An energetic composite formed of wrinkled rGO sheets wrapped around copper azide nanowires with higher electrostatic safety as a green primary explosive

Xuwen Liu; Yan Hu; Tingting Li; Yinghua Ye; Ruiqi Shen

doi:10.1039/d0ra05403h

An energetic composite formed of wrinkled rGO sheets wrapped around copper azide nanowires with higher electrostatic safety as a green primary explosive

RSC Adv. 2020 Aug 19;10(51):30700-30706. doi: 10.1039/d0ra05403h. eCollection 2020 Aug 17.

Authors

Xuwen Liu^{1

2}, Yan Hu^{1

2}, Tingting Li^{1

2}, Yinghua Ye^{1

2}, Ruiqi Shen^{1

2}

Affiliations

¹ School of Chemical Engineering, Nanjing University of Science and Technology China huyan@njust.edu.cn.
² Micro-Nano Energetic Devices Key Laboratory, Ministry of Industry and Information Technology China.

Abstract

A green primary explosive with high energy density and electrostatic safety was synthesized in this work. A precursor consisting of wrinkled reduced graphene oxide sheets wrapped around copper nanowires (CuNWs@rGO) was fabricated through a facile one-pot hydrothermal approach. The as-prepared precursor was deposited on a silicon wafer by electrophoretic deposition technology, which significantly reduced the safety risks of directly handling the powder sample in the azide reaction. Wrinkled rGO sheets wrapped around copper azide nanowires (CANWs@rGO) were prepared in situ by reaction of the precursor with HN₃ gas. The initiation capability was tested by using it to detonate hexogen (RDX) against a lead plate with a thickness of 5 mm, and its detonation performance was found to be better than that of commercial diazodinitrophenol (DDNP). The electrostatic sensitivity of the CANWs@rGO composite was investigated, and the result shows that the discharge energy at 50% (E _50%) of CANWs@rGO was 0.96 mJ, which indicates that it has a much higher electrostatic safety than that of pure copper azide (0.05 mJ).