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Category: engineering

Lab-grown diamond coatings shown to prevent mineral scale in industrial pipes

In industrial pipes, mineral deposits build up the way limescale collects inside a kettle ⎯ only on a far larger and more expensive scale. Mineral scaling is a major issue in water and energy systems, where it slows flow, strains equipment and drives up costs.

A new study by Rice University engineers shows that lab-grown diamond coatings could resolve the issue, providing an alternative to chemical additives and mechanical cleaning, both of which offer only temporary relief and carry environmental or operational downsides.

“Because of these limitations, there is growing interest in materials that can naturally resist scale formation without constant intervention,” said Xiang Zhang, assistant research professor of materials science and nanoengineering and a first author on the study alongside Rice postdoctoral researcher Yifan Zhu. “Our work addresses this urgent need by identifying a coating material that can ‘stay clean’ on its own.”

Metasurfaces etched into 2D crystals boost nonlinear optical effects at nanoscale

In January, a team led by Jim Schuck, professor of mechanical engineering at Columbia Engineering, developed a method for creating entangled photon pairs, a critical component of emerging quantum technologies, using a crystalline device just 3.4 micrometers thick.

Now, in a paper published in Nature Photonics in October, Columbia Engineers have shrunk nonlinear platforms with high efficiency down to just 160 nanometers by introducing metasurfaces: artificial geometries etched into ultrathin crystals that imbue them with new optical properties.

“We’ve established a successful recipe to pattern ultrathin crystals at the nanoscale to enhance nonlinearity while maintaining their sub-wavelength-thickness,” said corresponding author Chiara Trovatello is currently an assistant professor at Politecnico di Milano and was a Marie Skłodowska-Curie Global Fellow at Columbia working with Schuck.

New implant captures gut-brain signals in awake, moving animals

Scientists have been able to measure the electrical signals in the “second brain in our guts” for the first-ever time, giving renewed understanding to its interconnection with the brain.

Researchers from the Department of Chemical Engineering and Biotechnology (CEB) and Department of Engineering at the University of Cambridge, and Thayer School of Engineering at Dartmouth have created a miniature device, thinner than the width of a hair, that can be placed between the layers of the colon to record these signals.

The device, a soft, flexible electronic implant, has been tested in rodents and pigs so far and works even in freely moving animals, detecting responses to various stimulants and physical pressure.

Quantum Breakthrough Unlocks Potential of “Miracle Material” for Future Electronics

Graphene is a remarkable “miracle” material, consisting of a single, atom-thin layer of tightly connected carbon atoms that remains both stable and highly conductive. These qualities make it valuable for many technologies, including flexible screens, sensitive detectors, high-performance batteries, and advanced solar cells.

A new study, carried out by the University of Göttingen in collaboration with teams in Braunschweig and Bremen in Germany, as well as Fribourg in Switzerland, shows that graphene may be even more versatile than previously believed.

For the first time, researchers have directly identified “Floquet effects” in graphene. This finding settles a long-running question: Floquet engineering – an approach that uses precise light pulses to adjust a material’s properties – can also be applied to metallic and semi-metallic quantum materials like graphene. The work appears in Nature Physics.

How small can optical computers get? Scaling laws reveal new strategies

The research, published in Nature Communications, addresses one of the key challenges to engineering computers that run on light instead of electricity: making those devices small enough to be practical. Just as algorithms on digital computers require time and memory to run, light-based systems also require resources to operate, including sufficient physical space for light waves to propagate, interact and perform analog computation.

Lead authors Francesco Monticone, associate professor of electrical and computer engineering, and Yandong Li, Ph.D. ‘23, postdoctoral researcher, revealed scaling laws for free-space optics and photonic circuits by analyzing how their size must grow as the tasks they perform become more complex.

From light to logic: First complete logic gate achieved in soft material using light alone

Researchers from McMaster University and the University of Pittsburgh have created the first functionally complete logic gate—a NAND gate (short for “NOT AND”)—in a soft material using only beams of visible light. The discovery, published in Nature Communications, marks a significant advance in the field of materials that compute, in which materials themselves process information without traditional electronic circuitry.

