects the direction of phenol ring twisting and rotation during the whole subsequent relaxation of excited cis-keto tautomer. Compared with polar solvent acetonitrile, the barrier of isomerization is higher and the hydrogen bond on keto moiety is stronger in nonpolar solvent toluene. It makes fluorescence radiation channels competing with isomerism more likely to occur, contributing to the observed difference of enol/keto emission ratios of salen and salbn in toluene and acetonitrile. [ABSTRACT FROM AUTHOR]

Published

2024

3. Localizing Isomerized Residue Sites in Peptides with Tandem Mass Spectrometry.

Author

Wu, Hoi-Ting, Van Orman, Brielle, and Julian, Ryan

Subjects

Epimer, Fragmentation, Isoleucine, Isomer, Leucine, isoAsp, Humans, Animals, Tandem Mass Spectrometry, Peptides, Amino Acids, Chromatography, Liquid, Isomerism

Abstract

Isomerized amino acid residues have been identified in many peptides extracted from tissues or excretions of humans and animals. These isomerized residues can play key roles by affecting biological activity or by exerting an influence on the process of aging. Isomerization occurs spontaneously and does not result in a mass shift. Thus, identifying and localizing isomerized residues in biological samples is challenging. Herein, we introduce a fast and efficient method using tandem mass spectrometry (MS) to locate isomerized residues in peptides. Although MS2 spectra are useful for identifying peptides that contain an isomerized residue, they cannot reliably localize isomerization sites. We show that this limitation can be overcome by utilizing MS3 experiments to further evaluate each fragment ion from the MS2 stage. Comparison at the MS3 level, utilizing statistical analyses, reveals which MS2 fragments differ between samples and, therefore, must contain the isomerized sites. The approach is similar to previous work relying on ion mobility to discriminate MS2 product ions by collision cross-section. The MS3 approach can be implemented using either ion-trap or beam-type collisional activation and is compatible with the quantification of isomer mixtures when coupled to a calibration curve. The method can also be implemented in combination with liquid chromatography in a targeted approach. Enabling the identification and localization of isomerized residues in peptides with an MS-only methodology will expand accessibility to this important information.

Published

2024

4. Isomerism in Molecular Metal Carbonyl Clusters.

Author

Cesari, Cristiana, Femoni, Cristina, Forti, Francesca, Iapalucci, Maria Carmela, Scorzoni, Giorgia, and Zacchini, Stefano

Subjects

*METAL clusters, *ISOMERISM, *LIGANDS (Chemistry), *ISOMERS, *CRYSTAL structure, *MOLECULAR clusters

Abstract

The present microreview focuses on different typologies of isomerism documented along the years for metal carbonyl clusters (MCCs), and outlines their analogies to other classes of ligand‐protected molecular clusters and nanoclusters. Isomerism in molecular MCCs is discussed within two main categories, that is, surface isomerism and core isomerism. The first Section presents some representative examples of surface isomerism involving inorganic (carbonyls and hydrides) and organic ligands, as well as isomerism due to ML fragments decorating the cluster surface. The second Section focuses on three major categories of core isomerism, that is: (1) isomers that mainly differ on M–M distances; (2) isomers displaying different structures of the metal kernels; (3) isomers possessing almost identical metal kernels and ligand shells, but differing for the positions of different types of metal atoms within the metal kernel. The third Section briefly discusses two related and very rare cases of isomerism, that is, polymerisation and coordination isomerism. General conclusions are outlined in the final Section. [ABSTRACT FROM AUTHOR]

Published

2024

5. Dinuclear tricarbonylrhenium(I) complexes: impact of regioisomerism on the photoluminescence properties.

Author

Le Garrec, Stéphen, Martins-Bessa, David, Wolff, Mariusz, Delavaux-Nicot, Béatrice, Mallet-Ladeira, Sonia, Serpentini, Charles-Louis, Benoist, Eric, Bedos-Belval, Florence, and Fery-Forgues, Suzanne

Subjects

*STRUCTURAL isomers, *ISOMERISM, *PHOTOLUMINESCENCE, *LUMINESCENCE, *DIMERS

Abstract

Dinuclear Re(I) complexes have proportionally been much less studied than mononuclear analogues. In particular, very little information is available about their solid-state emission properties. In this work, two structural isomers of dinuclear complexes (Bi-Re-metaPhe and Bi-Re-paraPhe), which differ by the relative position of the coordination spheres on a central phenyl ring, were synthesized and compared with each other and with the parent mononuclear compound (Mono-Re-Phe), from a theoretical and experimental point of view. In solution, the electronic, electrochemical and spectroscopic properties of the dinuclear complexes were almost identical, and rather close to those of the monomer. In the solid state, the photoluminescence (PL) efficiency of dimers was not higher than that of the monomer, but a clear mechanoresponsive luminescence (MRL) effect appeared only for the former ones. The positional isomerism influenced the amplitude of this effect, as well as the aggregation-induced emission (AIE) properties in a water-acetonitrile mixture. This study reveals the importance of positional isomerism to modulate the emission properties in the solid state. It also shows the advantage of dinuclear structures to access new MRL-active materials. [ABSTRACT FROM AUTHOR]

Published

2024

6. Positional Isomerism Toward Tunable Organic Afterglow and Reversible Photoactivation Behavior for Anti‐Counterfeiting and Encryption.

Author

Wu, Zongyao, Xu, Zixuan, Wang, Deliang, Deng, Guoqing, Lin, Songwang, Zhao, Zheng, Wang, Dong, Xiong, Yu, and Tang, Ben Zhong

Subjects

*STRUCTURAL isomers, *METHYL methacrylate, *ISOMERISM, *POLYMER films, *ISOMERS

Abstract

Achieving amorphous polymers with ultralong room‐temperature phosphorescence (RTP), tunable organic afterglow, and reversible photoactivation behavior is highly desirable for practical applications but challenging. Herein, simple positional isomers with three carboxyl groups located in the ortho, meta, and para positions of the triphenylamine skeleton are designed and synthesized. By physically blending with the poly(vinyl alcohol) matrix, these isomers show ultralong RTP properties, among which the meta‐isomer has the longest RTP lifetime (620.1 ms). Theoretical calculations reveal that the more efficient intersystem crossing, the slower radiative decay rate of the lowest triplet excitons, and stronger intermolecular hydrogen‐bonding interactions should be responsible for the superior RTP property of meta‐isomer. Furthermore, the tunable organic afterglow is readily realized via a triplet‐to‐singlet energy transfer process. More impressively, the meta and para isomers exhibit reversible photoactivated ultralong RTP properties after embedding into the rigid poly(methyl methacrylate) matrix. Finally, amorphous and flexible polymer films prepared from these positional isomers show potential applications in advanced anti‐counterfeiting and multilevel encryption through subtly combining ultralong RTP lifetime, tunable organic afterglow, and reversible photoactivation behavior. [ABSTRACT FROM AUTHOR]

Published

2024

7. Catheter Ablation of Tachycardia Involving Twin/Single Atrioventricular Node in Patients With Right Isomerism.

Author

Terashi, Eiko, Suzuki, Tsugutoshi, Yoshida, Yoko, Fukudome, Keisuke, and Nakamura, Yoshihide

Subjects

*CONGENITAL heart disease, *CATHETER ablation, *ABLATION techniques, *ATRIOVENTRICULAR node, *ISOMERISM, *MEDICAL records

Abstract

ABSTRACT Aims Methods Results Conclusion In addition to well‐documented tachycardias involving twin atrioventricular (AV) nodes, tachycardias involving a single node have been clinically experienced in right atrial isomerism (RAI). This study aimed to characterize the AV node involvement patterns and evaluate the outcome of ablation therapy in RAI patients with tachycardias.We retrospectively analyzed the medical records of 16 RAI patients who underwent catheter ablation of tachycardias involving twin or single AV nodes at our center between April 2006 and March 2020.A total of 22 ablation procedures were performed in 16 patients. The median age and body weight were 2 years (range 20 months–31 years) and 11.2 kg (range 7.4–42 kg), respectively. Two QRS complexes were confirmed in 11/16 patients, and a single QRS complex in 5/16. The dominant AV node was anterior in 7/16. Four patterns of tachycardias were identified: tachycardias reciprocating between two AV nodes with retrograde conduction through the anterior AV node (3/16) or through the posterior AV node (4/16); and reentrant tachycardias involving the anterior AV node only (3/16) or posterior AV node only (6/16). Ablation successfully eliminated the tachycardias in 15/16 patients (93.8%). Recurrence was reported in 7/16 (44%) during a median follow‐up period of 96.5 months. Five of those 7 patients underwent additional ablation, and the tachycardias were eliminated in 3/5 patients. None of the patients developed ventricular asynchrony after ablation.Transcatheter ablation was effective in RAI patients with tachycardias involving twin or single AV nodes, and deterioration of the cardiac function was rare. [ABSTRACT FROM AUTHOR]

Published

2024

8. Trivial positional isomerism in ligands triggering different properties in Fe(II)-metallopolymers; design, synthesis, and characterization.

Author

Bawa, Shubham, Kumar, Anil, Nim, Gaurav Kumar, Bera, Jayanta, Ghosh, Samaresh, Sahu, Satyajit, Kar, Prasenjit, and Bandyopadhyay, Anasuya

Subjects

*NONVOLATILE memory, *X-ray diffraction, *ISOMERISM, *SOLID solutions, *RF values (Chromatography), *COORDINATION polymers

Abstract

The tunable molecular scaffold of organic moieties in metallopolymers generates variation in their properties, but what could be the minimal change that can produce variation in the properties of these macromolecules is still untouched. This research has meticulously explored the trivial change in the molecular scaffold of the ligand capable of making a mammoth difference in the nonvolatile memory and coordination pattern in two metallopolymers. The significance of this research lies in the fact that it demonstrates how a slight change in the organic building block can significantly alter the memristive and fluorescence properties of iron(II) metallopolymers, opening up new possibilities for their design and synthesis. Two novel positional isomeric ligands and their corresponding iron(II)-polymers were synthesized and thoroughly characterized using NMR, XRD, ATR-IR, FESEM, AFM and other techniques. Bright orange solid and solution state fluorescence was observed both in the solid and solution states for ligand L2 (3,3′-bis((E)-(pyridin-3-ylimino)methyl)-[1,1′-biphenyl]-4,4′-diol), while ligand L1 (3,3′-bis((E)-(pyridin-2-ylimino)methyl)-[1,1′-biphenyl]-4,4′-diol) showed blue fluorescence in the solution state only. A robust memristive property for Fe(II)-L1-poly with a high current ON/OFF ratio of 104, remarkable random access behaviour, and a long retention time greater than 35 000 seconds was observed while its counterpart was entirely silent. Both polymers showed solution-state electrochromism. These synthesised metallopolymers also showed good specific capacitance in the range of 50–60 F g−1 with a remarkable retention of 98% of the initial value even after 5000 charge–discharge cycles. The AFM and FESEM micrographs revealed the formation of long polymer nano-rods, which correlates with the NMR, ATR-IR, and XRD results. The difference in the properties of polymers generated by such a slight change in the organic building block forces different coordination patterns of these two ligands around the same central metal ion, and this is also evident in all the characterization methods. [ABSTRACT FROM AUTHOR]

Published

2024

9. Efficient Molecular Array Control and Vapochromic Behavior Changes by Positional Isomer‐Dependent Molecular Building Blocks.

