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| Naji, M. |
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| Motta, Antonella |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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Kotiaho, Tapio
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Publications (5/5 displayed)
- 2023Ultrasound-based surface sampling in immersion for mass spectrometrycitations
- 2022Identifying Regions-of-Interest and Extracting Gold from PCBs Using MHz HIFUcitations
- 2019Chemical analysis using 3D printed glass microfluidicscitations
- 2019Chemical analysis using 3D printed glass microfluidicscitations
- 2007Glass microfabricated nebulizer chip for mass spectrometrycitations
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document
Identifying Regions-of-Interest and Extracting Gold from PCBs Using MHz HIFU
Abstract
Increased digitalization and technological development raises the demand for rare and precious metals (RPM). Due to their rarity, mining RPMs from the earth is becoming increasingly difficult. Traditional urban mining methods to recover RPMs from printed circuit boards (PCB) need to separate the RPMs from non-metallic substances, e.g. plastic. This separation requires toxic substances and causes unwanted and toxic by-products and emissions. The ability to identify regions-of-interest on PCBs, i.e. the gold pads, and to extract RPMs from only the desired areas would reduce the need for toxic substances. In this study, a single 12 MHz high-intensity focused-ultrasound transducer was used to 1) image a PCB to locate the gold pads, and 2) to subsequently induce inertial cavitation to remove gold from three extraction areas on the selected gold pad. The sonication was performed in water without additional chemicals. Gold removal was verified by imaging the pad with a coded-excitation scanning acoustic microscope (<i>f<sub>c</sub></i> = 375 MHz). Average areas and volumes of the three extraction regions were <i>A</i> = (12.2 ± 0.5)·10<sup>3</sup> μm<sup>2</sup> and <i>V</i> = (18 ± 2)·10<sup>3</sup> μm<sup>3</sup>, respectively. The total amount of removed gold and nickel (from beneath the gold plating) from all three extraction areas was estimated to <i>m<sub>Au,tot</sub></i> = (570 ± 20) ng and <i>m<sub>Ni,tot</sub></i> = (440 ± 30) ng. This study constitutes a first step towards more environmentally friendly, non-toxic urban mining of RPMs.<br/>