Chi-Tien Hsieh scite author profile

Chi-Tien Hsieh

5Publications

82Citation Statements Received

441Citation Statements Given

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National Cheng Kung University

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Gaseous CO₂ Coupling with N-Containing Intermediates for Key C–N Bond Formation during Urea Production from Coelectrolysis over Cu

Yang

Hsieh

et al. 2022

ACS Catal.

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Coelectrolysis of CO2 with simple nitrogen compounds can generate molecules containing C–N bonds, which makes it an appealing method for increasing the value and scope of products obtained from CO2 electrochemical reduction (CO2ER) alone. In this study, we used density functional theory (DFT) calculations combined with a constant electrode potential model to investigate C–N formation pathways in the coreduction of CO2 and NO3 –/NO2 – to produce urea on Cu(111). Strikingly, we found that the first C–N bond is formed through coupling of gaseous CO2, rather than an intermediate of CO2ER, with the surface-bound N1 intermediates (i.e., *NO2, *NOH, *N, *NH, and *NH2) generated during NO3 –/NO2 – reduction to NH3. The reaction follows the Eley–Rideal mechanism and requires only a single active site. This result is in contrast with the literature, where the carbon species for C–N coupling were assumed to be intermediates from CO2ER to CO (i.e., *COOH and *CO). Further barrier decomposition analysis indicated that the facile kinetics of C–N coupling involving CO2 are due to the lower energy cost to deform CO2 and the N1 intermediate to the transition-state structure as well as the attractive interaction between them. For these facile and hence important CO2 + N1 reactions, we determined that the kinetic barrier of C–N coupling correlates well with the deformation energy of the N1 intermediate. Based on these insights, two strategies to improve C–N coupling have been proposed.

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Stabilization of a high-spin three-coordinate Fe(iii) imidyl complex by radical delocalization

Yang¹,

Yu²,

Hsieh³

et al. 2022

Chem. Sci.

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Highly Distorted Multiple Helicenes: Syntheses, Structural Analyses, and Properties

et al. 2023

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A series of hexapole helicenes (HHs) and nonuple helicenes (NHs) were prepared from 1,3,5-tris[2-(arylethynyl)phenyl]benzene through two steps, namely, iodocyclization and subsequent palladium-catalyzed annulation with ortho-bromoaryl carboxylic acids. The crucial advantages of this synthetic method are the facile introduction of substituents, high regioselectivity, and efficient backbone extension. Three-dimensional structures of three C 1 -symmetric HHs and one C 3 -symmetric NH were elucidated using X-ray crystallography. Unlike most conventional multiple helicenes, the HHs and NHs investigated herein possess a unique structural feature where some double helical moieties share a terminal naphthalene unit. Chiral resolution of a HH and an NH was successfully achieved, and the enantiomerization barrier (ΔH ‡ ) of the HH was experimentally determined to be 31.2 kcal/mol. A straightforward method for predicting the most stable diastereomer was developed based on density functional theory calculations and structural considerations. It was found that the relative potential energies (ΔH r s) of all diastereomers for two HHs and one NH can be obtained using minimal computational effort to analyze the types, helical configurations, numbers, and ΔH (MP−MM) s [= H(M,P/P,M) − H(M,M/P,P)] of the double helicenyl fragments.

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Atomistic Insights into Cl^–-Triggered Highly Selective Ethylene Electrochemical Oxidation to Epoxide on RuO₂: Unexpected Role of the In Situ Generated Intermediate to Achieve Active Site Isolation

et al. 2021

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Electrochemical partial oxidation of hydrocarbons to value-added products using electricity from renewable energy resources has the potential to change the way that commodity chemicals are manufactured. In this study, we used density functional theory calculations combined with a constant electrode potential model to study the previously reported ethylene partial electro-oxidation to epoxide on RuO2(110) in an aqueous solution containing [Cl–] = 0.3 M. We found that the high selectivity toward epoxide is due to the in situ generated *OCClO* intermediate that blocks parts of the surface and leads to isolation of *O (surface adsorbed oxygen) active sites. This step turns off the pathways to over-oxidation and drives the reaction toward epoxide formation. The reaction mechanisms for ethylene over-oxidation and partial oxidation are proposed. Our theoretical study unveiled a dynamic and unique means to achieve active site isolation that can be used to improve selectivity of hydrocarbon partial electro-oxidation.

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Examination of the Brønsted–Evans–Polanyi relationship for the hydrogen evolution reaction on transition metals based on constant electrode potential density functional theory

Cheng

Hsieh

et al. 2022

Phys. Chem. Chem. Phys.

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Chi-Tien Hsieh

Gaseous CO₂ Coupling with N-Containing Intermediates for Key C–N Bond Formation during Urea Production from Coelectrolysis over Cu

Stabilization of a high-spin three-coordinate Fe(iii) imidyl complex by radical delocalization

Highly Distorted Multiple Helicenes: Syntheses, Structural Analyses, and Properties

Atomistic Insights into Cl^–-Triggered Highly Selective Ethylene Electrochemical Oxidation to Epoxide on RuO₂: Unexpected Role of the In Situ Generated Intermediate to Achieve Active Site Isolation

Examination of the Brønsted–Evans–Polanyi relationship for the hydrogen evolution reaction on transition metals based on constant electrode potential density functional theory

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Chi-Tien Hsieh

Gaseous CO2 Coupling with N-Containing Intermediates for Key C–N Bond Formation during Urea Production from Coelectrolysis over Cu

Stabilization of a high-spin three-coordinate Fe(iii) imidyl complex by radical delocalization

Highly Distorted Multiple Helicenes: Syntheses, Structural Analyses, and Properties

Atomistic Insights into Cl–-Triggered Highly Selective Ethylene Electrochemical Oxidation to Epoxide on RuO2: Unexpected Role of the In Situ Generated Intermediate to Achieve Active Site Isolation

Examination of the Brønsted–Evans–Polanyi relationship for the hydrogen evolution reaction on transition metals based on constant electrode potential density functional theory

Contact Info

Product

Resources

About

Gaseous CO₂ Coupling with N-Containing Intermediates for Key C–N Bond Formation during Urea Production from Coelectrolysis over Cu

Atomistic Insights into Cl^–-Triggered Highly Selective Ethylene Electrochemical Oxidation to Epoxide on RuO₂: Unexpected Role of the In Situ Generated Intermediate to Achieve Active Site Isolation