Author

Kim, Min‐Ji, Nam, Gwiung, Ahn, Mina, Lee, Soyoon, Son, Ho‐Jin, and Wee, Kyung‐Ryang

Subjects

*STRUCTURAL isomers, *INTERMOLECULAR interactions, *ISOMERISM, *MORPHOLOGY

Abstract

Structurally flexible organic porous molecular arrays are promising for the development of vapochromic materials with superior detection performance. Exploring the photophysical control of vapochromic materials using these molecular arrays is important for the design of new vapochromic materials. However, difficulties arise in the formation and control of organic porous molecular arrays owing to weak and less‐oriented noncovalent forces and their tendency to arrange into energetically preferred high‐density configurations. Herein, an efficient strategy is presented to control molecular arrays by manipulating the shapes of donor–acceptor–donor system‐based molecular building blocks using positional isomerism and report on the correlation between controlled molecular arrays and vapochromic behavior. Depending on their shape (Z‐shaped, quasi‐Z‐shaped, or linear shape), the building blocks formed different molecular arrays that controlled the intermolecular interactions and void volumes. This led to differences in the final microstructural morphologies. Consequently, they exhibited different vapochromic behaviors, and an in‐depth understanding of the correlation between the molecular arrays and vapochromism/vapofluorochromism is obtained. [ABSTRACT FROM AUTHOR]

Published

2024

10. Synthesis, Molecular Modeling, and Evaluation of Novel Methylated Benzene Sulfonamide Derivatives as Cholesteryl Ester Transfer Protein (CETP) Inhibitors.

Author

Khalaf, Reema Abu, Abuarqoub, Rand, Afaneh, Marah, and Habash, Maha

Subjects

*CHOLESTERYL ester transfer protein, *BLOOD lipids, *ESTER derivatives, *ISOMERISM, *CARDIOVASCULAR diseases, *BENZENE derivatives

Abstract

Cardiovascular disease (CVD) is a leading cause of global mortality, with dyslipidemia being a significant modifiable risk factor. Dyslipidemia refers to all abnormalities in blood lipid levels. It plays a fundamental role in the development and progression of atherosclerosis. The reduction of low‐density lipoprotein (LDL) cholesterol has been shown to decrease cardiovascular risk. Cholesteryl ester transfer protein (CETP) plays a role in LDL metabolism, and its inhibition results in lower LDL levels. This study synthesizes and evaluates novel benzene sulfonamide derivatives as CETP inhibitors. Twenty compounds were synthesized and tested for their inhibitory activity using an in vitro bioassay. The results revealed that para‐methylated derivatives exhibited higher inhibitory activity compared to meta‐methylated derivatives, where compound 6n has an IC50 of 24.4 µM. Furthermore, electron withdrawing groups such as chlorine and nitro substitutions on the sulfanamido‐phenyl rings demonstrated superior inhibitory effects compared to electron donating groups. Positional isomerism of the substitutions also influenced inhibitory activity, with para substitutions being more effective. Nitro‐substituted compounds showed greater inhibition than chlorine‐substituted compounds, where compound 6t has an IC50 of 18.3 µM. Overall, this study provides valuable insights into the SAR of CETP inhibitors and identifies promising compounds for further investigation as potential therapeutics for CVD. [ABSTRACT FROM AUTHOR]

Published

2024

11. Facilitating Charge Separation of Donor–Acceptor Conjugated Microporous Polymers via Position Isomerism Strategy for Efficient CO 2 Photoconversion.

Author

Wang, Dandan, Yan, Xiaofei, Zhu, Xinsheng, Liu, Ying, Zhang, Laihong, Lu, Yaqiu, Li, Jie, and Xue, Dingming

Subjects

*MOLECULAR structure, *MOLECULAR magnetic moments, *CONJUGATED polymers, *ISOMERISM, *PHOTOCATALYSTS

Abstract

Photoreduction of CO2 into the chemical feedstocks of fuels provides a green way to help solve both the energy crisis and carbon emission issues. Nevertheless, undesirable charge separation and migration, as well as rapid reverse charge recombination results in the unsatisfactory photocatalytic activity of most conjugated microporous polymers (CMPs). Herein, a pair of donor–acceptor (D-A) CMPs for CO2 photoconversion was developed through position isomerism by altering linkage sites. The results show that Py-D27F with 2,7-site linkage exhibits a completely conjugated structure and a large molecular dipole moment, thus significantly accelerating charge separation and transfer. As a result, Py-D27F achieves a higher yield of 320.9 μmol g−1 h−1 for CO2-to-CO photoreduction (without the addition of any photosensitizers and precious metals), which is about three-fold greater than that of Py-D36F (3,6-site linkage). This study provides a valuable idea for exploring outstanding CMP photocatalysts for the efficient processing of photocatalysis. [ABSTRACT FROM AUTHOR]

Published

2024

12. Designing chemical systems for precision deuteration of medicinal building blocks.

Author

Dabbs, Jonathan D., Taylor, Caleb C., Holdren, Martin S., Brewster, Sarah E., Quillin, Brian T., Meng, Alvin Q., Dickie, Diane A., Pate, Brooks H., and Harman, W. Dean

Subjects

CHEMICAL systems, ISOMERISM, DEUTERATION, MOMENTS of inertia, ISOTOPOLOGUES

Abstract

Methods are lacking that can prepare deuterium-enriched building blocks, in the full range of deuterium substitution patterns at the isotopic purity levels demanded by pharmaceutical use. To that end, this work explores the regio- and stereoselective deuteration of tetrahydropyridine (THP), which is an attractive target for study due to the wide prevalence of piperidines in drugs. A series of d0–d8 tetrahydropyridine isotopomers were synthesized by the stepwise treatment of a tungsten-complexed pyridinium salt with H−/D− and H+/D+. The resulting decomplexed THP isotopomers and isotopologues were analyzed via molecular rotational resonance (MRR) spectroscopy, a highly sensitive technique that distinguishes isotopomers and isotopologues by their unique moments of inertia. In order to demonstrate the medicinal relevance of this approach, eight unique deuterated isotopologues of erythro-methylphenidate were also prepared. Deuteration of active pharmaceutical ingredients is increasingly applied as the isosteric and isotopic replacement can modulate the pharmacokinetic profile, without necessarily having to alter the overall synthetic strategy toward the compound of interest. Here, the authors show manifold deuterations of piperidines and apply molecular rotational resonance (MRR) spectroscopy as a methodology to distinguish isotopomers within a distribution of products. [ABSTRACT FROM AUTHOR]

Published

2024

13. Kiln–House Isomorphism and Cultural Isomerism in the Pavilions of the Yuci Area: The Xiang-Ming Pavilion as an Example.

Author

Zhang, Zexi, Wang, Chongen, and Hu, Chuanjin

Subjects

ADAPTIVE reuse of buildings, ISOMORPHISM (Mathematics), ISOMERISM, ETIQUETTE, SILHOUETTES, PAVILIONS

Abstract

The pavilion is a time-honored architectural form in the Chinese silhouette with strong regional characteristics. Its appearance and technical means are often adaptively combined according to the characteristics of local architecture. The "kiln–house isomorphism" is a unique construction technology of the Shanxi construction type in China. Therefore, the "kiln–house isomorphism" is generally adopted for the construction of pavilions in Shanxi. This study focuses on Xiaonanzhuang Village, Yuci District, Jinzhong City, Shanxi Province. Taking the Xiang-ming Pavilion, the core building of the village, as an example, we analyze the architectural characteristics of the "kiln–house isomorphism" in the pavilion in this area, describe the general construction rules of the region, and conduct a deep investigation of the five "cultural isomerism" factors of the pavilions in the region, namely, geomancy, etiquette and music, beliefs, clans, and cultivation and study. The results of this research will enrich the regional knowledge of such pavilions and add new objects for the protection of local architectural heritage, providing a theoretical basis for the contemporary adaptive reuse of pavilions in the Yuci area from a cultural perspective. [ABSTRACT FROM AUTHOR]

Published

2024

14. Influence of Configurational Isomerism of Pyridine π Bridge in Donor‐π Bridge‐Acceptor Type Covalent Triazine Frameworks on The Photocatalytic Performance.

Author

Xiong, Ji, Li, Xiangyu, Chen, Minghui, Shi, Quan, Jiang, Yu, Feng, Yaqing, and Zhang, Bao

Subjects

*CHEMICAL amplification, *ISOMERISM, *PHOTOCATALYTIC oxidation, *CARBONYL compounds, *PHOTOCATALYSIS

Abstract

Covalent triazine frameworks (CTFs) involving a donor‐π bridge‐acceptor (D‐π‐A) structure are considered one of the most promising photocatalytic materials, in which the π bridge is known to play an important role in influencing the photocatalytic performance. So far, much effort has been directed at the designing of the different π bridge structure to facilitate the photo‐induced charge separation. However, the orientation of the π bridge units (configurational isomerism) has not been considered. In this paper, a pair of pyridine‐bridged D‐π‐A type CTFs, named TFA‐P1‐CTF and TFA‐P2‐CTF, were designed to investigate how the orientation of the π bridge would influence their performance in the photocatalytic oxidation of olefins into carbonyl compounds. Interestingly, due to the superior charge separation capability, TFA‐P2‐CTF was found to be able to catalyze the reaction more efficiently than TFA‐P1‐CTF. Our study eventually provided a guide for the design of D‐π‐A type CTFs as high‐performance photocatalytic materials via tuning the configurational isomerism of the π bridge unit for use in chemical transformations. [ABSTRACT FROM AUTHOR]

Published

2024

15. Construction of Concentration Quenching‐Resistant Multi‐Resonance TADF Emitters via Positional Isomerization for OLEDs.

