Environment‐Friendly Formation of High Energetic Nano‐Al/Fe<sub>2</sub>O<sub>3</sub> Bilayer by Aqueous Electrophoretic Deposition

Zhang, Daixiong; Pei, Rui; Peng, Xiofei; Xiang, Qing; Wang, Xia

doi:10.1002/prep.201900025

Cited by 6 publications

(4 citation statements)

References 38 publications

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“…Nanothermites have received increasing interest over the past 2 decades for additives in propellants, , combustion synthesis of advanced materials, − and on chips energetics. − Different nanothermite systems were produced by different approaches including ball-milling and vapor deposition technique to produce nanopowder mixtures ,− and core–shell structure and nanofoils. − Among them, fully dense Al/CuO multilayer materials represent an interesting system for both its potential applications and fundamental science perspectives. The former has spanned various areas including tunable initiation of secondary explosives ,, and joining, brazing, and sealing .…”

Section: Introductionmentioning

confidence: 99%

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Julien

Cure

Salvagnac

et al. 2020

ACS Appl. Nano Mater.

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Thermite multilayered films composed of alternating thin layers of metal/oxidizers have various uses in microelectromechanical systems (MEMS), microelectronics and materials bonding applications. Recently, applied research especially on the micro-initiator applications has engendered an urgent need to improve ignitability without changing the layering, reactant spacing that both affect the combustion characteristics. This work describes an innovative nanoengineering solution to reduce the energy barriers for mass transport making it possible to substantially lower ignition energy of CuO/Al reactive multilayers without manipulating the fuel and oxide layers thickness. To that end, gold nanoparticles exhibiting high thermal diffusivity properties are in-situ grown uniformly inside the first CuO layer to produce localized hot-spots 2 and promote the Al+CuO reaction. The CuO/Al reactive films with embedded gold nanoparticles exhibit earlier and optimized reaction than standard ones. The effect of gold nanoparticles on the thermite ignition mechanisms and the detailed reaction pathways were characterized by a host of characterization techniques including microscopy, thermal analysis, spectroscopy and X-ray diffractometric. Altogether, results show that the gold nanoparticles are seeding nodular defects with conical shapes provokingunder thermal stimulation-high stressed zones in the multilayer where the Al+CuO reaction is quickly triggered. The analysis of reaction products showed that the multilayers break the unreacted Al droplets early allowing them to burn into the environment. The results provide a behavioral baseline for future studies of interface engineering to tune internal stress-induced reaction in reactive thin films at large.

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Section: Introductionmentioning

confidence: 99%

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Julien

Cure

Salvagnac

et al. 2020

ACS Appl. Nano Mater.

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“…thermite films can be obtained by EPD. The parameters related to the EPD process such as electrode type, electrode distance, dispersive medium, surfactant, voltage, and deposition time of the deposited film have been investigated in detail . The surface of the deposited film can be kept flat, smooth, and even.…”

Section: Introductionmentioning

confidence: 99%

“…The parameters related to the EPD process such as electrode type, electrode distance, dispersive medium, surfactant, voltage, and deposition time of the deposited film have been investigated in detail. 15 The surface of the deposited film can be kept flat, smooth, and even. However, the surface of the film is easy to fall off, chapped, and gapped and exhibits other poor adhesion phenomena after being affected by strong external forces, such as extrusion, friction, vibration, etc., which is one of the problems to be solved urgently in the current EPD process of the energetic films.…”

Section: ■ Introductionmentioning

confidence: 99%

Simultaneously Altering the Energy Release and Promoting the Adhesive Force of an Electrophoretic Energetic Film with a Fluoropolymer

Yin

Dong

et al. 2022

Langmuir

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Energetic coatings have attracted a great deal of interest with respect to their compatibility and high energy and power density. However, their preparation by effective and inexpensive methods remains a challenge. In this work, electrophoretic deposition was investigated for the deposition of an Al/CuO thermite coating as a typical facile effective and controllable method. Given the poor adhesion of the deposited film and the native inert Al2O3 shell on Al limiting energy output, further treatment was conducted by soaking in a Nafion solution, which not only acted as a fluoropolymer binder but also introduced a strong F oxidizer. It is interesting to note that the adhesion level of Al/CuO films was improved greatly from 1B to 4B, which was attributed to Nafion organic network film formation, like a fishing net covering the loose particles in the film. Combustion and energy release were analyzed using a high-speed camera and a differential scanning calorimeter. A combustion rate of ≤3.3 m/s and a heat release of 2429 J/g for Al/NFs/CuO are far superior to those of pristine Al/CuO (1.3 m/s and 841 J/g, respectively). The results show that the excellent combustion and heat release properties of the energetic film system are facilitated by the good combustion-supporting properties of organic molecules and the increase in the film density after organic treatment. The prepared Al/NFs/CuO film was also employed as ignition material to fire B-KNO3 explosive successfully. This study provides a new way to prepare organic–inorganic hybrid energetic films, simultaneously altering the energy release and enhancing the adhesive force. In addition, the Al/NFs/CuO coating also showed considerable potential as an ignition material in microignitors.

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“…EPD is actively used to create a wide variety of devicesfor medicine or electrochemical power sources [16]. In addition, in the field of energy the possibility of forming multicomponent energetic materials on the substrates surface has been repeatedly demonstrated [17][18][19][20]. EPD is a simple technique that allows the use of a variety of components, including nano-sized and nano-structured, to control material performance over a wide range.…”

Section: Introductionmentioning

confidence: 99%

Electrophoretic deposition of Al-CuO_x thermite materials on patterned electrodes for microenergetic applications

et al. 2021

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In this paper, the features and main nuances of electrophoretic deposition of energetic nanoscale powder materials based on Al and CuOx were investigated and formulated. We have successfully demonstrated the advantage of using suspension non-stop ultrasonic mixing and horizontal electrode placement during deposition. The possibility of local deposition of energetic materials on an electrically conductive topological pattern was shown. The influence of the mass of the deposited material on the behavior of the wave combustion process of a locally formed energetic material was investigated. This study provides guidance for the multiobjective optimization and increasing the reproducibility of the local electrophoretic deposition process of energetic materials. The results indicate that Al-CuOx mixture can be integrated into microenergy systems as a material with excellent specific energy characteristics and high combustion rate.

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Environment‐Friendly Formation of High Energetic Nano‐Al/Fe₂O₃ Bilayer by Aqueous Electrophoretic Deposition

Cited by 6 publications

References 38 publications

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Simultaneously Altering the Energy Release and Promoting the Adhesive Force of an Electrophoretic Energetic Film with a Fluoropolymer

Electrophoretic deposition of Al-CuO_x thermite materials on patterned electrodes for microenergetic applications

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Environment‐Friendly Formation of High Energetic Nano‐Al/Fe2O3 Bilayer by Aqueous Electrophoretic Deposition

Cited by 6 publications

References 38 publications

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Integration of Gold Nanoparticles to Modulate the Ignitability of Nanothermite Films

Simultaneously Altering the Energy Release and Promoting the Adhesive Force of an Electrophoretic Energetic Film with a Fluoropolymer

Electrophoretic deposition of Al-CuOx thermite materials on patterned electrodes for microenergetic applications

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Environment‐Friendly Formation of High Energetic Nano‐Al/Fe₂O₃ Bilayer by Aqueous Electrophoretic Deposition

Electrophoretic deposition of Al-CuO_x thermite materials on patterned electrodes for microenergetic applications