Morphology, Phase and Chemical Analysis of Leachate after Bioleaching Metals from Printed Circuit Boards.
Kamila HyraPaweł M NuckowskiJoanna WillnerTomasz SuponikDawid FrankeMirosława PawlytaKrzysztof MatusWaldemar KwaśnyPublished in: Materials (Basel, Switzerland) (2022)
The article presents the assessment of solutions and dried residues precipitated from solutions after the bioleaching process of Printed Circuit Boards (PCB) utilizing the Acidithiobacillus ferrooxidans . The obtained dried residues precipitated from bioleaching solution (leachate) and control solution were tested using morphology, phase, and chemical composition analysis, with particular emphasis on the assessment of crystalline and amorphous components. The analysis of the dried residues from leachate after bioleaching as well as those from the sterile control solution demonstrated a difference in the component oxidation-the leachate consisted of mainly amorphous spherical particles in diameter up to 200 nm, forming lacy aggregates. In the specimenform control solution larger particles (up to 500 nm) were observed with a hollow in the middle and crystalline outer part (probably Fe 2 O 3 , CuFeS 2 , and Cu 2 O). The X-ray diffraction phase analysis revealed that specimen obtained from leachate after bioleaching consisted mainly of an amorphous component and some content of Fe 2 O 3 crystalline phase, while the dried residue from control solution showed more crystalline components. The share of the crystalline and amorphous components can be related to efficiency in dissolving metals during bioleaching. Obtained results of the investigation confirm the activity and participation of the A. ferrooxidans bacteria in the solubilization process of electro-waste components, with their visible degradation-acceleration of the reaction owing to a continuous regeneration of the leaching medium. The performed investigations allowed to characterize the specimen from leachate and showed that the application of complementary cross-check of the micro (SEM and S/TEM) and macro (ICP-OES and XRD) methods are of immense use for complete guidance assessment and obtained valuable data for the next stages of PCBs recycling.
Keyphrases
- room temperature
- municipal solid waste
- solid state
- ionic liquid
- stem cells
- sewage sludge
- anaerobic digestion
- heavy metals
- high resolution
- health risk
- human health
- single cell
- hydrogen peroxide
- computed tomography
- drinking water
- optic nerve
- artificial intelligence
- drug induced
- highly efficient
- optical coherence tomography
- electron transfer
- life cycle