Author

Xiao, Xiong, Hu, Jia‐Jun, Huo, Zhong‐Zhong, Liang, Jia‐Qi, Yang, Bo, Hong, Xian‐Fang, Chen, Zong‐Ju, Wang, Yu, Li, Cheng‐Hui, and Zheng, You‐Xuan

Subjects

*DELAYED fluorescence, *QUANTUM efficiency, *DOPING agents (Chemistry), *INTERMOLECULAR interactions, *ORGANIC light emitting diodes, *ISOMERISM

Abstract

Multiple resonance thermally activated delayed fluorescence (MR‐TADF) emitters are promising for high‐definition organic light‐emitting diodes (OLEDs) due to their high exciton utilization and color purity. However, strong interchromophore interactions cause most MR‐TADF emitters with planar structures to aggregate at high doping concentrations, leading to degraded efficiencies. Herein, using benzenesulfonyl‐functionalized dibenzothiophene sulfoximine with steric effects, three MR‐TADF emitters (2SBN, 3SBN, and 4SBN) are synthesized by coupling the classic DtBuCzB skeleton at different sites. Three emitters exhibit green or blue‐green emission with full width at half maximum (FWHM) values less than 29 nm and photoluminescence quantum yields exceeding 90%. OLEDs based on 2SBN, 3SBN, and 4SBN achieve high maximum external quantum efficiency (EQEmax) values of 30.1%, 27%, and 33.8%, respectively, at a 5 wt.% doping concentration. Notably, due to the distorted conformation of 4SBN and suppressed intermolecular interaction, the OLED remains high EQEmax of 28.9% at a doping concentration of 20 wt.%. These results demonstrate the feasibility of molecular design to modulate spatial conformations via positional isomerism to develop MR‐TADF emitters with reduced concentration quenching. [ABSTRACT FROM AUTHOR]

Published

2024

16. Gold Nanoclusters Whose Photoluminescent Properties are Dynamically Tunable by Modulating the Assembly Pathway Complexity.

Author

Shen, Jinglin, Zhou, Fengjie, Yu, You, Zhang, Ensheng, Qi, Wei, and Zhang, Yongjie

Subjects

*GOLD clusters, *OPTICAL materials, *INFRARED spectroscopy, *ISOMERISM, *HYDROGEN bonding, *ISOPROPYL alcohol

Abstract

Modulating the assembly pathway is an indispensable strategy for optimizing the performance of optical materials. However, implementing this strategy is nontrivial for metal nanocluster building blocks, due to the limited functional modification of nanoclusters and complexity of their emission mechanism. In this report, we demonstrate that a gold nanocluster modified by 4,6‐diamino‐2‐pyrimidinethiol (DPT‐AuNCs) self‐assembles into two distinct aggregation structures in methanol (MeOH)/water mixed solvent, thus exhibiting pathway complexity. Kinetic studies show that DPT‐AuNCs firstly assembles into non‐luminescent nanofibers (kinetically controlled), which further transforms into strongly luminescent microflowers (thermodynamically controlled). In‐depth analysis of the assembly mechanism reveals that the transformation of aggregation structures involves the disassembly of nanofibers and a subsequent nucleation‐growth process. Temperature‐dependent photoluminescence (PL) spectroscopy and infrared (IR) measurements reveal that inter‐cluster hydrogen bonding bridged by solvent molecules and C−H⋅⋅⋅π interaction are the key factors for emission enhancement. The photoluminescent property of DPT‐AuNCs can be controlled by varying the cosolvent in water, enabling DPT‐AuNCs to distinguish different kind of alcohols, particularly the isomerism n‐propanol (NPA) and isopropanol (IPA). Additionally, the addition of seeds effectively regulate the assembly kinetics of DPT‐AuNCs. This study advances our understanding of assembly pathways and improves the luminescent performance of nanoclusters (NCs). [ABSTRACT FROM AUTHOR]

Published

2024

17. The Influence of Positional Isomerism of Terminal Alkyl Chains on Mesomorphic and Photophysical Behavior of Unsymmetric α-cyanostilbene-based Tetracatenars.

Author

Gao, Tianzhi, Liang, Yurun, Liu, Nana, Wen, Xiaorong, Liu, Xiaotong, Gao, Hongfei, and Xiao, Yulong

Subjects

*COUPLING reactions (Chemistry), *SUZUKI reaction, *LIQUID crystals, *CYANO group, *ISOMERISM

Abstract

Two series of unsymmetric α-cyanostilbene-based tetracatenars containing three hexadecyl chains at one end and one alkyl chain with varying lengths at the other end were prepared by using Suzuki coupling and Knoevenagel reactions. These tetracatenars with the terminal three hexadecyl chains, which are adjacent to the cyano group are non-mesogens, whereas the isomers with one alkyl chain, which is adjacent to the cyano group display transition from non-mesogens to monotropic hexagonal columnar liquid crystal upon elongation of the alkyl chain. This transition could be attributed to that the three hexadecyl chains which are adjacent to the cyano group decrease the interactions between π-conjugated rigid cores, hindering the formation of mesophase. In addition, weak slovatochromism implies weak ICT in both series tetracatenars. Both series isomers exhibit distinct AIE characteristics attributing to the presence of α-cyanostilbene, which could induce stereoisomerism and restricted intermolecular rotation in the aggregated state. Different mechanochromism behaviors could be achieved due to the positional isomerism of terminal alkyl chains. Therefore, tuning the position of terminal alkyl chains could give rise to distinct changes in the molecular aggregate, which provides a scheme to build multifunctional materials with diverse potentials. [ABSTRACT FROM AUTHOR]

Published

2024

18. Heteroleptic Complexes of Ruthenium Nitrosyl with Pyridine and Bypiridine—Synthesis and Photoisomerization.

Author

Brovko, Anastasiya O., Kuratieva, Natalya V., Pishchur, Denis P., and Kostin, Gennadiy A.

Subjects

*RUTHENIUM compounds, *ISOMERISM, *RACEMIC mixtures, *BIPYRIDINE, *PHOTOISOMERIZATION, *NITROSYL compounds

Abstract

The reaction of [RuNO(Py)2Cl2OH] with bipyridine in water–ethanol media results in trans-(NO, OH)-[RuNO(Py)(Bpy)ClOH]+ with an acceptable yield (60–70%) as hexafluorophosphate salt. Further treatment of the hydroxy-complex with concentrated HF quantitatively leads to trans-(NO, F)-[RuNO(Py)(Bpy)ClF]+. Despite the chirality of both coordination spheres, the hexafluorophosphate salts crystallized as racemates. A NO-linkage isomerism study of the obtained complexes was performed at 80 K with different excitation wavelengths (405, 450, 488 nm). The most favorable wavelengths for the MS1 isomer (Ru-ON) formation were 405 and 450 nm, where the linkage isomer populations were 17% and 1% for [RuNO(Py)(Bpy)ClOH]PF6 and [RuNO(Py)(Bpy)ClF]PF6. The shift of the excitation wavelength to the green (488 nm) sharply decreased the MS1 population. The IR-spectral signatures of MS1 were registered. Reverse-transformation Ru-ON (MS1)-Ru-NO (GS) was investigated for [RuNO(Py)(Bpy)ClOH]PF6 using IR and DSC techniques that made it possible to determine the kinetic parameters (Ea and k0) and decay temperature. [ABSTRACT FROM AUTHOR]

Published

2024

19. Isomerism of nitratoalkylazoles

Author

Lukas Bauer, Maximilian Benz, Thomas M. Klapötke, Tobias Lenz, Mohamed Mouzayek, Elena Reinhardt, and Jörg Stierstorfer

Subjects

Isomerism, Nitroalkylazoles, TNT, Melt cast, Explosives and pyrotechnics, TP267.5-301

Abstract

In the field of energetic materials, traditional materials with high toxicity or other disadvantages are mostly used. There is an urgent need for trinitrotoluene replacements (TNT), which itself is toxic and its production is problematic due to red wastewater. New materials should be safe to handle, have good performance, and be inexpensive to synthesize. Nitratoalkylazoles are known to have low melting points and good energetic properties compared to TNT. In this paper, seven energetic compounds are synthesized starting from 5-methyltetrazole, 5-hydroxymethyltetrazole and 4,5-bishydroxymethyltriazole. The nitrates are characterized in terms of their physical, chemical, and energetic properties. Of those seven compounds, five are solid, melting between 27 °C and 110 °C, and two are liquid. Methylation and hydroxyalkylation were performed and discussed extensively. The organic nitrate is introduced in the last step so that the synthesis remains safe and scalable. Correlations between the molecular geometry and the melting points are explained. Calculations indicate detonation velocities that are 6%–11% higher than those of TNT. A discussion of the effect of isomerism on the properties leads to surprising insights and should help focus and accelerate research on the replacement of TNT.

Published

2024

20. GET SET GO for JEE with exclusive and brainstorming questions: Class XII.

Subjects

BRAINSTORMING, MANGANESE dioxide, POTASSIUM permanganate, ATOMIC weights, ISOMERISM

Abstract

The article focuses on identifying pairs of chemical complexes that exhibit optical isomerism, including understanding electrode potentials in redox titrations and evaluating the suitability of oxidants in quantitative estimations.

Published

2024

21. Microscopic Aggregation and Film‐Forming Characteristics of Lubricant Additives on Oil–Water Interface: MD Simulation and Experiments on Water Separability.

Author

Shen, Xinhuiyu, Lyu, Ya, and Gong, Yingying

Subjects

*LUBRICANT additives, *PROPYLENE oxide, *LUBRICATING oils, *MOLECULAR dynamics, *DEMULSIFICATION

Abstract

The anti‐emulsification property of lubricating oil is an important index to measure the quality of oil. In this paper, the behaviour of surfactants such as lubricating oil additives at the oil–water interface and the influence of the position of ethylene oxide (EO) and propylene oxide (PO) in the block polyether demulsifier on the demulsification effect were investigated by molecular simulation and experimental verification. The properties of seven lubricating oil additives with different functions and two pairs of isomers were investigated by molecular simulation, and their demulsification effects were verified by experiments. Some simulation results such as interface thickness and density distribution can accurately predict the experimental demulsification effect. Moreover, it was found that the position isomerism of surfactants affected the demulsification performance by changing the lipophilic balance and interface properties. The demulsification performance of sequenced copolymers is generally better than that of anti‐sequenced copolymers. The accurate prediction of molecular dynamics simulation makes the selection of lubricating oil demulsifier more extensive and has practical application value. [ABSTRACT FROM AUTHOR]

Published

2024

22. Complex isomerism influencing the textural properties of organometallic [Cu(salen)] porous polymers: paramagnetic solid-state NMR characterization and heterogeneous catalysis.

