Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog

Category: engineering

Rubber electronics are first to offer complementary metal–oxide–semiconductor functionality

Researcher Cunjiang Yu and his research team, including several of his former students, have announced a significant milestone in materials and electronics engineering: the creation of what they call “rubbery CMOS,” which provides the same functionality as conventional CMOS (complementary metal–oxide–semiconductor) circuits, but is made from entirely different materials.

The research is published in the journal Science Advances.

The great benefit of rubbery CMOS is that it provides the circuit functionality of conventional CMOS while also being stretchable and deformable.

GlobalLogic warns 10,000 employees of data theft after Oracle breach

GlobalLogic, a provider of digital engineering services part of the Hitachi group, is notifying over 10,000 current and former employees that their data was stolen in an Oracle E-Business Suite (EBS) data breach.

Based in Santa Clara, California, this software and product development services company was founded in 2000. Since then, it has expanded to 59 product engineering centers and several offices worldwide.

In a breach notification letter filed with the office of Maine’s Attorney General, the company states that the attackers exploited an Oracle EBS zero-day vulnerability to steal personal information belonging to 10,471 employees.

Engineering colloidal crystals molecule by molecule

Scientists built these tiny diamond crystals using a technique known as DNA origami, in which DNA molecules fold themselves into elaborate shapes.

Learn more in this 2024 Science Perspective on OrigamiDay.

DNA particles are programmed to assemble with precision into complex lattices.

Zhe Li and Chengde Mao Authors Info & Affiliations

Science

Vol 384, Issue 6697

Continue reading “Engineering colloidal crystals molecule by molecule” | >

High-speed imaging tracks live brain cell activity in awake mice

A research team from the School of Engineering at The Hong Kong University of Science and Technology (HKUST) has achieved a breakthrough in brain imaging by developing the world’s first technology to capture high-resolution images of the brains of awake experimental mice in a nearly noninvasive manner.

By eliminating the need for anesthesia, this innovation enables scientists to study in its fully functional state. The advancement promises deeper insights into human brain function in both healthy and diseased conditions, opening new frontiers in neuroscience research.

The study was recently published in Nature Communications in a paper titled “Rapid adaptive optics enabling near-noninvasive high-resolution brain imaging in awake behaving mice.”

Nano-bio interfaces for electrical and biochemical signal transduction

Nano-bio interfaces enable communication between synthetic materials and biological systems at the nanoscale, with their functionality shaped by material properties, surface chemistry and topography. This Review discusses the key considerations and methods for engineering nano-bio interfaces for bioelectrical signal detection and biochemical signal transduction.

Climate intervention may lower protein content in major global food crops

A new study in Environmental Research Letters reports that cooling the planet by injecting sulfur dioxide into the stratosphere, a proposed climate intervention technique, could reduce the nutritional value of the world’s crops.

Scientists at Rutgers University used and crop models to estimate how stratospheric aerosol intervention (SAI), one type of solar geoengineering, would impact the protein level of the world’s four major food crops: maize, rice, wheat, and soybeans. The SAI approach, inspired by volcanic eruptions, would involve releasing into the stratosphere. This gas would transform into sulfuric acid particles, forming a persistent cloud in the upper atmosphere that reflects a small part of the sun’s radiation, thereby cooling Earth.

While these are primarily sources of carbohydrates, they also provide a substantial share of dietary protein for large portions of the global population. Model simulations suggested that increased CO2 concentrations tended to reduce the protein content of all four crops, while increased temperatures tended to increase the protein content of crops. Because SAI would stop temperatures from increasing, the CO2 effect would not be countered by warming, and protein would decrease relative to a warmer world without SAI.

Nanoparticles that enhance mRNA delivery could reduce vaccine dosage and costs

A new delivery particle developed at MIT could make mRNA vaccines more effective and potentially lower the cost per vaccine dose.

In studies in mice, the researchers showed that an mRNA influenza vaccine delivered with their new lipid nanoparticle could generate the same immune response as mRNA delivered by nanoparticles made with FDA-approved materials, but at around 1/100 the dose.

“One of the challenges with mRNA vaccines is the cost,” says Daniel Anderson, a professor in MIT’s Department of Chemical Engineering and a member of MIT’s Koch Institute for Integrative Cancer Research and Institute for Medical Engineering and Science (IMES).

The Lunar Module Descent Engine: Apollo’s Most Complex Rocket Motor

The Lunar Module’s Descent Propulsion System (DPS) was the first engine in history that could throttle continuously in deep space — a breakthrough that made Apollo’s lunar landing possible. This engine had to ignite once, vary its thrust smoothly from 10 to 100 percent, avoid combustion instability, and hold steady while the LM hovered just feet above the Moon.
In this video, we explore the real engineering behind the DPS: its hypergolic fuels, injector plate design, the early “chugging” instability problem, throttle control logic, and how the engine kept working even as Apollo 11 pushed it to its limits.
If you enjoy deep dives into Apollo engineering, this one’s for you.

🚀 Every like, comment, and share helps keep Apollo’s engineering story alive.

If you liked this video, please share it with a friend and leave a comment below — it really helps the channel grow.

🚀 New Apollo episodes every week!

📘 Recommended Reading for Space Enthusiasts.

Explore the real stories, engineering, and people behind the Apollo Program — these are the best books to deepen your knowledge:

Continue reading “The Lunar Module Descent Engine: Apollo’s Most Complex Rocket Motor” | >

Composite metal foam could lead to safer hazmat transportation

A new study finds that composite metal foam (CMF) can withstand tremendous force—enough to punch a hole in a railroad tank car—at much lower weight than solid steel. The finding raises the possibility of creating a safer generation of tanker cars for transporting hazardous materials.

The researchers have also developed a that can be used to determine what thickness of CMF is needed in order to provide the desired level of protection necessary for any given application. The paper, “Numerical Model and Experimental Validation of Composite Metal Foam in Protecting Carbon Steel Against Puncture,” is published in Advanced Engineering Materials.

“Railroad tank cars are responsible for transporting a wide range of hazardous materials, from acids and chemicals to petroleum and liquefied ,” says Afsaneh Rabiei, corresponding author of a paper on the work and a professor of mechanical and aerospace engineering at North Carolina State University.

Breakthrough could connect quantum computers at 200X the distance

Quantum computers are powerful, lightning-fast and notoriously difficult to connect to one another over long distances.

Previously, the maximum distance two quantum computers could connect through a was a few kilometers. This means that, even if fiber cable were run between them, quantum computers in the University of Chicago’s South Side campus and downtown Chicago’s Willis Tower would be too far apart to communicate with each other.

Research published today in Nature Communications from University of Chicago Pritzker School of Molecular Engineering (UChicago PME) Asst. Prof. Tian Zhong would theoretically extend that maximum to 2,000 km (1,243 miles).

/* */