“This project has been part of my scientific journey for over a decade,” said first author Fariha Mahmood, who began studying the gels as an undergraduate researcher at McMaster and is now pursuing postdoctoral research at the University of Cambridge. “To see these materials not only respond to light but also perform a logic operation feels like watching the material ‘think.’ It opens the door to soft systems making decisions on their own.”

Mahmood is joined by authors Anna C. Balazs, distinguished professor of chemical and petroleum engineering, and Victor V. Yashin, research assistant professor at Pitt’s Swanson School of Engineering; and corresponding author Kalaichelvi Saravanamuttu, professor of chemistry and chemical biology at McMaster.

Dr. Eric Drexler — The Path to Atomically Precise Manufacturing

Eric Drexler is a Senior Visiting Fellow at the Oxford Martin School, and a pioneering nanotechnology researcher and author. His 1981 paper in the Proceedings of the National Academy of Sciences established fundamental principles of molecular engineering and identified development paths leading to advanced nanotechnologies.

In his 1986 book, Engines of Creation, he introduced a broad audience to the promise of high-throughput atomically precise manufacturing, a prospective technology using nanoscale machinery to guide molecular motion and bonding, thereby structuring matter from the bottom up.

Link to full video: • Nanotechnology: the big picture with Dr Er…

Recorded: 2016

Enzyme-free approach gently detaches cells from culture surfaces

Anchorage-dependent cells are cells that require physical attachment to a solid surface, such as a culture dish, to survive, grow, and reproduce. In the biomedical industry, and others, having the ability to culture these cells is crucial, but current techniques used to separate cells from surfaces can induce stresses and reduce cell viability.

“In the pharmaceutical and biotechnology industries, cells are typically detached from culture surfaces using enzymes—a process fraught with challenges,” says Kripa Varanasi, MIT professor of mechanical engineering. “Enzymatic treatments can damage delicate cell membranes and surface proteins, particularly in primary cells, and often require multiple steps that make the workflow slow and labor-intensive.”

Existing approaches also rely on large volumes of consumables, generating an estimated 300 million liters of cell culture waste each year. Moreover, because these enzymes are often animal-derived, they can introduce compatibility concerns for cells intended for human therapies, limiting scalability and high-throughput applications in modern biomanufacturing.

New cable design mitigates flaws in superconducting wires

When current flows through a wire, it doesn’t always have a perfect path. Tiny defects within the wire mean current must travel a more circuitous route, a problem for engineers and manufacturers seeking reliable equipment.

Through a partnership with industry, researchers at the FAMU-FSU College of Engineering and Florida State University’s Center for Advanced Power Systems and the National High Magnetic Field Laboratory have supported the development of a design that uses multiple strands of superconducting tape to create a cable, minimizing the chance of failure from defective spots within a wire. When current encounters a defect in one wire, it jumps to a neighboring wire to continue moving.

The research, which is published in Superconductor Science and Technology, helps to solve engineering and manufacturing challenges for manufacturers and could lead to more efficient and less expensive wires for and many other superconducting coil applications.

Les Johnson — Infinite Frontiers Consulting, LLC — Visions of Humanity’s Future In Space

Visions of humanity’s future in space — les johnson — infinite frontiers consulting, LLC.

Les Johnson is a physicist, author, and space technologist (https://www.lesjohnsonauthor.com/) who most recently served as the Chief Technologist at NASA’s George C. Marshall Space Flight Center.

Les is also the Founder of Infinite Frontiers Consulting (https://www.lesjohnsonauthor.com/infi… an aerospace consulting firm dedicated to helping turn innovative space ventures into reality. After decades leading of missions at NASA and collaborating across the industry, Les is excited to work with clients and partners who are pushing boundaries and advancing cutting-edge space technologies.

Over a distinguished career with NASA, Les played a central role in developing advanced space propulsion systems and pioneering technologies designed to expand humanity’s reach beyond Earth orbit. He has led and contributed to multiple interplanetary technology demonstration missions, including work on solar sails, in-space propulsion, and deep-space exploration architectures.

In addition to his NASA career, Les is an accomplished science fiction author and popular science writer, known for making complex space science accessible to broad audiences. His books—both fiction and nonfiction—explore the scientific and philosophical dimensions of humanity’s future in space (https://www.amazon.com/stores/Les-Joh?tag=lifeboatfound-20…).

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