Author

Šorm, David, Blahut, Jan, Bashta, Bogdana, Císařová, Ivana, Vrbková, Eva, Vyskočilová, Eliška, and Sedláček, Jan

Subjects

*POROUS polymers, *HETEROGENEOUS catalysis, *POLYMER networks, *ISOMERISM, *ORGANOMETALLIC polymers, *COPPER, *HETEROGENEOUS catalysts, *COORDINATION polymers

Abstract

Although organometallic porous polymer networks are recognized as promising heterogeneous catalysts, the relationship between ligand/monomer geometry and network parameters is usually not well understood due to the lack of atom-resolved characterization methods for the amorphous network matrix. In this work, a series of copper(II) salen-type metal complexes was synthesized, using trans- and cis-1,2-diaminocyclohexane segments, and thoroughly characterized by single-crystal X-ray diffraction and solution- and solid-state NMR spectroscopy. Terminal ethynyl groups of the complexes were then transformed into polyacetylene chains by coordination chain-growth homopolymerization, resulting in highly porous (458–655 m2 g−1) organometallic polymer networks with a copper(II) ion content of about 12 wt%. The presence of paramagnetic copper(II) moieties in these complexes and respective polymer networks required the application of tailored NMR techniques, which together with X-ray crystallography and DFT calculations of the paramagnetic NMR shifts made it possible to investigate the differences in the complex geometry in liquid, powder and crystalline form and compare it with the complex geometry in polymer networks. All prepared organometallic polymer networks were also tested as heterogeneous catalysts for styrene oxidation with uncommonly high substrate conversions and compared with their low-molecular-weight analogues. The high reusability of such heterogeneous polymer-based catalysts was also proven. [ABSTRACT FROM AUTHOR]

Published

2024

23. Divalent Titanium via Reductive N−C Coupling of a TiIV Nitrido with π‐Acids.

Author

Bhunia, Mrinal, Sandoval‐Pauker, Christian, Fehn, Dominik, Grant, Lauren N., Senthil, Shuruthi, Gau, Michael R., Ozarowski, Andrew, Krzystek, J., Telser, Joshua, Pinter, Balazs, Meyer, Karsten, and Mindiola, Daniel J.

Subjects

*REDUCTIVE coupling reactions (Chemistry), *ELECTRON paramagnetic resonance spectroscopy, *MAGNETIZATION measurement, *ISOMERISM, *LIGANDS (Chemistry)

Abstract

The nitrido‐ate complex [(PN)2Ti(N){μ2‐K(OEt2)}]2 (1) (PN−=(N‐(2‐PiPr2‐4‐methylphenyl)‐2,4,6‐Me3C6H2) reductively couples CO and isocyanides in the presence of DME or cryptand (Kryptofix222), to form rare, five‐coordinate TiII complexes having a linear cumulene motif, [K(L)][(PN)2Ti(NCE)] (E=O, L=Kryptofix222, (2); E=NAd, L=3 DME, (3); E=NtBu, L=3 DME, (4); E=NAd, L=Kryptofix222, (5)). Oxidation of 2–5 with [Fc][OTf] afforded an isostructural TiIII center containing a neutral cumulene, [(PN)2Ti(NCE)] (E=O, (6); E=NAd (7), NtBu (8)) and characterization by CW X‐band EPR spectroscopy, revealed unpaired electron to be metal centric. Moreover, 1e− reduction of 6 and 7 in the presence of Kryptofix222cleanly reformed corresponding discrete TiII complexes 2 and 5, which were further characterized by solution magnetization measurements and high‐frequency and ‐field EPR (HFEPR) spectroscopy. Furthermore, oxidation of 7 with [Fc*][B(C6F5)4] resulted in a ligand disproportionated TiIV complex having transoid carbodiimides, [(PN)2Ti(NCNAd)2] (9). Comparison of spectroscopic, structural, and computational data for the divalent, trivalent, and tetravalent systems, including their 15N enriched isotopomers demonstrate these cumulenes to decrease in order of backbonding as TiII→TiIII→TiIV and increasing order of π‐donation as TiII→TiIII→TiIV, thus displaying more covalency in TiIII species. Lastly, we show a synthetic cycle whereby complex 1 can deliver an N‐atom to CO and CNAd. [ABSTRACT FROM AUTHOR]

Published

2024

24. Synthesis and In vitro evaluation of bichalcones as novel anti-toxoplasma agents.

Author

Mazzone, Flaminia, Klischan, Moritz K. T., Greb, Julian, Smits, Sander H. J., Pietruszka, Jörg, Pfeffer, Klaus, Shaik, Afzal Basha, and Kasireddy, Sudarsan (Sudarshan)

Subjects

*TOXOPLASMA gondii, *STEREOISOMERS, *ISOMERISM, *BIOACTIVE compounds, *ANTI-infective agents

Abstract

Toxoplasmosis is a zoonotic disease caused by Toxoplasma gondii, an apicomplexan parasite that infects approximately a third of the world's human population. This disease can cause serious complications during pregnancy and can be fatal in immunocompromised hosts. The current treatment options for toxoplasmosis face several limitations. Thus, to address the urgent medical need for the discovery of novel anti-toxoplasma potential drug candidates, our research focused on exploring a series of monomeric and dimeric chalcones, polyphenolic molecules belonging to the class of flavonoids. Chalcones 1aa-1bg and axially chiral A-A'-connected bichalcones 2aa-2bg were evaluated in vitro against the proliferation of the parasite in a cell-based assay. A comparison of the efficacy demonstrated that, in several cases, bichalcones exhibited increased bioactivity compared to their corresponding monomeric counterparts. Among these compounds, a bichalcone with a phenyl substituent and a methyl moiety 2ab showed the most potent and selective inhibitory activity in the nanomolar range. Both enantiomers of this bichalcone were synthesized using an axially chiral biphenol building block. The biaryl bond was forged using Suzuki cross-coupling in water under micellar catalysis conditions. Separation of the atropisomers of this biphenol building block was conducted by chiral HPLC on a preparative scale. The biological evaluation of the enantiomers revealed that the (Ra)-enantiomer (Ra)-2ab is the eutomer. These studies suggest that bichalcones may be important drug candidates for further in vivo evaluations for the discovery of anti-toxoplasma drugs. [ABSTRACT FROM AUTHOR]

Published

2024

25. Thermophysical properties of the liquid organic hydrogen carrier system based on benzyltoluene considering influences of isomerism and dissolved hydrogen.

Author

Kerscher, Manuel, Jander, Julius H., Cui, Junwei, Maurer, Lukas A., Wolf, Patrick, Hofmann, Jonas D., Köksal, Anil, Zachskorn, Hannah, Auer, Franziska, Schulz, Peter S., Wasserscheid, Peter, Rausch, Michael H., Koller, Thomas M., and Fröba, Andreas P.

Subjects

*THERMOPHYSICAL properties, *LIQUID hydrogen, *ISOMERISM, *VAPOR-liquid equilibrium, *INTERFACIAL tension, *SURFACE tension, *THERMAL diffusivity

Abstract

The benzyltoluene (BT)-based liquid organic hydrogen carrier (LOHC) system currently considered for large-scale applications represents a mixture of regioisomers. To characterize this complex system, a comprehensive experimental database for various thermophysical properties of synthesized BT isomers and their mixtures without and with the presence of hydrogen (H 2) close to vapor-liquid equilibrium is established using optical and conventional techniques at process-relevant temperatures and pressures up to 573 K and 6 MPa. The surface tension varies by less than 4% among the dehydrogenated (H0-BT) or hydrogenated (H12-BT) isomers. The density and viscosity of mixtures of H0-BT or H12-BT isomers can be described by simple mixing rules with average absolute relative deviations of 0.022% and 0.38%. With increasing H 2 pressure, the viscosity remains nearly constant, while the interfacial tension decreases by up to 5%. The thermal and mutual diffusivity of H12-ortho-BT containing dissolved H 2 at 6 MPa decrease and increase with increasing temperature. [Display omitted] • Synthesis of high-purity regioisomers of LOHC system based on benzyltoluene (BT). • Optical and conventional techniques applied up to 573 K and 6 MPa hydrogen (H 2). • Minor variation in density and surface tension among BT or its hydrogenated isomers. • Large effect of isomeric mixture composition on viscosity with variations up to 33%. • First temperature-dependent data for thermal and Fick diffusivity of BT-H 2 system. [ABSTRACT FROM AUTHOR]

Published

2024

26. Challenges in Managing Ivemark’s Syndrome With Complete Congenital Heart Disease and Asplenia: A Rare Case Report From Developing Country.

Author

Safrida, Elysa Nur, Syahputra, Reza, Hartomo, Tri Budi, Anggraini, Alifah, Wibowo, Tunjung, Wandita, Setya, and Haksari, Ekawaty Lutfia

Subjects

*SITUS inversus, *FETAL echocardiography, *CONGENITAL heart disease, *INFECTION prevention, *FACIAL abnormalities

Abstract

Ivemark’s syndrome or right-isomerism sequence is a rare condition in newborn, manifests with asplenia, complex congenital heart disease, and situs ambiguous. Diagnosis and managing this syndrome remain challenging, especially in developing countries. The mainstay of management involves surgical correction of cardiac abnormalities and infection prevention. We present a case of a newborn who exhibited cyanosis since birth and developed persistent respiratory distress despite intubation. The mother had not undergone fetal echocardiography or other prenatal screening. Upon physical examination, he looked respiratory distress with SpO2 ranging from 29-70%. A systolic murmur was heard during cardiac examination, with no abnormalities observed in the face, abdomen, and extremities. Plain radiographs revealed situs inversus, right-located stomach and midline-located liver. This finding was supported by abdominal ultrasound and MSCT, which showed absence of the spleen and a right-sided pancreas. Echocardiography and cardiac catheterization identified situs ambiguous, along with complex cardiac anomalies. These findings confirmed the diagnosis of Ivemark’s syndrome. Plans were made to transfer the infant to national cardiovascular center for cardiac surgery. Unfortunately, the infant succumbed to infection at three months of age. This case highlights the significant challenges in managing rare diseases, particularly Ivemark’s syndrome in developing countries. Limited access to advanced diagnostic tools and specialized cardiac surgical expertise complicate timely diagnosis and intervention. The potential causes of mortality associated with complex cardiac malformation, the increased risk of severe infections due to asplenia, or a combination of both factors. [ABSTRACT FROM AUTHOR]

Published

2024

27. Isomeric differentiation of bile acids using three‐dimensional MS2 spectrum.

Author

Niu, Xiaoya, Zhou, Yuxuan, Zhao, Wenhui, Li, Xiaoyun, Ren, Luyao, Tu, Pengfei, Liu, Wenjing, and Song, Yuelin

