Your search keyword '"Jin, Xinghui"' showing total 5 results

1. Molecular design and theoretical investigation of TNI based materials.

Author

Liu, Wenjun, Jin, Xinghui, Yuan, Fang, Wang, Yuexia, Zhou, Jianhua, and Hu, Bingcheng

Abstract

[Display omitted] • A series of bridged TNI based energetic materials were designed. • Density functional theory (DFT) method at B3LYP/6-311G (d,p) level was employed to calculate the detonation properties and electronic structures. • Some molecules were screened as candidates of high energy density materials which may shine lights on the synthesis of novel energetic materials. A series of highly symmetrical 2,4,5-trinitroimidazole (TNI) based energetic materials are designed. Based on the structures that optimized by density functional theory at the B3LYP/6-311G(d,p) level, their spectrum, heats of formation, detonation properties, thermal stability and thermodynamics are investigated. The results show that the −N N- bridge will be the most effective bridge to increase the heats of formation while the effect of –CH 2 CH 2 - bridge is on the opposite side. Compound G possesses the highest value of heat of detonation, detonation velocity and detonation pressure which reveals that heat of formation plays an important role in the detonation properties rather than the density. The calculated values of bond dissociation energy show that all the designed compounds (except for compound I) are more stable than those of RDX and HMX. Finally, their electronic structures and non-covalent interaction are simulated which may shine lights on the physicochemical properties of the designed compounds. [ABSTRACT FROM AUTHOR]

Published

2024

2. Application of CoMn/CoFe layered double hydroxide based on metal–organic frameworks template to activate peroxymonosulfate for 2,4-dichlorophenol degradation

Author

Liu, Chenyu, Wei, Haitong, Gao, Yanhui, Wang, Ning, Yuan, Xiaoying, Chi, Zhilong, Zhao, Guangli, Song, Shuguang, Song, Jianjun, and Jin, Xinghui

Published

2021

3. Impact of Acidic/Basic Sites of the Catalyst on Properties of the Coke Formed in Pyrolysis of Guaiacol: A Model Compound of the Phenolics in Bio-oil

Author

Li, Chao, Zhang, Lijun, Gholizadeh, Mortaza, Westernhof, Roel, Cui, Zhenhua, Liu, Bingqiang, Tang, Yonggui, Jin, Xinghui, Xu, Zhixiang, and Hu, Xun

Abstract

Acidic and basic sites are important factors influencing the reaction network and properties of coke. In this study, the catalytic pyrolysis of guaiacol, a model compound of lignin derivatives, was conducted over SBA-15, layered double hydroxides (LDHs), and Al2O3with distinct distribution of acidic and basic sites. The results show that the acidic sites in SBA-15 and the basic sites in LDHs significantly promoted coking and evolution of heavier organics with π-conjugated structures. The Al2O3catalyst with less acidic/basic sites does not have such an effect. At low pyrolysis temperature, the coke formed over SBA-15 or LDHs is very aliphatic and thermally unstable, while the increase of the pyrolysis temperature enhanced the aromatization degree of coke. Additionally, the acidic sites in SBA-15 are more effective than the basic sites in LDHs in catalyzing the condensation of reaction intermediates and enhancing the aromatic degree of coke, rendering the coke with higher thermal stabilities and reactivity toward oxidation.

Published

2020

4. Impact of Acidic/Basic Sites of the Catalyst on Properties of the Coke Formed in Pyrolysis of Guaiacol: A Model Compound of the Phenolics in Bio-oil.

Author

Li, Chao, Zhang, Lijun, Gholizadeh, Mortaza, Westernhof, Roel, Cui, Zhenhua, Liu, Bingqiang, Tang, Yonggui, Jin, Xinghui, Xu, Zhixiang, and Hu, Xun

Published

2020

5. Thermal Stability and Quantum Chemistry Study on Octahydro-2,5-Bis(Nitroimino)Imidazo[4,5-d]Imidazole.

Author

Jin, Xinghui, Hu, Bingcheng, and Liu, Zuliang

Abstract

Abstract: Thermal decomposition of octahydro-2,5-bis(nitroimino)imidazo[4,5-d]imidazole was studied by means of thermogravimetry (TG) and differential thermal analysis (DTA) simultaneously under nitrogen atmosphere. The structure of the compound was also estimated by a B3LYP method based on the 6-31G(d,p) basis set to obtain a stable geometric configuration and the corresponding Wiberg bond order. The results indicate that the compound shows good thermal stability with exothermic decomposition peak at 335°C on DTA, the geometric structure of the compound presents a little contorted configuration and the C(3)—N(22) bond order is weaker than the other N—N or C—N bonds. [Copyright &y& Elsevier]

Published

2012