research Archives - Infinity Plane Press https://infinityplanepress.com/tag/research/ Infinity Plane Press Sat, 20 Jun 2026 18:14:33 +0000 en-US hourly 1 https://wordpress.org/?v=7.0 https://i0.wp.com/infinityplanepress.com/wp-content/uploads/2026/04/cropped-TIPP-Infinity-Plane-theinfinityplane-Dragon-Yin-Yang-With-Transparnecy.png?fit=32%2C32&ssl=1 research Archives - Infinity Plane Press https://infinityplanepress.com/tag/research/ 32 32 214660127 Stretchable Electronic Devices Are Around The Corner https://infinityplanepress.com/2025/11/21/stretchable-electronic-devices-are-around-the-corner/ Fri, 21 Nov 2025 05:02:49 +0000 https://infinityplanepress.com/?p=474 Whenever we watch a futuristic movie, it seems like their electronic devices are mind-bogglingly awesome. Holographic mobile devices? Compactable pocket-sized grocery carts? Robotic dog walkers?! These devices seem so neat, even if they are far from our grasp. Still, devices like this are closer than we know! A research team composed of scientists, engineers, and […]

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Whenever we watch a futuristic movie, it seems like their electronic devices are mind-bogglingly awesome. Holographic mobile devices? Compactable pocket-sized grocery carts? Robotic dog walkers?! These devices seem so neat, even if they are far from our grasp. Still, devices like this are closer than we know! A research team composed of scientists, engineers, and medical professionals from the University of Southern California in Los Angeles, CA and Northwestern University in Chicago, IL devised a stretchable electronic sensor which does not lose its potentiality after stretching, and returns to its original state.

Sounds like a dream come true, doesn’t it? Everyone can remember seeing an electronic device break at least once in their lives. Imagine if that TV remote that got stepped on could bend, and then return to normal, instead of breaking? While standard electronics feature an epoxy-resin foundation with electronic components and copper solder, this team has a flexible printed board with cold-welded parts. The board, which is composed primarily of gallium, is dipped into a gallium-based colloidal metal compound and treated with electrostatic charges. To test this research, the team created a balloon catheter which tracked heart rhythms in the subject similar to, and with accuracy resembling, an ECG (electrocardiogram).

Read the full article here.

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Biobots Poised to Heal Damaged Cells https://infinityplanepress.com/2025/10/04/biobots-poised-to-heal-damaged-cells/ Sat, 04 Oct 2025 18:22:21 +0000 https://infinityplanepress.com/?p=466 Researchers at Tufts University and Harvard University have created “biobots”, self-propelled biological robots the width of a human hair or smaller and made with human tracheal cells, with the purpose of healing damaged cells. Through the research, the team noticed the biobots could heal different types of cells. The cells from which these biobots are […]

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Researchers at Tufts University and Harvard University have created “biobots”, self-propelled biological robots the width of a human hair or smaller and made with human tracheal cells, with the purpose of healing damaged cells. Through the research, the team noticed the biobots could heal different types of cells. The cells from which these biobots are created are not genetically modified, and the biobots have many potential uses, from healing damaged neural cells, to clearing plaque from the arteries of the heart. This can be exciting news for patients looking for ways to heal their bodies.

The research team first created Xenobots, made from amphibian embryonic cells, and wondered if this could help them to build the Anthrobots, the technical name for the biobots. The biobots have a lifespan of 45-60 days. The team designed a process to create these biobots, and noted the creation process can be “scaled up”, so many bots can be created at one time.

The biobots have four different movement types: circular, linear, curvilinear, and eclectic. The circular biobots tended to move in the same location with other circular biobots, while the linear and curvilinear moved through multiple locations. The eclectic biobots moved in many observational areas and did not stay with similar bots as much as the other types. They exhibited movement types of the other three groups, in a random way, but as their life cycle progressed they tended to behave like one of the other three groups more regularly.

It will be interesting to see further developments in cellular repair by biobots!

Source 1 – QPS
Source 2 – Neuroscience News
Read the original research paper here

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