Subjects

*STRUCTURAL isomers, *ISOMERISM, *DAUGHTER ions, *BILE acids, *MASS spectrometry

Abstract

Bile acids (BAs) currently occupy the research hotspot because of their unreplaceable physiological functions as well as their unique abilities to reflect the physiopathological status. It is always challenging to characterize BAs‐submetabolome using LC–MS/MS, primarily attributing to the high‐level structural diversity. The key obstructing confirmative identification is isomeric identification because of the inherent "isomer‐blind" disadvantage of MS/MS. The isomerism styles of BAs are broadly divided into: type‐I, 5α‐H and 5β‐H epimers; type‐II, α‐OH and β‐OH epimers; type‐III, C‐OH positional isomers; and type‐IV, hybrid isomers bearing two or more isomerism fashions. Herein, we aim to comprehensively pursue isomer‐selective clues for BAs through constructing three‐dimensional MS2 (3D‐MS2) spectrum that was accomplished by fortifying energy‐resolved MS (ER‐MS) program as the new dimension. The breakdown graphs of primary MS2 spectral signals composed of 3D‐MS2 spectrum namely full collision energy ramp (FCER)‐MS2 spectrum for each BA species after appropriate normalization, and seven isomeric BAs covering all isomerism styles were utilized as representative cases. After recording MS2 spectra with progressive CE levels, differences were observed for their FCER‐MS2 spectra. Diagnostic fragment ions (DFIs) occurred within type‐I, type‐II, type‐III or type‐IV isomers, and noteworthily, 2.02 Da neutral loss discriminated BAs containing cis‐6,7‐diol and trans‐6,7‐diol functional groups. Notably, the features such as the maximal relative ion intensity (RIImax) and optimal CE (OCE) enabled isomeric differentiation for all types, even type‐II and type‐III isomers. Above all, it is feasible to acquire in‐depth isomer‐selective MS/MS clues for BAs using FCER‐MS2 spectrum, regardless of the isomerism manner. [ABSTRACT FROM AUTHOR]

Published

2024

28. Photochemical Generation and Characterization of C -Aminophenyl-Nitrilimines: Insights on Their Bond-Shift Isomers by Matrix-Isolation IR Spectroscopy and Density Functional Theory Calculations.

Author

Lopes Jesus, A. J., Nunes, Cláudio M., Ferreira, Gil A., Keyvan, Kiarash, and Fausto, R.

Subjects

*GEOMETRIC distribution, *DENSITY functional theory, *ISOMERISM, *ISOMERS, *NITRILIMINES

Abstract

The intriguing ability of C-phenyl-nitrilimine to co-exist as allenic and propargylic bond-shift isomers motivated us to investigate how substituents in the phenyl ring influence this behavior. Building on our previous work on the meta- and para-OH substitution, here we extended this investigation to explore the effect of the NH2 substitution. For this purpose, C-(4-aminophenyl)- and C-(3-aminophenyl)-nitrilimines were photogenerated in an argon matrix at 15 K by narrowband UV-light irradiation (λ = 230 nm) of 5-(4-aminophenyl)- and 5-(3-aminophenyl)-tetrazole, respectively. The produced nitrilimines were further photoisomerized to carbodiimides via 1H-diazirines by irradiations at longer wavelengths (λ = 380 or 330 nm). Combining IR spectroscopic measurements and DFT calculations, it was found that the para-NH2-substituted nitrilimine exists as a single isomeric structure with a predominant allenic character. In contrast, the meta-NH2-substituted nitrilimine co-exists as two bond-shift isomers characterized by propargylic and allenic structures. To gain further understanding of the effects of phenyl substitution on the bond-shift isomerism of the nitrilimine fragment, we compared geometric and charge distribution data derived from theoretical calculations performed for C-phenyl-nitrilimine with those performed for the derivatives resulting from NH2 (electron-donating group) and NO2 (electron-withdrawing group) phenyl substitutions. [ABSTRACT FROM AUTHOR]

Published

2024

29. Ligand Isomerization Driven Electrocatalytic Switching.

Author

Kottaichamy, Alagar Raja, Nazrulla, Mohammed Azeezulla, Parmar, Muskan, Thimmappa, Ravikumar, Devendrachari, Mruthyunjayachari Chattanahalli, Vinod, Chathakudath Prabhakaran, Volokh, Michael, Kotresh, Harish Makri Nimbegondi, Shalom, Menny, and Thotiyl, Musthafa Ottakam

Subjects

*LIGANDS (Chemistry), *ISOMERIZATION, *ISOMERISM, *OXYGEN reduction, *CHEMICAL kinetics

Abstract

The prevailing view about molecular catalysts is that the central metal ion is responsible for the reaction mechanism and selectivity, whereas the ligands mainly affect the reaction kinetics. Here, we question this paradigm and show that ligands have a dramatic influence on the selectivity of the product. We show how even a seemingly small change in ligand isomerization sharply alters the selectivity of the well‐researched oxygen reduction reaction (ORR) Co phthalocyanine catalyst from an indirect 2e− to a direct 4e− pathway. Detailed analysis reveals that intramolecular hydrogen‐bond interactions in the ligand activate the catalytic Co, directing the oxygen binding and thus deciding the final product. The resulting catalyst is the first example of a Co‐based molecular catalyst catalyzing a direct 4e− ORR via ligand isomerization, for which it shows an activity close to the benchmark Pt in an actual H2−O2 fuel cell. The effect of the ligand isomerism is demonstrated with different central metal ions, thus highlighting the generalizability of the findings and their potential to open new possibilities in the design of molecular catalysts. [ABSTRACT FROM AUTHOR]

Published

2024

30. Configurational Isomerism in Bimetallic Decametalates.

Author

Kondinski, Aleksandar

Subjects

*DENSITY functional theory, *ISOMERISM, *NATURAL numbers, *ISOMERS, *POLYOXOMETALATES, *MOLYBDENUM

Abstract

In this work, we report on the development of a computational algorithm that explores the configurational isomer space of bimetallic decametalates with general formula M x M 10 − x ′ O 28 q . For x being a natural number in the range of 0 to 10, the algorithm identifies 318 unique configurational isomers. The algorithm is used to generate mixed molybdenum(VI)–vanadium(V) systems Mo x V 10 − x O 28 8 − for x = 0 , 1 , 2 , and 3 that are of experimental relevance. The application of the density functional theory (DFT) effectively predicts stability trends that correspond well with empirical observations. In dimolybdenum-substituted decavanadate systems, we discover that a two-electron reduction preferentially stabilizes a configurational isomer due to the formation of metal–metal bonding. The particular polyoxometalate structure is of interest for further experimental studies. [ABSTRACT FROM AUTHOR]

Published

2024

31. Methyl α‐D‐galactopyranosyl‐(1→3)‐β‐D‐galactopyranoside and methyl β‐D‐galactopyranosyl‐(1→3)‐β‐D‐galactopyranoside: Glycosidic linkage conformation determined from MA'AT analysis

Author

Meredith, Reagan, Zhu, Yuping, Yoon, Mi‐Kyung, Tetrault, Timothy, Lin, Jieye, Zhang, Wenhui, McGurn, Margaret, Cook, Evan, Popp, Reed, Shit, Pradip, Carmichael, Ian, and Serianni, Anthony S.

Subjects

*DENSITY functional theory, *DIHEDRAL angles, *ISOMERISM, *MOLECULAR dynamics, *DISTRIBUTION (Probability theory)

Abstract

MA'AT analysis has been applied to two biologically‐important O‐glycosidic linkages in two disaccharides, α‐D‐Galp‐(1→3)‐β‐D‐GalpOMe (3) and β‐D‐Galp‐(1→3)‐β‐D‐GalpOMe (4). Using density functional theory (DFT) to obtain parameterized equations relating a group of trans‐O‐glycosidic NMR spin‐couplings to either phi (ϕ') or psi (ψ'), and experimental 3JCOCH, 2JCOC, and 3JCOCC spin‐couplings measured in aqueous solution in 13C‐labeled isotopomers, probability distributions of ϕ' and ψ' in each linkage were determined and compared to those determined by aqueous 1‐μs molecular dynamics (MD) simulation. Good agreement was found between the MA'AT and single‐state MD conformational models of these linkages for the most part, with modest (approximately <15°) differences in the mean values of ϕ' and ψ', although the envelope of allowed angles (encoded in circular standard deviations or CSDs) is consistently larger for ϕ' determined from MA'AT analysis than from MD for both linkages. The MA'AT model of the α‐Galp‐(1→3)‐β‐Galp linkage agrees well with those determined previously using conventional NMR methods (3JCOCH values and/or 1H‐1H NOEs), but some discrepancy was observed for the β‐Galp‐(1→3)‐β‐Galp linkage, which may arise from errors in the conventions used to describe the linkage torsion angles. Statistical analyses of X‐ray crystal structures show ranges of ϕ' and ψ' for both linkages that include the mean angles determined from MA'AT analyses, although both angles adopt a wide range of values in the crystalline state, with ϕ' in β‐Galp‐(1→3)‐β‐Galp linkages showing greater‐than‐expected conformational variability. [ABSTRACT FROM AUTHOR]

Published

2024

32. Ultrasound and computed tomography angiography diagnosis of fetal right atrial isomerism with cardiac total anomalous pulmonary venous connection and intestinal malrotation: a case report and literature review.

