Close Menu
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Facebook X (Twitter) WhatsApp
Trending
  • Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs
  • Physicists develop the first working model of quantum mechanics using only ‘real’ numbers
  • Dirty ‘button’ unearthed by metal detectorist turns out to be a rare 900-year-old coin from Norway’s last Viking king, Magnus Barefoot
  • Malaria had nearly been eliminated around a giant dam in the Amazon — but then it came roaring back. Experts just discovered why.
  • ‘800 seconds for a sick visit’: Some factors driving antibiotic resistance have nothing to do with biology, says medical sociologist Julia Szymczak
  • ‘Astronomers have to revise estimates’: The Milky Way may be larger, heavier and more lopsided than we realized
  • Extreme heat waves are making our cities buckle. Investing in urban nature is no longer optional. | Manuel Esperon-Rodriguez
  • 100,000 years ago, one of the earliest Homo sapiens outside Africa was stabbed in the face, analysis finds
Facebook X (Twitter) WhatsApp
Baynard Media
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Baynard Media
Home»Lifestyle»Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs
Lifestyle

Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs

EditorBy EditorJuly 10, 2026No Comments4 Mins Read
Share Facebook Twitter Pinterest LinkedIn Tumblr Reddit Telegram Email
Share
Facebook Twitter LinkedIn Pinterest Email

Engineers have designed a waterproof “diving suit” for cyborg cockroaches that enables the hybrid insects to survive and roam underwater for up to three hours. This function expands the capabilities of cyborg insects and could one day be deployed in disaster zones, according to the team.

A built-in oxygen generator and silicone tubes deliver the gas directly to a cockroach’s breathing holes, known as spiracles. The design is adapted for use in low-oxygen conditions as well as submerged environments, the researchers said in a new study published June 29 in the journal Nature Communications.

“Our approach combines a soft waterproof shell with a simple yet reliable chemical oxygen generator,” study co-author Shinjiro Umezu, a professor in the School of Creative Science and Engineering at Waseda University in Japan, said in a statement. “This allows the insect to retain its natural mobility while being protected from an environment that it cannot normally survive in.”

Cyborg insects are living insects that have been fitted with electronic controllers that guide their movements. Researchers have previously used them in search-and-rescue operations to access and investigate hard-to-reach areas; for example, they were used in rescue efforts after the devastating magnitude 7.7 earthquake in Myanmar in March 2025 that killed at least 3,700 people and injured 4,800 more. The advantage of cyborg insects over tiny robots is that the former employ insects’ muscles to move, whereas the latter rely on high-power batteries that consume energy and can run out of steam.

The cyborg insects deployed in Myanmar were developed in the laboratory of Hirotaka Sato, senior author of the new study and a professor in the School of Mechanical and Aerospace Engineering at Singapore’s Nanyang Technological University.


You may like

Sato has spent more than a decade pioneering cyborg insect technology. He and colleagues hope the new diving suit will extend cyborg insects’ operational range to include flooded and partially submerged areas in disaster zones.

The suit consists of a flexible shell, four silicone tubes that attach to the spiracles and a transparent, 3D-printed oxygen tank. To make the tank produce oxygen, the researchers sprinkled manganese dioxide onto a highly absorbent sponge inside the tank. They then injected a small amount of diluted hydrogen peroxide, which breaks down slowly in the presence of manganese dioxide to produce oxygen. Finally, the team sealed the tank with ultraviolet adhesive to prevent leaks.

Get the world’s most fascinating discoveries delivered straight to your inbox.

“The key engineering challenge was to build a system that was small, light and flexible enough for the insect to wear, while still producing enough oxygen for long-duration underwater movement,” Umezu said.

The silicone tubes send oxygen straight into the thoracic spiracles, while the abdominal spiracles, which are lower down the insects’ bodies, take in the oxygen contained in the suit.

“Our new insect diving suit works like the oxygen tank used by human divers,” Sato said in the statement. The silicone tubes can be attached and removed without pain or harm to the insect, the researchers added.

The researchers tested the suit on a cyborg Madagascar hissing cockroach (Gromphadorhina portentosa), which they placed in a water tank and later sent into a plastic tube that simulated submerged and low-oxygen environments.

The suit enabled the cockroaches to roam underwater for up to three hours, raising the prospect that cyborg insects, including locusts and beetles, could one day be used to inspect flooded pipes, drains, tunnels and other hard-to-access places.

Next steps include improving the diving suit to potentially include sensors and a navigation system; and testing the design in simulated disaster environments, according to the statement.

Fan, Z., Kai, K., Song, K., Le, D. L., Tran, T. H., Hao, M., Wan, W. Y., Umezu, S., & Sato, H. (2026). Underwater Suit-Wearing cyborg insect capable of Hours-Long diving and Terra-Aqua travel. Nature Communications, 17(1). https://doi.org/10.1038/s41467-026-74235-1

Source link

Share. Facebook Twitter Pinterest LinkedIn Tumblr Email
Previous ArticlePhysicists develop the first working model of quantum mechanics using only ‘real’ numbers
Editor
  • Website

Related Posts

Lifestyle

Physicists develop the first working model of quantum mechanics using only ‘real’ numbers

July 10, 2026
Lifestyle

Dirty ‘button’ unearthed by metal detectorist turns out to be a rare 900-year-old coin from Norway’s last Viking king, Magnus Barefoot

July 10, 2026
Lifestyle

Malaria had nearly been eliminated around a giant dam in the Amazon — but then it came roaring back. Experts just discovered why.

July 9, 2026
Add A Comment

Comments are closed.

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Recent Posts
  • Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs
  • Physicists develop the first working model of quantum mechanics using only ‘real’ numbers
  • Dirty ‘button’ unearthed by metal detectorist turns out to be a rare 900-year-old coin from Norway’s last Viking king, Magnus Barefoot
  • Malaria had nearly been eliminated around a giant dam in the Amazon — but then it came roaring back. Experts just discovered why.
  • ‘800 seconds for a sick visit’: Some factors driving antibiotic resistance have nothing to do with biology, says medical sociologist Julia Szymczak
calendar
July 2026
M T W T F S S
 12345
6789101112
13141516171819
20212223242526
2728293031  
« Jun    
Recent Posts
  • Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs
  • Physicists develop the first working model of quantum mechanics using only ‘real’ numbers
  • Dirty ‘button’ unearthed by metal detectorist turns out to be a rare 900-year-old coin from Norway’s last Viking king, Magnus Barefoot
About

Welcome to Baynard Media, your trusted source for a diverse range of news and insights. We are committed to delivering timely, reliable, and thought-provoking content that keeps you informed
and inspired

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Facebook X (Twitter) Pinterest WhatsApp
  • Contact Us
  • About Us
  • Privacy Policy
  • Disclaimer
  • UNSUBSCRIBE
© 2026 copyrights reserved

Type above and press Enter to search. Press Esc to cancel.