Remember T1000 from Terminator 2? Scientists are planning something similar but with a cuter name – SMARTLET
Self-assembling ‘living technology’ is now within reach, thanks to researchers who’ve developed a form of microbotic electronic units called SMARTLETs that can behave like biological cells.
The team at the Research Center for Materials, Architectures and Integration of Nanomembranes (MAIN) has built these tiny modules with silicon chiplets between folds. These SMARTLETs can be encoded with the information to form complex structures – operating much like you’d imagine how the T1000 from Terminator 2 may reconstruct itself. Of course, Robert Patrick’s terrifying performance will remain a work of fiction, but we could one day see these SMARTLETs form the components fitted into, say, the best smartphones or the best business laptops.
They rely on matching physical bar codes to fluidly connect with one another, and show the capacity to learn so they can improve their own performance during construction, and could soon be capable of self-assembly into complex artificial organisms.
One step closer to the wonders of ‘living technology’
‘Living technology’ is a field of technology in which researchers are attempting to create systems and structures that mirror the way biological systems function, with usefulness and attributes taken from life-like properties.
The idea was proposed 20 years ago and has made great strides forward in the last few years, according to the team from MAIN’s paper in Advanced Materials, thanks to microbiotic flexible electronics. This latest advancement falls under the category of microelectronic morphogenesis – which is the creation of form under microelectronic control.
The chiplets, which resemble biological cells in function and size, are aware of the state of assembly, and potential errors, which means they can adapt to any issues, repair, and make corrections midway through the assembly.
They can also induce disassembly and perform many functions including harvesting power, forming antennae, material redistribution, and others.
What makes these modules so impressive is the fact they can self-assemble, disassemble, and self-sort so they can be effectively recycled. They can be reconfigured and redeployed in different artificial organisms. If they’re damaged, they can effectively self-repair too.
The authors of the study say this technology can bring us one step closer to realizing a vision of fully sustainable technology, with the reuse of components made from such modules that can be reprogrammed and reassigned like building blocks.
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