Author

Gao, Junxia, Ou, Hongping, Xing, Hui, Chen, Hui, Huang, Yanli, Cao, Feng, and Wang, Yu

Subjects

*LITERATURE reviews, *COMPUTED tomography, *ISOMERISM, *ANGIOGRAPHY, *ULTRASONIC imaging, *VOLVULUS

Abstract

Right atrial isomerism is a rare and severe isomerism. It is frequently associated with complex congenital heart disease and various extracardiac anomalies. Imaging diagnosis of right atrial isomerism is a challenge. Multisystem and complex anomalies in a 24-week-old fetus were diagnosed with prenatal ultrasound, postnatal computed tomography angiography (CTA), and autopsy. The ultrasound detected most major cardiovascular anomalies including right atrial isomerism and total anomalous pulmonary venous connection. The CTA further detected thoracic and abdominal malformations such as bilateral morphologically right bronchus, diaphragmatic hernia, asplenia, midline liver, and intestinal malrotation. The autopsy confirmed both ultrasound and CTA findings with additional findings, namely, bilateral trilobed lungs and bilateral morphological right auricles. Prenatal ultrasound and postnatal CTA can be complementary to each other in detecting multi-system complex anomalies. Their combined use can be useful for prenatal counseling and postpartum management. [ABSTRACT FROM AUTHOR]

Published

2024

33. Unpredictable Dynamic Behaviour of Ruthenium Chelate Pyrrole Derivatives.

Author

Drius, Giacomo, Tarroni, Riccardo, Birchmeier, Matteo, Parolin, Carola, Boga, Carla, Monari, Magda, and Bordoni, Silvia

Abstract

Abstract: Reaction of [Ru(H)2 (CO)(PPh3 )3 ] 1 with an equimolar amount of pyrrole-2-carboxylic acid (H2L1) leads to the homoleptic chelate derivative k2 (O,O)-[RuH(CO)(HL1 )(PPh3 )2 ] 2. Prolonged acetonitrile refluxing promotes an unusual k2 (O,O)- → k2 (N,O)- dynamic chelate conversion, forming a neutral, stable, air- and moisture- insensitive, solvento-species k2 (N,O)-[Ru(MeCN) (CO)(L1 )(PPh3 )2 ] 3. Analogously, reaction of 1 with the pyrrole-2-carboxyaldehyde (HL2) affords k2 (N,O)-[RuH(CO)(HL2 )(PPh3 )2 ] 4, 5, as a couple of functional isomers. Optimized reaction conditions such as temperature and solvent polarity allow the isolation of dominant configurations. Structure 5 is a pyrrolide Ru-carbaldehyde, obtained from cyclization of the pendant CHO function, whereas species 4 can be viewed as an ethanoyl-conjugated Ru-pyrrole. Derivatives 3–5 were characterized by single crystal X-ray diffraction, ESI-Ms, IR, and NMR spectroscopy, indicating distinct features for the Ru-bonded pyrrolyl groups. DFT computational results, coplanarity, bond equalization, and electron delocalization along the fused five-membered rings support aromatic features. In accordance with the antisymbiotic trans-influence, both the isolated isomers 4 and 5 disclose CO ligands opposite to N- or O-anionic groups. The quantitative Mayer bond order evidences a stabilizing backbonding effect. Antibacterial and antifungal trials on Gram-positive (Staphylococcus aureus), Gram-negative (Escherichia coli), and Candida albicans were further carried out. [ABSTRACT FROM AUTHOR]

Published

2024

34. Synthesis, structure and cytotoxicity of novel tetrazolo[1',5'-c]-fused 3-aza-A-homosteroids.

Author

Rodionov, Evgenii I., Rodionova, Alina A., Zorina, Alla D., Khoroshilova, Olesya V., Suslonov, Vitalii V., Lider, Elizaveta V., Golubeva, Yuliya A., Klyushova, Lyubov S., Porozov, Yuri B., Kuzmich, Nikolay N., and Trifonov, Rostislav E.

Subjects

*DOUBLE bonds, *STRUCTURAL isomers, *CYTOTOXINS, *ISOMERISM, *NUCLEAR magnetic resonance spectroscopy

Abstract

[Display omitted] A series of new 1 'H -tetrazolo[1 ' ,5 ' - c ]-fused 3-aza-A- homosteroids were synthesized by azidation of progesterone, testosterone and hydrocortisone acetate in the presence of silicon tetrachloride. According to NMR spectroscopy and X-ray analysis, two double bond positional isomers (double bond in ring A or in ring B) are formed in various ratios; according to quantum chemical calculations, their energies are close within 0.4 kcal mol-1. Only low cytotoxic activity against Hep-2, MCF-7, HepG2, and Hek293 cell lines was determined in vitro for the compounds obtained. [ABSTRACT FROM AUTHOR]

Published

2024

35. Dynamics of Coordinated Phosphonate Group Directly Observed by 17O‐NMR in Lanthanide(iii) Complexes of a Mono(ethyl phosphonate) DOTA Analogue.

Author

Svítok, Adam, Blahut, Jan, Urbanovský, Peter, and Hermann, Petr

Subjects

*ACID derivatives, *ISOMERISM, *RARE earth metals, *METAL ions, *COMPLEX ions, *ENERGY consumption, *PHOSPHONATES

Abstract

Biological phosphates can coordinate metal ions and their complexes are common in living systems. Dynamics of mutual oxygen atom exchange in the tetrahedral group in complexes has not been investigated. Here, we present a direct experimental proof of exchange ("phosphonate rotation") in model Ln(III) complexes of monophosphonate H4dota analogue which alters phosphorus atom chirality of coordinated phosphonate monoester. Combination of macrocycle‐based isomerism with P‐based chirality leads to several diastereoisomers. (Non)‐coordinated oxygen atoms were distinguished through 17O‐labelled phosphonate group and their mutual exchange was followed by various NMR techniques and DFT calculations. The process is sterically demanding and occurs through bulky bidentate (κ2‐PO2)− coordination and was observed only in twisted‐square antiprism (TSA) diastereoisomer of large Ln(III) ions. Its energy demands increase for smaller Ln(III) ions (298ΔG≠(exp./DFT)=51.8/52.1 and 61.0/71.5 kJ mol−1 for La(III) and Eu(III), respectively). These results are helpful in design of such complexes as MRI CA and for protein paramagnetic NMR probes. It demonstrates usefulness of 17O NMR to study solution dynamics in complexes involving phosphorus acid derivatives and it may inspire use of this method to study dynamics of phosphoric acid derivatives (as e. g. phosphorus acid‐based inhibitors of metalloenzymes) in different areas of chemistry. [ABSTRACT FROM AUTHOR]

Published

2024

36. Complexation and disproportionation of group 4 metal (alkoxy) halides with phosphine oxides.

Author

Seno, Carlotta, Pokratath, Rohan, Unniram Parambil, Ajmal Roshan, Van den Eynden, Dietger, Dhaene, Evert, Prescimone, Alessandro, and De Roo, Jonathan

Subjects

*LEWIS bases, *METALS, *METAL halides, *LEWIS acids, *PHOSPHINE oxides, *ISOMERISM, *HALIDES

Abstract

Group 4 Lewis acids are well-known catalysts and precursors for (non-aqueous) sol–gel chemistry. Titanium, zirconium and hafnium halides, and alkoxy halides are precursors for the controlled synthesis of nanocrystals, often in the presence of Lewis base. Here, we investigate the interaction of Lewis bases with the tetrahalides (MX4, X = Cl, Br) and metal alkoxy halides (MXx(OR)4−x, x = 1–3, R = OiPr, OtBu). The tetrahalides yield the expected Lewis acid–base adducts MX4L2 (L = tetrahydrofuran or phosphine oxide). The mixed alkoxy halides react with Lewis bases in a more complex way. 31P NMR spectroscopy reveals that excess of phosphine oxide yields predominantly the complexation product, while a (sub)stoichiometric amount of phosphine oxide causes disproportionation of the MXx(OR)4−x species into MXx+1(OR)3−x and MXx−1(OR)5−x. The combination of complexation and disproportionation yields an atypical Job plot. In the case of zirconium isopropoxy chlorides, we fitted the concentration of all observed species and extracted thermodynamic descriptors from the Job plot. The complexation equilibrium constant decreases in the series: ZrCl3(OiPr) > ZrCl2(OiPr)2 ≫; ZrCl(OiPr)3, while the disproportionation equilibrium constant follows the opposite trend. Using calculations at the DFT level of theory, we show that disproportionation is driven by the more energetically favorable Lewis acid–base complex formed with the more acidic species. We also gain more insight into the isomerism of the complexes. The disproportionation reaction turns out to be a general phenomenon, for titanium, zirconium and hafnium, for chlorides and bromides, and for isopropoxides and tert-butoxides. [ABSTRACT FROM AUTHOR]

Published

2024

37. Polymer Mechanochemistry on Reactive Species Generated from Mechanochemical Reactions†.

Author

Chen, Xiaolong, Shen, Hang, and Zhang, Zhengbiao

Subjects

*REACTIVE polymers, *SMALL molecules, *STEREOCHEMISTRY, *CARBENE synthesis, *POLYMER structure, *ISOMERISM, *POLYMERS, *DISULFIDES

Abstract

Comprehensive Summary: Polymer mechanochemistry on reactive species has attracted more and more attentions over the past 20 years, as the mechanochemical generation of reactive species has a great potential in developing different polymeric materials for various purposes, such as stress detection, self‐healing, self‐strengthening, controllable degradation and release of small molecules. In this review, we first discuss the recent progress on polymer mechanochemistry of the reactive species that are generated from the mechanochemical reactions of mechanophores. Five types of reactive species, including radical, zwitterion, ionic, carbene and neutral intermediates, and their applications were reviewed in detail. Since mechanochemical reactions are sensitive to the mechanophore structure and polymer framework, we then discuss how mechanophore isomerism, polymer structure, polymer attachment point, and polymer architecture influence the mechanophore activation. At last, we provide our perspectives on the polymer mechanochemistry of reactive species. Key Scientists: In the 1930s, a seminal work by Staudinger showed that the molecular weight of poly(styrene) reduced after mastication. However, polymer mechanochemistry mainly focused on the destructive effects of mechanical force, until Moore reported that the azo‐mechanophore was cleaved selectively upon sonication in 2005. Afterwards, his group also found that mechanical force changed the reaction pathway of benzocyclobutene and made spiropyran display purple color under stress. In 2009, Sijbesma revealed that metal–NHC could be used as a latent catalyst to catalyze transesterification and polymerization. Subsequently, the Craig group disclosed the special mechanical reactivity of perfluorocyclobutane in 2011 and examined the influence of polymer backbone on the reactivity of epoxides in 2012. Later, they also reported that the lever‐arm effect enhanced gDBC or gDCC mechanochemistry. Since 2015, Otsuka's group has developed a series of mechanophores that generated various carbon radicals and showed different colors under mechanical force. De Bo subsequently investigated the effect of regio‐ and stereochemistry on the reactivity of furan–maleimide adduct in 2017, and he examined the different mechanisms of the mechanical activation of tetrafluorobenzene–NHC (N‐heterocyclic carbene) adduct in 2020. During that time, the Choi group explored the influence of polymer architecture on the mechanophore activation, and Robb's group utilized a furan‐maleimide adduct to achieve the release of different small molecules. In 2020, Göstl and Herrmann employed the scission of the disulfide within polymers to release drugs and reporting molecules by ultrasound, and the Chen group also investigated the mechanochemistry of diselenides which afforded selenium radicals. In 2021, Boydston's group realized the "flex‐activation" of NHC‐carbodiimide to release NHC small molecules. Recently, the Chen group achieved multistate mechanochromism by combining two Rh structures together through a conjugated connector. In addition, Robb designed a furan‐maleimide adduct to mechanically give a donor–acceptor Stenhouse adduct that reacted with different amines to display various colors. This review has focused on the chemistry of reactive species that are generated from mechanochemical reactions. [ABSTRACT FROM AUTHOR]

Published

2024

38. Shape isomers: status and perspectives across the nuclear chart.

Author

Leoni, S., Fornal, B., Mărginean, N., and Wilson, J. N.

