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Dec 23, 2021

Woman moves into first 3D printed home in US, created by Habitat for Humanity

Posted by in categories: habitats, materials

WILLIAMSBURG, Va. (WTKR) — Habitat for Humanity made the first 3D printed home in the U.S. for a woman in Virginia.

“To have a home right before Christmas is really, really exciting,” homeowner April Stringfield said.

In July, crews broke ground on the 1,200-square-foot, three-bedroom concrete home.

Dec 23, 2021

Australian discovered graphene material could be key to low-cost next-gen batteries

Posted by in categories: energy, sustainability, transportation

Australian researchers have struck a deal to commercialise a new next-generation graphene material they say could unlock cheaper and better performing lithium-ion batteries.

Researchers at the ARC Centre of Excellence for Electromaterials Science (ACES), based at the University of Wollongong, say they have discovered a new form of graphene, called ‘Edge Functionalised Graphene’ (EFG), which is both highly conductive and processable for use in a range of electronics.

This includes lithium-ion batteries, with the innovative graphene material promising to improve the efficiency and lower the cost of battery technology used in energy storage devices and electric vehicles.

Dec 23, 2021

Machine learning used to predict synthesis of complex novel materials

Posted by in categories: chemistry, information science, nanotechnology, quantum physics, robotics/AI

Scientists and institutions dedicate more resources each year to the discovery of novel materials to fuel the world. As natural resources diminish and the demand for higher value and advanced performance products grows, researchers have increasingly looked to nanomaterials.

Nanoparticles have already found their way into applications ranging from energy storage and conversion to quantum computing and therapeutics. But given the vast compositional and structural tunability nanochemistry enables, serial experimental approaches to identify impose insurmountable limits on discovery.

Now, researchers at Northwestern University and the Toyota Research Institute (TRI) have successfully applied to guide the synthesis of new nanomaterials, eliminating barriers associated with materials discovery. The highly trained algorithm combed through a defined dataset to accurately predict new structures that could fuel processes in clean energy, chemical and automotive industries.

Dec 23, 2021

Quantum computing: Forget about qubits, here come qutrits

Posted by in categories: computing, quantum physics

Rigetti unveils 80-qubit processor quantum computer consisting of two 40-qubit computers, and experiments with ‘third state’ in quantum processors.

Dec 23, 2021

Trial: Israeli drug prevents 100% of COVID-19 patients from deterioration

Posted by in category: biotech/medical

All 18 COVID-19 patients hospitalized with moderate or severe symptoms who were administered the drug Amor-18 developed by Israeli biotech company Amorphical in a phase II clinical trial recovered and were discharged in a few days, the company announced Wednesday. Of the 19 individuals who were given a placebo, six had to be transferred to intensive care, and two died.


All 18 hospitalized individuals administered the treatment developed by Israeli biotech company Amorphical in a phase II trial recovered and were discharged in a few days.

Dec 22, 2021

Israel announces fourth dose of COVID vaccine | Latest English News | World News | WION

Posted by in category: biotech/medical

When three is not enough.


Israel has announced a fourth dose of the COVID-19 vaccine to people older than 16. The additional dose will be given to senior citizens, medical workers, people with suppressed immune system.

Continue reading “Israel announces fourth dose of COVID vaccine | Latest English News | World News | WION” »

Dec 22, 2021

Tiny Brain Implants Hold Big Promise for Immobilized Patients

Posted by in categories: biotech/medical, neuroscience

Companies and labs are racing to build next-generation devices that track and translate brain activity to help people immobilized by disease or injury handle tasks requiring movement.

Dec 22, 2021

First AI-Designed Drug Candidate To Reach Human Trials

Posted by in categories: biotech/medical, robotics/AI

Artificial intelligence (AI) backed drug discovery company Insilico Medicine announced last week that it was dosing the first healthy volunteer in a microdose trial of ISM 001–005. Designed with the help of AI, the drug is a small-molecule inhibitor of a biological target that was discovered by Pharma. AI. The trial is being conducted in Australia.

The AI-designed drug will be used to treat chronic lung disease idiopathic pulmonary fibrosis, or IPF usually leads to progressive and irreversible lung-function decline and affects 20 people out of over 100,000 globally.

Chief Scientific Officer of Insilico, Freng Ren, said in a press release that this drug discovery and trial marks a significant milestone in the AI-drug discovery space. This is because the said candidate is the first-ever AI-discovered novel molecule based on an AI-discovered target.

Dec 22, 2021

Antibodies Are Being Created to Fight Disease in New Ways

Posted by in category: biotech/medical

Targeting cancers and viruses, better knowledge of the human immune system is leading to new medicines.

Dec 22, 2021

Fabrication of flexible electronics improved using gold and water-vapor plasma

Posted by in categories: entertainment, wearables

Researchers at the RIKEN Center for Emergent Matter Science (CEMS) and the RIKEN Cluster for Pioneering Research (CPR) in Japan have developed a technique to improve the flexibility of ultra-thin electronics, such as those used in bendable devices or clothing. Published in Science Advances, the study details the use of water vapor plasma to directly bond gold electrodes fixed onto separate ultra-thin polymer films, without needing adhesives or high temperatures.

As get smaller and smaller, and the desire to have bendable, wearable, and on-skin electronics increases, conventional methods of constructing these devices have become impractical. One of the biggest problems is how to connect and integrate multiple devices or pieces of a that each reside on separate ultra-thin polymer films. Conventional methods that use layers of adhesive to stick electrodes together reduce flexibility and require temperature and pressure that are damaging to super-thin electronics. Conventional methods of direct metal-to-metal bonding are available, but require perfectly smooth and clean surfaces that are not typical in these types of electronics.

A team of researchers led by Takao Someya at RIKEN CEMS/CPR has developed a new method to secure these connections that does not use adhesive, high temperature, or high pressure, and does not require totally smooth or clean surfaces. In fact, the process takes less than a minute at room temperature, followed by about a 12-hour wait. The new technique, called water-vapor plasma-assisted bonding, creates stable bonds between gold electrodes that are printed into ultra-thin—2 thousandths of a millimeter—polymer sheets using a thermal evaporator.