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931.
932.
Spectroscopy vs. Electrochemistry: Catalyst Layer Thickness Effects on Operando/In Situ Measurements
Dr. Justus S. Diercks Dr. Juan Herranz Dr. Kathrin Ebner Dr. Nataša Diklić Dr. Maximilian Georgi Piyush Chauhan Dr. Adam H. Clark Dr. Maarten Nachtegaal Prof. Dr. Alexander Eychmüller Prof. Dr. Thomas J. Schmidt 《Angewandte Chemie (International ed. in English)》2023,62(16):e202216633
In recent years, operando/in situ X-ray absorption spectroscopy (XAS) has become an important tool in the electrocatalysis community. However, the high catalyst loadings often required to acquire XA-spectra with a satisfactory signal-to-noise ratio frequently imply the use of thick catalyst layers (CLs) with large ion- and mass-transport limitations. To shed light on the impact of this variable on the spectro-electrochemical results, in this study we investigate Pd-hydride formation in carbon-supported Pd-nanoparticles (Pd/C) and an unsupported Pd-aerogel with similar Pd surface areas but drastically different morphologies and electrode packing densities. Our in situ XAS and rotating disk electrode (RDE) measurements with different loadings unveil that the CL-thickness largely determines the hydride formation trends inferred from spectro-electrochemical experiments, therewith calling for the minimization of the CL-thickness in such experiments and the use of complementary thin-film control measurements. 相似文献
933.
Dr. Jiawen Fang Prof. Dr. Yiou Wang Mariam Kurashvili Dr. Sebastian Rieger Dr. Wiktor Kasprzyk Qingli Wang Prof. Dr. Jacek K. Stolarczyk Prof. Dr. Jochen Feldmann Dr. Tushar Debnath 《Angewandte Chemie (International ed. in English)》2023,62(33):e202305817
Photocatalytic water splitting is a promising approach to generating sustainable hydrogen. However, the transport of photoelectrons to the catalyst sites, usually within ps-to-ns timescales, is much faster than proton delivery (∼μs), which limits the activity. Therefore, the acceleration of abstraction of protons from water molecules towards the catalytic sites to keep up with the electron transfer rate can significantly promote hydrogen production. The photobasic effect that is the increase in proton affinity upon excitation offers means to achieve this objective. Herein, we design photobasic carbon dots and identify that internal pyridinic N sites are intrinsically photobasic. This is supported by steady-state and ultrafast spectroscopic measurements that demonstrate proton abstraction within a few picoseconds of excitation. Furthermore, we show that in water, they form a unique four-level lasing scheme with optical gain and stimulated emission. The latter competes with photocatalysis, revealing a rather unique mechanism for efficiency loss, such that the stimulated emission can act as a toggle for photocatalytic activity. This provides additional means of controlling the photocatalytic process and helps the rational design of photocatalytic materials. 相似文献
934.
Dr. Bjarne Kreitz Dr. Patrick Lott Prof. Dr. Felix Studt Prof. Dr. Andrew J. Medford Prof. Dr. Olaf Deutschmann Prof. Dr. C. Franklin Goldsmith 《Angewandte Chemie (International ed. in English)》2023,62(39):e202306514
The study presents an ab-initio based framework for the automated construction of microkinetic mechanisms considering correlated uncertainties in all energetic parameters and estimation routines. 2000 unique microkinetic models were generated within the uncertainty space of the BEEF-vdW functional for the oxidation reactions of representative exhaust gas emissions from stoichiometric combustion engines over Pt(111) and compared to experiments through multiscale modeling. The ensemble of simulations stresses the importance of considering uncertainties. Within this set of first-principles-based models, it is possible to identify a microkinetic mechanism that agrees with experimental data. This mechanism can be traced back to a single exchange-correlation functional, and it suggests that Pt(111) could be the active site for the oxidation of light hydrocarbons. The study provides a universal framework for the automated construction of reaction mechanisms with correlated uncertainty quantification, enabling a DFT-constrained microkinetic model optimization for other heterogeneously catalyzed systems. 相似文献
935.