Subjects

*ISOMERS, *POTENTIAL energy surfaces, *ISOMERISM, *NUCLEON-nucleon interactions, *NUCLEAR energy

Abstract

The paper reviews the searches for shape isomers, which are "extreme" example of shape-coexistence phenomena in nuclei. They may appear when highly deformed structures, well localized in the nuclear Potential Energy Surface (PES) in the deformation space, undergo a significant change in shape to match the final state shape, thus leading to a substantially hindered γ decay. This is in sharp contrast to the vast majority of shape-coexistence phenomena, where significant mixing in the initial and final state wave functions is found. So far, the most spectacular examples of shape isomerism are known in fissioning systems in the actinides, although only scarce experimental information is available from experiments conducted more than 20 years ago. Searches in lighter mass regions, guided by theory predictions based on different approaches and experimental investigations on superdeformed systems, are also presented. They point to 64 , 66 Ni as additional examples of prolate deformed shape-isomer-like structures, although with much reduced hindrance with respect to the actinides. Their origin is strictly related to the action of the monopole component of the tensor force of the nucleon-nucleon interaction, which is expected to favor the appearance of deep secondary minima also in the PES of Sn nuclei with masses 112–118. Perspectives in current searches of shape isomerism with modern detection systems, in the actinides regions and in lighter masses, are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

39. Polymer Mechanochemistry on Reactive Species Generated from Mechanochemical Reactions†.

Author

Chen, Xiaolong, Shen, Hang, and Zhang, Zhengbiao

Subjects

REACTIVE polymers, SMALL molecules, STEREOCHEMISTRY, CARBENE synthesis, POLYMER structure, ISOMERISM, POLYMERS, DISULFIDES

Abstract

Comprehensive Summary: Polymer mechanochemistry on reactive species has attracted more and more attentions over the past 20 years, as the mechanochemical generation of reactive species has a great potential in developing different polymeric materials for various purposes, such as stress detection, self‐healing, self‐strengthening, controllable degradation and release of small molecules. In this review, we first discuss the recent progress on polymer mechanochemistry of the reactive species that are generated from the mechanochemical reactions of mechanophores. Five types of reactive species, including radical, zwitterion, ionic, carbene and neutral intermediates, and their applications were reviewed in detail. Since mechanochemical reactions are sensitive to the mechanophore structure and polymer framework, we then discuss how mechanophore isomerism, polymer structure, polymer attachment point, and polymer architecture influence the mechanophore activation. At last, we provide our perspectives on the polymer mechanochemistry of reactive species. Key Scientists: In the 1930s, a seminal work by Staudinger showed that the molecular weight of poly(styrene) reduced after mastication. However, polymer mechanochemistry mainly focused on the destructive effects of mechanical force, until Moore reported that the azo‐mechanophore was cleaved selectively upon sonication in 2005. Afterwards, his group also found that mechanical force changed the reaction pathway of benzocyclobutene and made spiropyran display purple color under stress. In 2009, Sijbesma revealed that metal–NHC could be used as a latent catalyst to catalyze transesterification and polymerization. Subsequently, the Craig group disclosed the special mechanical reactivity of perfluorocyclobutane in 2011 and examined the influence of polymer backbone on the reactivity of epoxides in 2012. Later, they also reported that the lever‐arm effect enhanced gDBC or gDCC mechanochemistry. Since 2015, Otsuka's group has developed a series of mechanophores that generated various carbon radicals and showed different colors under mechanical force. De Bo subsequently investigated the effect of regio‐ and stereochemistry on the reactivity of furan–maleimide adduct in 2017, and he examined the different mechanisms of the mechanical activation of tetrafluorobenzene–NHC (N‐heterocyclic carbene) adduct in 2020. During that time, the Choi group explored the influence of polymer architecture on the mechanophore activation, and Robb's group utilized a furan‐maleimide adduct to achieve the release of different small molecules. In 2020, Göstl and Herrmann employed the scission of the disulfide within polymers to release drugs and reporting molecules by ultrasound, and the Chen group also investigated the mechanochemistry of diselenides which afforded selenium radicals. In 2021, Boydston's group realized the "flex‐activation" of NHC‐carbodiimide to release NHC small molecules. Recently, the Chen group achieved multistate mechanochromism by combining two Rh structures together through a conjugated connector. In addition, Robb designed a furan‐maleimide adduct to mechanically give a donor–acceptor Stenhouse adduct that reacted with different amines to display various colors. This review has focused on the chemistry of reactive species that are generated from mechanochemical reactions. [ABSTRACT FROM AUTHOR]

Published

2024

40. Counting the truxillines—11 or more, the question is now.

Author

Portada, Tomislav and Brkljača, Zlatko

Subjects

*COCAINE, *COUNTING, *DIMERIZATION, *ISOMERISM, *STEREOCHEMISTRY

Abstract

Truxillines are a group of tropane alkaloids present in coca leaves that are formed by photochemical dimerization of cinnamoylcocaine(s). Proportion of different truxilline forms present in cocaine serves as its geographical, manufacture, and storage "fingerprint"; thus, the quantitative determination of truxilline content represents one of the powerful methods of analysis and characterization of cocaine samples. Contrary to the statements repeatedly presented in the literature, namely, that there exist exactly 11 truxillines and that every single truxilline is diastereomer of any other, here we show that, in fact, a total of 15 truxillines exist, which can be divided in two structurally isomeric groups—five mutually diastereomeric truxillates and 10 mutually diastereomeric truxinates. [ABSTRACT FROM AUTHOR]

Published

2024

41. Trans-to-cis isomerization of a platinum(II) complex with two triphosphine ligands via coordination with gold(I) ions.

Author

Nagasato, Kazuki, Baba, Taichi, Soma, Hayato, and Yoshinari, Nobuto

Abstract

The reaction of a square-planar platinum(II) complex containing two bis(2-diphenylphosphinoethyl)phenylphosphine (triphos), [Pt(triphos)2](NO3)2, with [Au(tu)2]Cl (tu = thiourea) gave a new trinuclear AuI2PtII complex, [Pt(triphos)2{Au(tu)}2]Cl2(NO3)2, through Au-P coordination. While the [Pt(triphos)2]2+ unit in [Pt(triphos)2](NO3)2 adopted the trans-meso configuration, only the cis-racemic isomer was observed for [Pt(triphos)2{Au(tu)}2]Cl2(NO3)2. 31P NMR spectroscopy indicated rapid equilibrium among the possible isomers of [Pt(triphos)2]2+, which facilitated the trans-to-cis transformation at the PtII center in this system. Additionally, we observed that this structural transformation led to an increase in the emission intensity. [ABSTRACT FROM AUTHOR]

Published

2024

42. Biosynthesis of Polycyclic Natural Products from Conjugated Polyenes via Tandem Isomerization and Pericyclic Reactions.

Author

Niwa, Kanji, Ohashi, Masao, Xie, Kaili, Chiang, Chen-Yu, Jamieson, Cooper, Sato, Michio, Watanabe, Kenji, Liu, Fang, Tang, Yi, and Houk, Kendall

Subjects

Biological Products, Isomerism, Polyenes, Cyclization

Abstract

We report biosynthetic pathways that can synthesize and transform conjugated octaenes and nonaenes to complex natural products. The biosynthesis of (-)-PF1018 involves an enzyme PfB that can control the regio-, stereo-, and periselectivity of multiple reactions starting from a conjugated octaene. Using PfB as a lead, we discovered a homologous enzyme, BruB, that facilitates diene isomerization, tandem 8π-6π-electrocyclization, and a 1,2-divinylcyclobutane Cope rearrangement to generate a new-to-nature compound.

Published

2023

43. Molecular Dynamics Simulations Guide Chimeragenesis and Engineered Control of Chemoselectivity in Diketopiperazine Dimerases.

Author

Shende, Vikram, Harris, Natalia, Sanders, Jacob, Newmister, Sean, Khatri, Yogan, Movassaghi, Mohammad, Houk, Kendall, and Sherman, David

Subjects

Biosynthesis, Diketopiperazine, Enzyme Mechanisms, Molecular Dynamics, Natural Products, Molecular Dynamics Simulation, Diketopiperazines, Molecular Conformation, Cytochrome P-450 Enzyme System, Isomerism

Abstract

In the biosynthesis of the tryptophan-linked dimeric diketopiperazines (DKPs), cytochromes P450 selectively couple DKP monomers to generate a variety of intricate and isomeric frameworks. To determine the molecular basis for selectivity of these biocatalysts we obtained a high-resolution crystal structure of selective Csp2 -N bond forming dimerase, AspB. Overlay of the AspB structure onto C-C and C-N bond forming homolog NzeB revealed no significant structural variance to explain their divergent chemoselectivities. Molecular dynamics (MD) simulations identified a region of NzeB with increased conformational flexibility relative to AspB, and interchange of this region along with a single active site mutation led to a variant that catalyzes exclusive C-N bond formation. MD simulations also suggest that intermolecular C-C or C-N bond formation results from a change in mechanism, supported experimentally through use of a substrate mimic.

Published

2023

44. Statistical Framework for Identifying Differences in Similar Mass Spectra: Expanding Possibilities for Isomer Identification

Author

Wu, Hoi-Ting, Riggs, Dylan L, Lyon, Yana A, and Julian, Ryan R

Subjects

Analytical Chemistry, Chemical Sciences, Physical Chemistry, Tandem Mass Spectrometry, Chromatography, Liquid, Isomerism, Peptides, Other Chemical Sciences, Medical biochemistry and metabolomics, Analytical chemistry, Chemical engineering

Abstract

Isomeric molecules are important analytes in many biological and chemical arenas, yet their similarity poses challenges for many analytical methods, including mass spectrometry (MS). Tandem-MS provides significantly more information about isomers than intact mass analysis, but highly similar fragmentation patterns are common and include cases where no unique m/z peaks are generated between isomeric pairs. However, even in such situations, differences in peak intensity can exist and potentially contain additional information. Herein, we present a framework for comparing mass spectra that differ only in terms of peak intensity and include calculation of a statistical probability that the spectra derive from different analytes. This framework allows for confident identification of peptide isomers by collision-induced dissociation, higher-energy collisional dissociation, electron-transfer dissociation, and radical-directed dissociation. The method successfully identified many types of isomers including various d/l amino acid substitutions, Leu/Ile, and Asp/IsoAsp. The method can accommodate a wide range of changes in instrumental settings including source voltages, isolation widths, and resolution without influencing the analysis. It is shown that quantification of the composition of isomeric mixtures can be enabled with calibration curves, which were found to be highly linear and reproducible. The analysis can be implemented with data collected by either direct infusion or liquid-chromatography MS. Although this framework is presented in the context of isomer characterization, it should also prove useful in many other contexts where similar mass spectra are generated.

