Structure Design and Property Prediction of Energetic Pentazolate Salt: An Overview

Yilin Cao; Zhixiang Zhang; Tao Yu; Bo Chen; Yuanjing Wang; Qin Lv; Zihui Meng; Yingzhe Liu; Chuan Xiao

doi:10.1021/acs.cgd.4c01266

Structure Design and Property Prediction of Energetic Pentazolate Salt: An Overview

Yilin Cao, Zhixiang Zhang, Tao Yu, Bo Chen, Yuanjing Wang, Qin Lv, Zihui Meng^*, Yingzhe Liu^*, Chuan Xiao^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The most recent global research developments concerning pentazolate salts (CA⁺N₅^-) have been reviewed, which mainly include the structural creation concept of synthesized CA⁺N₅^-, the structural design methods of novel CA⁺N₅^-, and the application of performance prediction methods for CA⁺N₅^-. The creation of CA⁺N₅^- relies on trial-and-error experiments with a long development cycle and high cost. However, the work driven by computation is rarely performed and difficult to support the experimental exploration, due to the limited ability of cation design and poor accuracy of performance prediction. Finally, the future development of CA⁺N₅^- was prospected. With the aid of data mining, high-throughput molecular-designing, quantum chemistry, and machine learning, it is expected to deeply understand the structure-activity relationships and accelerate the design of cations with excellent performances in the future.

Original language	English
Pages (from-to)	581-592
Number of pages	12
Journal	Crystal Growth and Design
Volume	25
Issue number	3
DOIs	https://doi.org/10.1021/acs.cgd.4c01266
Publication status	Published - 5 Feb 2025
Externally published	Yes

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title = "Structure Design and Property Prediction of Energetic Pentazolate Salt: An Overview",

abstract = "The most recent global research developments concerning pentazolate salts (CA+N5-) have been reviewed, which mainly include the structural creation concept of synthesized CA+N5-, the structural design methods of novel CA+N5-, and the application of performance prediction methods for CA+N5-. The creation of CA+N5- relies on trial-and-error experiments with a long development cycle and high cost. However, the work driven by computation is rarely performed and difficult to support the experimental exploration, due to the limited ability of cation design and poor accuracy of performance prediction. Finally, the future development of CA+N5- was prospected. With the aid of data mining, high-throughput molecular-designing, quantum chemistry, and machine learning, it is expected to deeply understand the structure-activity relationships and accelerate the design of cations with excellent performances in the future.",

author = "Yilin Cao and Zhixiang Zhang and Tao Yu and Bo Chen and Yuanjing Wang and Qin Lv and Zihui Meng and Yingzhe Liu and Chuan Xiao",

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doi = "10.1021/acs.cgd.4c01266",

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T2 - An Overview

AU - Cao, Yilin

AU - Zhang, Zhixiang

AU - Yu, Tao

AU - Chen, Bo

AU - Wang, Yuanjing

AU - Lv, Qin

AU - Meng, Zihui

AU - Liu, Yingzhe

AU - Xiao, Chuan

PY - 2025/2/5

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AB - The most recent global research developments concerning pentazolate salts (CA+N5-) have been reviewed, which mainly include the structural creation concept of synthesized CA+N5-, the structural design methods of novel CA+N5-, and the application of performance prediction methods for CA+N5-. The creation of CA+N5- relies on trial-and-error experiments with a long development cycle and high cost. However, the work driven by computation is rarely performed and difficult to support the experimental exploration, due to the limited ability of cation design and poor accuracy of performance prediction. Finally, the future development of CA+N5- was prospected. With the aid of data mining, high-throughput molecular-designing, quantum chemistry, and machine learning, it is expected to deeply understand the structure-activity relationships and accelerate the design of cations with excellent performances in the future.

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Structure Design and Property Prediction of Energetic Pentazolate Salt: An Overview

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