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香港城市大学张开黎课题组AFM:使用新型纳米含能薄膜实现微芯片瞬时自毁
2021-07-30 来源:中国聚合物网 点击
关键词:纳米薄膜

寿退使


0.1mg便12mm×2mm AdditiveFree Energetic Film Based on Graphene Oxide and Nanoscale Energetic Coordination Polymer for Transient MicrochipAdvanced Functional Materials


(CMOS)(IC)广


(EMs)


(ECPs) ECPsECPs(GO)ECPs1200?С2ECPs3ECPs4


1,1--5,5-H2BTOECPsGO-ECP(Co)GO-ECP(Co)0.1mg1s使


A. GO-ECP(Co)


Co2 H2BTOECP (Co)ECP (Co)


Figure 1. Schematic illustration for the synthesis of nano GO-ECP(Co). GO plays a key role in reducing the size of ECP(Co).


B. GO-ECP(Co)


ECP(Co)ECP(Co)GO-ECP(Co)SEMGO-ECP(Co)


Figure 2. The SEM images of ECP(Co) powder (a), GO-ECP(Co) energetic film with 7.5 wt% GO content (b) and GO/ECP(Co) mixture with 5 wt% GO content(c); TEM image (d), HAADF-STEM image (i) and corresponding elemental mapping results (e-h) of GO-ECP(Co) dispersion with 7.5 wt% GO content; The picture of GO-ECP(Co) energetic film with 7.5 wt% GO content is obtained from vacuum filtration and drying (j); The top-view SEM image of GO film (k); The cross-view SEM images of GO film (l) and GO-ECP(Co) energetic film with 7.5 wt% GO content (m).


C. Co2 ECP(Co)


XPSFTIR-COOHCo2 使ECP(Co)XRDGO-ECP (Co)ECP(Co)GO-ECP (Co)16.4?ECP(Co)GO-ECP (Co)沿


Figure 3. XPS survey spectra between 0 and 900 eV (a), high resolution XPS spectra for O1s (b) and FTIR spectra (insert is the pictures of GO, GO/H2BTO ligand, GO-Co and GO-ECP(Co) with 7.5 wt% GO content in deionized water) (c) of GO and GO-Co complex; XRD patterns of ECP(Co), GO/ECP(Co) mixture and GO-ECP(Co) energetic film with 7.5 wt% GO content (d).


D. GO-ECP(Co)


TG-DSCGO-ECP(Co)ECP(Co)GO-ECP(Co)ECP(Co)GO-ECP(Co)ECP(Co)


Figure 4. TG and DSC curves of pure ECP(Co) and GO-ECP(Co) composite (7.5 wt% GO content) at Ar atmosphere from 60?C to 750 ?C with a heating rate of 10 ?C/min (a). Dynamic pressure curves of pure ECP(Co), GO/ECP(Co) mixture and GO-ECP(Co) composite (7.5 wt% GO content) in pressure-generation experiments at closed environment (inset is a schematic cross-sectional view of the experimental apparatus) (b). Burning sequences of pure ECP(Co), GO/ECP(Co) mixture and GO-ECP(Co) composite (7.5 wt% GO content) in burning experiments at open environment (inset is a schematic cross-sectional view of the sample container) (c).


E. GO-ECP(Co)



Figure 5. Photos of the prepared GO-ECP(Co) energetic films with 7.5 wt% GO content on a silicon wafer before and after demolding (total mass of the four films is 1.5 mg) (a). Photos of the energetic film on the silicon wafer before and after falling from a height of 10cm (b), 30cm (c) and 50cm (d), respectively.


F.


Au/Pt/CrGO-ECP(Co)200μm0.1mgGO7.5 wt%GO-ECP(Co)4ms1s


Figure 6. The microscope photographs of Au/Pt/Cr microheater on a glass substrate (a), GO-ECP(Co) energetic film with 7.5 wt% GO content (about 0.1mg) on the microheater (b), transient microchip consisting of a silicon chip, energetic film and microheater (c) and transient microchip after self-destruction (d), photo sequence of the self-destruction process of the transient microchip captured by a high-speed camera (e), typical volt-ampere dynamic curves of the microheater during the test of transient performance (f).



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广


https://doi.org/10.1002/adfm.202103199

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