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MIT engineers have achieved a major breakthrough with the creation of a zinc-air microbattery, a device so tiny it measures just 0.1 millimetres in length and 0.002 millimetres in thickness—about the thickness of a human hair. This innovative battery harnesses oxygen from the air to oxidise zinc, generating up to 1 volt of power. This significant advancement could transform the capabilities of cell-sized robots, enabling them to perform tasks such as drug delivery within the human body and detecting gas leaks in pipelines.

Tiny Batteries, Big Impact

The new battery design addresses a major challenge in robotics: powering extremely small devices. Traditional robots often rely on external light or laser sources for power, limiting their mobility and functionality. By integrating the power source directly into the robots, MIT’s zinc-air batteries provide the autonomy needed for these devices to operate independently. Michael Strano, senior author of the study, emphasises the impact of this development: “We’re building robotic functions onto the battery and starting to put these components together into devices.”

Advancing Robotic Capabilities

The research team, led by Ge Zhang and Sungyun Yang, has demonstrated that these batteries can power a range of robotic components. These include actuators that move robotic arms, memristors for memory storage, and sensors that detect chemicals. The vision for these tiny robots includes their potential use in medical applications, such as injecting them into the human body to administer drugs like insulin. They could also be used in industrial settings to monitor and respond to environmental changes.

Future Prospects

Looking ahead, the MIT team plans to integrate the batteries directly into robotic devices, moving beyond the current prototype stage where the battery is connected externally. Future research will focus on increasing the battery’s voltage and exploring additional applications. Supported by funding from the U.S. Army Research Office, the Department of Energy, and the National Science Foundation, this innovation marks a significant step forward in creating more autonomous and versatile robotic systems.

This advancement holds promise for both medical and industrial applications, representing a substantial leap in the capabilities of tiny robots.

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Solar Sail Spacecraft Could Boost Space Weather Warnings by Nearly 60 Minutes

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August 4, 2025

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Solar Sail Spacecraft Could Boost Space Weather Warnings by Nearly 60 Minutes

A potential new solar sail-powered satellite mission is offering an extended early warning of extreme space weather events to safely shut down the most vulnerable pieces of our tech — without waiting for them to fail mid-activity and then figuring out why. Going far beyond Earth in the traditional sense of this type of satellite, the solar sail spacecraft would provide almost 20 more minutes of warning time (up to about 60 minutes total) before some very dangerous geomagnetic storms. These eruptions, called coronal mass ejections, cause space weather events that can disrupt satellites, damage power grids, and expose astronauts to cosmic radiation through the ability to ground high-altitude commercial flights. The better the predictions, the more time for critical systems to respond, so overall it is supposed to work out.

Solar Sail Mission SWIFT Aims to Boost Space Weather Forecasting from Beyond L1 Point

According to a report published by The Conversation and contributed to Space.com, the new SWIFT (Space Weather Investigation Frontier) mission will put a satellite with a lightweight solar sail on it out at 2.1 million kilometers from Earth, which is farther than the existing L1 Lagrange point where solar wind is monitored now. That might mean a longer warning — “lead” time, in space weather speak — which would give satellite operators more time to shield their satellites, prevent astronauts from being exposed to high radiation, and allow airlines to chart the safest ways for planes.

The new solar spacecraft, Solar Cruiser, stays in orbit by a balance created from the Sun’s gravity and solar photons bounced off a reflective sail. And far larger than previous sail missions like NASA’s NanoSail-D2 and JAXA’s IKAROS. This steers the satellite post-launch.

Solar Cruiser, part of the SWIFT constellation, will measure solar wind at several vantage points for better interplanetary space weather forecasting. Enquire for more economical on-ground space weather forecasts and missions such as SWIFT that help protect our planet from imploding due to solar emissions.

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NASA Data Shows Pluto’s Equator Is Lined with Towering Methane Ice Spires

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August 4, 2025

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NASA Data Shows Pluto’s Equator Is Lined with Towering Methane Ice Spires

The skyscraper size of methane ice might cover around 60% of the equatorial region of Pluto, a larger area than astronomers actually estimated. This study was published on July 5, 2025 in the Journal of Geophysical Reserach. It was based on the data from NASA’s New Horizons spacecraft which captured close images of it around 10 years ago on July 14, 2025. Amid that flyby, the spacecraft located spires of methane ice, each is about 1000 feet tall.

Pluto’s Methane Spires Span Vast Equatorial Zone with Uncertain Pattern

As per NASA’s data they are separated to 4.4 miles in a shape which is somewhat parallel rows and form a geological feature which is called bladed terrain. The features seems to be larger and more spaced out verison of the penitentes of Earth which is a structure of water ice that creates a maximum of 9 feet. Almost the same structure was observed on Jupiter’s moon named Europa and also might be there on Mars.

Additional data collected at infrared frequencies signaled that the dwarf planet’s most of the region was methane rich, which shows that the spires are too. The results show that the bladed terrain of methane ice spires exists in a band that spans about 60% of the circumference of the planet.

Future Missions Needed to Confirm Pluto’s Mysterious Methane Landscape

This is equal to five times the width of the United States continental part, majority spotted on non-encounter hemispheres. However, it is still nort sure if the band is patchy or even. The band spans between 30 degrees south and north of the equator of Pluto.

Bladed terrain formation relies on methane’s long term cycle condensation and sublimation. These are controlled by the season of Pluto and its orbital variations. Straight evidence would be required to confirm the recent observations by the scientists. The most certain way to confirm the extension of bladed terrain into the dark side of Pluto is the future spacecraft mission.

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Blue Origin’s NS-34 Mission Successfully Carries Global Crew

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August 4, 2025

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Blue Origin’s NS-34 Mission Successfully Carries Global Crew

Blue Origin sent crypto billionaire with five people for finding frontier on August 3, 2025. This mission is known for NS-34, as it was the 34th flight by Blue Origin’s New Shephard vehicle. It was lifted from the West Texas spaceport at 8:43 a.m. EDT. NS-34 passenger was Justin Sun, founded blockchain platform Tron and is a billionaire. There was a scheduling conflict which kept Sun from joining the flight that took place on July 20, 2021. That day the passengers were Jeff Bezos, Mark, Wally Funk and Oliver Daemen.

A Diverse Global Crew Marks Blue Origin’s 14th Crewed Mission

According to report by Space.com, on Sunday, the crew consist of Arvinder, an India native American real estate adventurer and investor; a businessman Gokhan Erdem, a journalist and meterologist Lionel Pitchfor, a photographer Deborah Martorell, and an entrepreneur James Russell. It was great to see different nations representing their flight, said by Phil Joyce, senior Vice President of Blue Origin.

All the six of them were rookies of spaceflight except for Russell, who flew on NS-28 mission during November 2024. It was the 14th human spaceflight which includes a rocket topped by a crew capsule. Both the elements are reusable, and the rocket comes back just like the SpaceX’s Falcon 9 rockets and the capsule lands softly.

Each flight of New Shepard lasts for 10 to 12 minutes from the liftoff to capsule touchdown. Amidst, brieftime, the passengers remain above the Karman line at a height of 62 miles demarcation widely which is regarded as the nexus from where the space starts, and then it experiences weightlessness of a few minutes.

From Billionaire Seats to STEAM Dreams

Blue Origin has not shown the ticket prices, so there is no idea how much penny the folks have paid for this ride. However, it is safer to say that it was considerably less than the Sun went in the year 2021. That amount was a philanthropic contribution as per Blue Origin. Further, from $28 million bid 19 space focused charities were benefitted and inspired future generations to make careers in STEAM and shape up their future in space.

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