The new technology requires new computing tools.

"Artist’s impression of electrically driven amorphization in In2Se3, a layered semiconducting ferroelectric material. The middle layer is slipped by the carrier-wind force, and the lightning bolts indicate electrical spikes from piezoelectricity-induced mechanical shocks, which amorphize the material. Credit: Akanksha Jain" (ScitechDaily, Shocking New Memory Tech: Crystal-to-Glass Transformation Using a Billion Times Less Energy)

Things like plastics and crystal-glass hybrid systems can revolutionize computing. The self-assembling molecules can store data and transfer it to the neurons or very small computers. Those systems can be used to transport information into the neurons. And that thing makes it possible to fix the neural damage. 

The ability to transport information to neurons is the thing, that can make the bio-hybrid computers possible. In those computers, the system includes a regular microchip that interacts with living neurons. The self-assembling molecules make it possible for those systems can transfer in the places where regular microchips cannot operate. The self-assembling molecules can transport the chemical marks to the tumors. And mark them to the immune cells. 

Flexible molecules make it possible to create soft memory units. Those memory units are suitable for wearable technology. Similar molecules can also used in room-temperature quantum computers. The ability to use plastic as data storage makes it possible to create flexible and soft computers that are thinner than ever before. The flexible plastic hard disks can be less vulnerable to strikes than regular hard disks. And that can be the route to the computers that we can roll like papers. 

Images: 

1) This illustration shows a future vision of assemblies of molecules formed by peptides and miniature molecular segments from a plastic material to create ferroelectric structures that switch polarity to store digital information or signal neurons. Credit: Mark Seniw/Center for Regenerative Medicine/Northwestern University (ScitechDaily, Move Over Plastics: Revolutionary Soft, Sustainable Material Set To Transform Medical Devices and Wearable Tech)

2) Researchers have developed a novel method for storing data in synthetic polymer chains that surpasses the limitations of traditional mass spectrometry, allowing for direct access to specific data bits without needing to decode entire chains. Credit: SciTechDaily.com (ScitechDaily, Could Data Be Stored in Plastic? Here’s How It Works)

3) University of Toronto researchers found that neural crest stem cells, located in the skin and other body areas, are responsible for reprogrammed neurons, challenging the belief that any mature cell can be reprogrammed. Instead, they propose only rare, specific stem cells can transform into different cell types, offering a new path in stem cell therapy. (ScitechDaily, Unusual Stem Cell Discovery Challenges Longstanding Cellular Reprogramming Theories)

4) The spliceosome is a large and complex molecular machine within the cell that removes introns from pre-messenger RNA (pre-mRNA), allowing for the proper assembly of protein-coding sequences, or exons. This essential process of RNA splicing enables the accurate translation of genetic information, facilitating the diversity and functionality of proteins in eukaryotic organisms. (ScitechDaily, “Astonishing” – Scientists Unveil First Blueprint of the Most Complex Molecular Machine in Human Biology)

The flexible and soft microchips and hard disks can make it possible to create computers. That can act like paper. 

The system can use a flexible LED screen where nano-LEDs make the tri-color image. Or the user can use HUD glasses. That means the holo-lens-type screens. They can act as VR tools. Or the user can shut down other glass. 

In that model, the other eye is free to look at what happens around. The system can also use screens that are similar to mobile telephone screens. Those screens can be put in the front of eyes. It can hang in plastic bandannas.

Developers can the peptide and miniature molecular segments with nano-size glass and crystals. Those systems are suitable for the nanotechnical computers. The crystal and glass combination can make it possible to create low-energy data storage. 

The crystal-to-glass transformation is the memory solution that uses a billion times less energy. That thing can make it possible to create data storage for the microchips that can control cells and other biorobots. Those biorobots can be cells that can create wanted DNA bites. The DNA is the tool that can control biorobots. The biorobot can be a microchip-controlled cell. 

The microchip makes it travel in the right position, and then the DNA will start to operate. In some biorobot versions. The microchip releases the functional DNA. 

When the manipulated cell is in the right position. The nanomachine can be the cell that acts like a harpoon cells. The harpoon cell can destroy the targeted cancer cells using the enzyme or protein fiber that it shoots through the targeted cell's shell. 

https://scitechdaily.com/astonishing-scientists-unveil-first-blueprint-of-the-most-complex-molecular-machine-in-human-biology/

https://scitechdaily.com/could-data-be-stored-in-plastic-heres-how-it-works/

https://scitechdaily.com/move-over-plastics-revolutionary-soft-sustainable-material-set-to-transform-medical-devices-and-wearable-tech/

https://scitechdaily.com/shocking-new-memory-tech-crystal-to-glass-transformation-using-a-billion-times-less-energy/

https://scitechdaily.com/unusual-stem-cell-discovery-challenges-longstanding-cellular-reprogramming-theories/