Probing the reaction zone of nanolaminates at∼ μs time and∼ μm spatial resolution
Reactive nanolaminates are a high-energy-density configuration for energetics that have
been widely studied for their tunable energy release rates. In this study, we characterized …
been widely studied for their tunable energy release rates. In this study, we characterized …
[HTML][HTML] A review of nano-reactive multilayered films and their applications in micro-energetic igniters
J Xu, J Zhang, Y Ye, Y Zhou, Y Lai, R Shen - FirePhysChem, 2025 - Elsevier
Nano-reactive multilayer films consisting of alternating layers of the nano-aluminum and
nano-metal oxide is a new type of nano thermite. These multilayer films can be stimulated by …
nano-metal oxide is a new type of nano thermite. These multilayer films can be stimulated by …
[HTML][HTML] Research progress on energy exchange models and principles of energetic metallic bridges
Y Shen, J Xu, Y Ye - FirePhysChem, 2024 - Elsevier
Initiating explosive devices are the primary energy and driving force of a weapon system,
which can be excited by some form of external energy (mechanical, thermal or electrical) to …
which can be excited by some form of external energy (mechanical, thermal or electrical) to …
Controlling the energetic characteristics of micro energy storage device by in situ deposition Al/MoO3 nanolaminates with varying internal structure
The control of energy storage and release in micro energy devices is important and
challengeable for utilization of energy. In this work, three kinds of micro energy storage …
challengeable for utilization of energy. In this work, three kinds of micro energy storage …
Direct imaging and simulation of the interface reaction of metal/metal oxide nanoparticle laminates
One of the difficulties in understanding how powder composites of reactive fuel/oxidizer
systems behave is the lack of control of the mixing length. In this study, we have prepared …
systems behave is the lack of control of the mixing length. In this study, we have prepared …
Influence of process parameters on energetic properties of sputter-deposited Al/CuO reactive multilayers
In this study, we demonstrate the effect of change of the sputtering power and the deposition
pressure on the ignition and the combustion properties of Al/CuO reactive thin films. A …
pressure on the ignition and the combustion properties of Al/CuO reactive thin films. A …
Exploring the interfacial reaction of nano Al/CuO energetic films through thermal analysis and Ab initio molecular dynamics simulation
The effect of the interface layer on energy release in nanoenergetic composite films is
important and challenging for the utilization of energy. Nano Al/CuO composite films with …
important and challenging for the utilization of energy. Nano Al/CuO composite films with …
PyroMEMS as future technological building blocks for advanced microenergetic systems
JL Pouchairet, C Rossi - Micromachines, 2021 - mdpi.com
For the past two decades, many research groups have investigated new methods for
reducing the size and cost of safe and arm-fire systems, while also improving their safety …
reducing the size and cost of safe and arm-fire systems, while also improving their safety …
Characteristics of energetic semiconductor bridge initiator based on different stoichiometric ratios of Al/MoO3 reactive multilayer films under capacitor discharge …
J Xu, Y Tai, Y Shen, J Dai, W Xu, Y Ye, R Shen… - Sensors and Actuators A …, 2019 - Elsevier
Abstract Three types of Al/MoO 3 energetic semiconductor bridge (ESCB) initiators were
prepared by integrating Al/MoO 3 reactive multilayer films (RMFs) of different stoichiometric …
prepared by integrating Al/MoO 3 reactive multilayer films (RMFs) of different stoichiometric …
Characteristics of micro energetic semiconductor bridge initiator by depositing Al/MoO3 reactive multilayered films on micro bridge with different bridge size
J Xu, Y Zhou, Y Shen, C Wang, Y Wang, Y Ye… - Sensors and Actuators A …, 2022 - Elsevier
Abstract Four types of Al/MoO 3 micro energetic semiconductor bridge (MESCB) initiators
were prepared by integrating 3 µm Al/MoO 3 reactive multilayer films (RMFs) on micro …
were prepared by integrating 3 µm Al/MoO 3 reactive multilayer films (RMFs) on micro …