Bonan Gu
6 Papers
Bonan Gu is an academic researcher. The author has contributed to research in topics: Chemistry & Combustion. The author has an hindex of 1, co-authored 5 publications.
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Papers
Energetic properties of copper azide nanoparticles encapsulated within a conductive porous matrix via electrosynthesis
Chun-Ju Yu,Wenchao Zhang,Mingchun Xian,Junhong Chen,Weihong Shi,Jiaxin Wang,Bonan Gu,Jiahai Ye,Kefeng Ma,Junwu Zhu +9 more
TL;DR: In this article , a conductive metal-organic framework (MOF) of cuprous 7,7,8,8-tetracyanoquinodimethane (CuTCNQ) is employed as a template for the electrochemical preparation of the CA nanoparticles encapsulated with conductive porous matrix.
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Valence-Oriented Electrosynthesis Strategies of Cu-Based 5-Nitrotetrazolate for Environmentally Acceptable Primary Explosives.
TL;DR: In this paper , room-temperature anodization of metallic Cu and a Cu(I)-imidazole nanowire array on copper substrates in a sodium 5-nitrotetrazolate electrolyte leads to in situ electro-synthesis of Cu-I 5-NITRTE (DBX-1, CuNT) and its analogue, Cu(II) 5-NTTE [Cu(NT)2], respectively.
6
Analysis of the effect of cryolite on the reaction and combustion process of the mAl/pCuO thermites
Jianyong Xu,Wei Shi,Xiwen Wang,Bonan Gu,Chun-Ju Yu,Muhammad Amjad Majeed,Changkun Song,Junhong Chen,Gaopeng Yang,Wenchao Zhang +9 more
TL;DR: In this paper , a thermite composites containing 10 wt% Na3AlF6 was constructed for increasing the heat release of this thermite system among the temperature range of 25 °C -1000 °C.
5
In Situ Electrochemical Construction of CuN3@CuCl Hybrids for Controllable Energy Release and Self-Passivation Ability.
Chun-Ju Yu,Bonan Gu,Minghao Bao,Junhong Chen,Wei Shi,Jiahai Ye,Wenchao Zhang +6 more
TL;DR: In Situ Electrochemical Construction of CuN3@CuCl Hybrids for Controllable Energy Release and Self-Passivation Ability yields high-performance EMs with improved safety and energy output.
1
Aluminum/lead tetroxide nanothermites for semiconductor bridge applications
Chun-Ju Yu,Zilong Zheng,Bonan Gu,Yajie Chen,Jianyong Xu,Lin Zhang,Wei Shi,Jiaxin Wang,Changkun Song,Junhong Chen,Kefeng Ma,Wenchao Zhang +11 more
TL;DR: In this paper , Al/Pb 3 O 4 nanothermites are integrated on semiconductor bridges via direct ink writing and the maximum output energy reaches 1960 J g -1 , while the average linear burning rate maintains nearly 19.14 cm s -1 .