Published

2023

45. Extended isomerism in heteronuclear metal–organic frameworks: synthetic strategies and crystal structures of lanthanide–cobalt–oxydiacetate systems.

Author

Igoa Saldaña, Fernando, López, Agustín, González-Platas, Javier, Suescun, Leopoldo, Kremer, Carlos, and Torres, Julia

Subjects

*METAL-organic frameworks, *CRYSTAL structure, *RARE earth metals, *ISOMERISM, *SPACE groups, *METAL ions

Abstract

Herein, we present the synthesis and crystal structure of a series of heteronuclear metal–organic frameworks consisting of cobalt(II) and lanthanide(III) ions or yttrium(III) ions that are connected by oxydiacetato (oda2−) as a ligand. Our investigation led to the discovery of 16 new compounds that were categorized into two distinct structural types. Bigger lanthanide ions (La to Ho) and Y favor the formation of a neutral, highly porous hexagonal structure (space group P6/mcc). This assembly gives rise to nano-sized channels accommodating a significant number of crystallization water molecules (12–14 per formula unit). Conversely, smaller lanthanide ions (Sm to Lu) and Y favor the formation of an extended anionic cubic network neutralized by Co(II) hexaaqua ions (space group Fd3¯c). Both structures are assembled from the same building blocks, [Ln(oda)3]3− and Co(II), connected by either a syn–anti or an anti–anti carboxylate bridge. Both the hexagonal and cubic compounds show the same general formula [Ln2Co3(oda)6(H2O)6]·nH2O with different numbers of crystallization water molecules. Although the formation of different frameworks from the same combination of ligands and metal ions has already been reported, an exceptionally extended phenomenon is observed in this case, encompassing a total of seven isomers from Sm to Ho and Y. The synthesis of these compounds can be achieved either through a direct reaction at room temperature or by a hydrothermal reaction, and this has a marked influence on the obtained crystal structure. Our findings offer valuable data to discuss the rationale concerning the main chemical aspects of the synthetic strategies that can lead to the isolation of a unique pure phase, especially in systems where two structures are feasible. [ABSTRACT FROM AUTHOR]

Published

2024

46. Suppressing Cis/Trans 'Ring‐Flipping' in Organoaluminium(III)‐2‐Pyridyl Dimers–Design Strategies Towards Lewis Acid Catalysts for Alkene Oligomerisation.

Author

Choudhury, Dipanjana, Lam, Ching Ching, Farag, Nadia L., Slaughter, Jonathan, Bond, Andrew D., Goodman, Jonathan M., and Wright, Dominic S.

Subjects

*ACID catalysts, *LEWIS acids, *ALKENES, *OXIDATION states, *DEMETHYLATION, *LEWIS acidity

Abstract

Owing to its high natural abundance compared to the commonly used transition (precious) metals, as well as its high Lewis acidity and ability to change oxidation state, aluminium has recently been explored as the basis for a range of single‐site catalysts. This paper aims to establish the ground rules for the development of a new type of cationic alkene oligomerisation catalyst containing two Al(III) ions, with the potential to act co‐operatively in stereoselective assembly. Five new dimers of the type [R2Al(2‐py′)]2 (R=Me, iBu; py′=substituted pyridyl group) with different substituents on the Al atoms and pyridyl rings have been synthesised. The formation of the undesired cis isomers can be suppressed by the presence of substituents on the 6‐position of the pyridyl ring due to steric congestion, with DFT calculations showing that the selection of the trans isomer is thermodynamically controlled. Calculations show that demethylation of the dimers [Me2Al(2‐py′)]2 with Ph3C+ to the cations [{MeAl(2‐py')}2(μ‐Me)]+ is highly favourable and that the desired trans disposition of the 2‐pyridyl ring units is influenced by steric effects. Preliminary experimental studies confirm that demethylation of [Me2Al(6‐MeO‐2‐py)]2 can be achieved using [Ph3C][B(C6F5)4]. [ABSTRACT FROM AUTHOR]

Published

2024

47. Unraveling The Impact of Isomerism on Enzymatic Polymerization of Furanic Polyesters.

Author

Silvianti, Fitrilia, Maniar, Dina, Agostinho, Beatriz, de Leeuw, Tijn C., Pelras, Théophile, Dijkstra, Lieke, Woortman, Albert J. J., Dijken, Jur van, Thiyagarajan, Shanmugam, Sousa, Andreia F., and Loos, Katja

Subjects

ISOMERISM, POLYMERS, DIMETHYL sulfate, POLYESTERS, POLYMERIZATION, RENEWABLE natural resources, ISOMERS

Abstract

As awareness of the environmental impact of fossil‐based polymers grows, the demand for biobased alternatives rises. In this context, combining eco‐friendly synthesis techniques with renewable resources is important to produce polymers efficiently and sustainably. Furandicarboxylic acid (FDCA) is one of the key building blocks for producing biobased polymers. However, most studies predominantly focus on 2,5‐FDCA, while FDCA encompasses other noteworthy isomers, namely, 2,4‐ and 3,4‐FDCA. The polymers derived from these two isomers have recently gained attention due to their promising properties. In this study, an environmentally friendly approach for producing biobased polyesters from 2,5‐, 2,4‐, and 3,4‐FDCA dimethyl ester isomers is proposed. The synthesis is conducted under greener conditions, utilizing Candida antarctica lipase B (CALB) enzyme as a biocatalyst. The performance of the enzyme is assessed, revealing CALB preference for polymerizing 2,5‐FDCA over 2,4‐ and 3,4‐FDCA dimethyl ester, which is elucidated by docking analysis. Moreover, CALB shows varying rates of cyclic oligomer formation for each isomer, favoring 2,5‐FDCA cyclization. The structure‐property relationship, encompassing the variation in isomeric structure, is evaluated through structural characterization, thermal analysis, and surface properties. This study primarily emphasized enzymatic polymerization and highlighted its versatility in accommodating different monomer isomeric substitutions. [ABSTRACT FROM AUTHOR]

Published

2024

48. Isomerism of CH2SO: Accurate structural, energetic, and spectroscopic characterization.

Author

Puzzarini, Cristina, Ye, Hexu, and Alessandrini, Silvia

Subjects

*ISOMERISM, *ASTRONOMICAL observations, *INTERSTELLAR medium, *EXTRAPOLATION

Abstract

A recent work [Ye et al. Mon. Not. R. Astron. Soc.2023, 525, 1158] on the gas‐phase formation of t‐HC(O)SH, already detected in the interstellar medium, pointed out that the trans form of HC(S)OH is a potential candidate for astronomical observations. Prompted by these results, the CH2SO family of isomers has been investigated from an energetic point of view using a double‐hybrid density functional in combination with a partially augmented triple‐zeta basis set. This preliminary study showed that the most stable species of the family are the cis and trans forms of HC(O)SH and HC(S)OH. For their structural and spectroscopic characterization, a composite scheme based on coupled cluster (CC) calculations that incorporates up to the quadruple excitations and accounts for the extrapolation to the complete basis set limit and core correlation effects has been employed. This approach opens to the prediction of rotational constants with an accuracy of 0.1%. A hybrid scheme, based on harmonic frequencies computed using the CC singles, doubles and a perturbative treatment of triples method (CCSD(T)) in conjunction with a quadruple‐zeta basis set, allowed us to obtain fundamental vibrational frequencies with a mean absolute error of about 1%. [ABSTRACT FROM AUTHOR]

Published

2024

49. VT‐NMR Analysis of Rotation‐Inversion of N‐(4‐hydroxybutyl)‐N‐(2,2,2‐trifluoroethyl) tert‐butyl Carbamate: Utilizing the −CH2CF3 Appendage as a Reporter on E/Z‐Isomerization

Author

Jameson, Brian and Glaser, Rainer

Subjects

*SIGNAL separation, *LOW temperatures, *ISOMERISM, *CONFORMATIONAL isomers

Abstract

The rotational barrier about the CN carbamate bond of N‐(4‐hydroxybutyl)‐N‐(2,2,2‐trifluoroethyl) tert‐butyl carbamate 1 was determined by variable temperature (VT) 13C and 19F NMR spectroscopy. The −CH2CF3 appendage reports on rotational isomerism and allows for the observation of separate signals for the E‐ and Z‐ensembles at low temperature. The activation barrier for E/Z‐isomerization was quantified using Eyring‐Polanyi theory which requires the measurements of the maximum difference in Larmor frequency Δνmax and the convergence temperature Tc. Both Δνmax and Tc were interpolated by analyzing sigmoidal functions fitted to data describing signal separation and the quality of the superposition of the E‐ and Z‐signals, respectively. Methods for generating the quality‐of‐fit parameters for Lorentzian line shape analysis are discussed. Our best experimental value for the rotational barrier ΔGc≠(1)=15.65±0.13 kcal/mol is compared to results of a higher level ab initio study of the model N‐ethyl‐N‐(2,2,2‐trifluoroethyl) methyl carbamate. [ABSTRACT FROM AUTHOR]

Published

2024

50. Poly(Glutamic Acid‐Lysine) Hydrogels with Alternating Sequence Resist the Foreign Body Response in Rodents and Non‐Human Primates.

Author

Zhou, Xianchi, Cao, Wenzhong, Chen, Yongcheng, Zhu, Zihao, Chen, Yifeng, Ni, Yanwen, Liu, Zuolong, Jia, Fan, Lu, Zhouyu, Ye, Yang, Han, Haijie, Yao, Ke, Liu, Weifeng, Wei, Xinyue, Chen, Shengfu, Wang, Youxiang, Ji, Jian, and Zhang, Peng

Subjects

*FOREIGN bodies, *PRIMATES, *RODENTS, *GLUTAMIC acid, *ISOMERISM, *ZWITTERIONS, *AMINO acids

Abstract

The foreign body response (FBR) to implanted biomaterials and biomedical devices can severely impede their functionality and even lead to failure. The discovery of effective anti‐FBR materials remains a formidable challenge. Inspire by the enrichment of glutamic acid (E) and lysine (K) residues on human protein surfaces, a class of zwitterionic polypeptide (ZIP) hydrogels with alternating E and K sequences to mitigate the FBR is prepared. When subcutaneously implanted, the ZIP hydrogels caused minimal inflammation after 2 weeks and no obvious collagen capsulation after 6 months in mice. Importantly, these hydrogels effectively resisted the FBR in non‐human primate models for at least 2 months. In addition, the enzymatic degradability of the gel can be controlled by adjusting the crosslinking degree or the optical isomerism of amino acid monomers. The long‐term FBR resistance and controlled degradability of ZIP hydrogels open up new possibilities for a broad range of biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2024