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International Journal of Bioprinting Bioprinting for wearable tech and robot
Figure 4. Bioprinting of brain-machine interfaces. (a) Schematic of engineered bio-conduit for peripheral nerve regeneration. Adapted with permission
from Hu et al. (b) Fabrication of a flexible conductive microporous hydrogel. Adapted with permission from Hsu et al. (c) Multifunctional, conductive
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nerve guidance conduits with hierarchical fibers for treating peripheral nerve injuries. Adapted with permission from Fang et al. (d) Fabrication of
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aggregated, microtissue-engineered neural network and living electrodes. Adapted with permission from Adewole et al. (e) Photonic synapse integrated
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on a chip. Adapted with permission from Cheng et al. (f) Integrated neuromorphic interface. Adapted with permission from Fu et al. Abbreviation:
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PCM: phase-change materials.
of big data and large models, sustainable computing – could be particularly valuable in this context. Nevertheless,
harmonizing advanced computational practices with despite advanced bio-inspired algorithms, AI systems built
environmental responsibility – becomes increasingly on existing neuromorphic circuits still underperform
critical. Neuromorphic systems, emulating neural
architectures and functionalities of the brain, designed to when compared with the complexity of natural biological
mimic human data processing and storage methodologies neural networks. 111
Volume 10 Issue 6 (2024) 27 doi: 10.36922/ijb.3590