Guodong Chen Jinran Sun Jiedong Li Dr. Xiaofan Du Gaojie Xu Prof. Shanmu Dong Prof. Guanglei Cui 《Angewandte Chemie (International ed. in English)》2023,62(31):e202306141
The Germanium (Ge), as a fast-charging and high specific capacity (1568 mAh g−1) alloy anode, is greatly hampered in practical application by poor cyclability. To date, the understanding of cycling performance degradation remains elusive. This study illustrates that, contrary to conventional beliefs, most of the Ge material in failed anodes still retains good integrity and does not undergo severe pulverization. It is revealed that capacity degradation is clearly correlated to the interfacial evolution of lithium hydride (LiH). Tetralithium germanium hydride (Li4Ge2H), as a new species derived from LiH, is identified as the culprit of Ge anode degradation, which is the dominant crystalized component in an ever-growing and ever-insulating interphase. The significantly increased thickness of the solid electrolyte interface (SEI) is accompanied by the accumulation of insulating Li4Ge2H upon cycling, which severely retards the charge transport process and ultimately triggers the anode failure. We believe that the comprehensive understanding of the failure mechanism presented in this study is of great significance to promoting the design and development of alloy anode for the next generation of lithium-ion batteries. 相似文献
936.
氢化物发生-原子荧光光谱法(HG-AFS)是测定土壤样品中硒(Se)的理想方法,常用SePb合金材质的空心阴极灯为激发光源,无色散系统的AFS测硒时存在铅的光谱干扰,但尚未引起广泛关注。本文研究了高浓度Pb对硒测定的影响,并提出一种干扰校正的方法,可对检测结果进行有效校正。同时对还原剂浓度和消解酸的比例进行了优化,在2~40 ng/mL范围内获得Se标准曲线r2=0.9989,检出限为0.0023 ug/g,方法精密度为2.9-9.8%,准确度ΔlogC小于0.035。对南疆铁门关区域地球化学调查样品进行了测定,校正后Se的检测结果合格率为94.0%。此方法具有操作简单、准确高效,能够有效的校正样品中高浓度Pb的干扰,适合于大批量区域地球化学调查样品的检测。 相似文献
937.
Shuanglin He Yuhang Qing Ping Zhang Ying Xiong Qianqian Wu Yaping Zhang Lin Chen Fang Huang Fei Li 《Angewandte Chemie (International ed. in English)》2023,62(20):e202216082
A series of manganese polypyridine complexes were prepared as CO2 reduction electrocatalysts. Among these catalysts, the intramolecular proton tunneling distance for metal hydride formation (PTD-MH) vary from 2.400 to 2.696 Å while the structural, energetic, and electronic factors remain essentially similar to each other. The experimental and theoretical results revealed that the selectivity of CO2 reduction reaction (CO2RR) is dominated by the intramolecular PTD-MH within a difference of ca. 0.3 Å. Specifically, the catalyst functionalized with a pendent phenol group featuring a slightly longer PTD-MH favors the binding of proton to the [Mn−CO2] adduct rather than the Mn center and results in ca. 100 % selectivity for CO product. In contrast, decreasing the PTD-MH by attaching a dangling tertiary amine in the same catalyst skeleton facilitates the proton binding on the Mn center and switches the product from CO to HCOOH with a selectivity of 86 %. 相似文献
939.
Yifan Feng Ruixuan Shi Mingfang Yang Yunlong Zheng Prof. Zhenjie Zhang Prof. Yao Chen 《Angewandte Chemie (International ed. in English)》2023,62(20):e202302436
Enzyme immobilization has been demonstrated to be a favorable protocol for promoting the industrialization of bioactive molecules, but still with formidable challenge. Addressing this challenge, we create a dynamic defect generation strategy for enzyme immobilization by using the dissociation equilibrium of metal-organic frameworks (MOFs) mediated by enzymes. Enzymes can act as “macro ligands” to generate competitive coordination against original ligands, along with the release of metal clusters of MOFs to generate defects, hence promoting the gradual transport of enzymes from the surface to inside. Various enzymes can be efficiently immobilized in MOFs to afford composites with good enzymatic activities, protective performances and exceptional reusabilities. Moreover, multienzyme bioreactors capable of efficient cascade reactions can also be generated. This study provides new opportunities to construct highly efficient biocatalysts incorporating different types of enzymes. 相似文献
940.
Luca C. Greiner Dr. Norihito Arichi Prof. Dr. Shinsuke Inuki Prof. Dr. Hiroaki Ohno 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2023,135(3):e202213653
Phenyl azides substituted by an (alkylphenyl)ethynyl group facilitate benzylic sp3(C−H) functionalization in the presence of a JohnPhosAu catalyst, resulting in indole-fused tetra- and pentacycles via divergent N- or C-cyclization. The chemoselectivity is influenced depending on the counter-anion, the electron density of the α-imino gold(I) carbene, and the alkyl groups stabilizing the benzylic carbocation originating from a 1,5-hydride shift. An isotopic labeling experiment demonstrates the involvement of an indolylgold(I) species resulting from a tautomerization that is much faster than the deauration. The formation of a benzylic sp3(C−H) functionalization leading to an indole-fused seven-membered ring is also demonstrated. 相似文献