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Jun 3, 2024

See The ‘Solstice Moon,’ A Red Giant And ‘Space Clouds:’ June’s Night Sky

Posted by in category: space

June’s astronomical events include a beautiful crescent moon, noctilucent clouds, the summer solstice, the first full moon of summer, and a giant rocket launch.

Jun 2, 2024

Neuralink rival shatters record, implants 4,096 electrodes in brain

Posted by in category: neuroscience

The higher number of electrodes allows more data to be transmitted to and from the brain, impacting the interface system’s capabilities.


Precision Neuroscience has set a new world record by implanting 4,096 electrodes in a human brain, surpassing Neuralink.

Jun 2, 2024

The Andromeda Strain

Posted by in category: biotech/medical

Directed with clinical precision by Academy Award winner Robert Wise, this compelling account of the earth’s first biological crisis is perhaps the most chillingly realistic science fiction thriller ever made. After an errant satellite crashes on Earth near a remote New Mexico village, the recovery team discovers that almost everyone in the town are victims of a horrible death, with the mysterious exception of an infant and an old homeless man. The survivors are brought to a state-of-the-art laboratory descending five stories beneath the ground where the puzzled scientists race against time to determine the nature of the deadly microbe before it wreaks worldwide havoc. A trailblazer in the areas of special effects and inventive sets, The Andromeda Strain is based on Michael Crichton’s best-selling novel that created national paranoia for its topical relevance to the first moon landing.

Jun 2, 2024

A Gene Editing Treatment That Takes Aim at Herpes Infections

Posted by in categories: bioengineering, biotech/medical, neuroscience

It’s estimated that almost half of the world’s population — about 3.7 billion people under the age of 50 — are infected with (HSV-1), which can cause oral herpes. About half a billion people between the ages of 15 and 49 are infected with herpes simplex virus-2 (HSV-2), the cause of genital herpes. There are therapeutics that can eliminate some symptoms of herpes, like blisters, but there is no cure for the infection, and those who are infected can spread the virus to others. Studies have suggested that HSV-1 may increase the risk of dementia, and HSV-2 raises the risk of HIV infection.

Scientists have now developed a gene therapy that can eliminate as much as 90 percent of oral herpes and 97 percent of genital herpes infections in pre-clinical mouse models. The gene therapy also reduced the level of virus that was released from an individual in a mouse model of the infection. These reductions took about one month to be completed, and more of the virus seemed to be eliminated over time. The work has been reported in Nature Communications.

Jun 2, 2024

Understanding Abstractions in Neural Networks

Posted by in category: robotics/AI

How thinking machines implement one of the most important functions of cognition.

Jun 2, 2024

Mussel-Inspired Technique Paves Way for Efficient Nanoparticle Assembly

Posted by in categories: chemistry, nanotechnology, particle physics

Nanoscale materials offer remarkable chemical and physical properties that transform theoretical applications, like single-molecule sensing and minimally invasive photothermal therapy, into practical realities.

The unparalleled features of nanoparticles make them promising for various research and industrial uses. However, effectively using these materials is challenging due to the absence of a rapid and consistent method to transfer a uniform monolayer of nanoparticles, a crucial step in device manufacturing.

One potential solution to this challenge lies in electrostatic assembly processes, where oppositely charged nanoparticles adhere to a surface, forming a monolayer that repels other similarly charged particles from attaching further. While effective, this process is often slow. Nature provides an innovative model to address this limitation through underwater adhesion strategies, which have evolved to circumvent similar problems.

Jun 2, 2024

Cancer patients often do better with less intensive treatment, new research finds

Posted by in category: biotech/medical

Scaling back treatment for three kinds of cancer can make life easier for patients without compromising outcomes, doctors reported at the world’s largest cancer conference.

It’s part of a long-term trend toward studying whether doing less — less surgery, less chemotherapy or less radiation — can help patients live longer and feel better. The latest studies involved ovarian and esophageal cancer and Hodgkin lymphoma.

Thirty years ago, cancer research was about doing more, not less. In one sobering example, women with advanced breast cancer were pushed to the brink of death with massive doses of chemotherapy and bone marrow transplants. The approach didn’t work any better than chemotherapy and patients suffered.

Jun 2, 2024

Pursuing the 100,000-Qubit Quantum Computer Through Japan-U.S. Collaboration

Posted by in categories: quantum physics, supercomputing

Industry and academia in Japan and the United States are collaborating on research to pioneer quantum-centric supercomputing.

Jun 2, 2024

Convolutional Neural Networks (CNNs) Explained

Posted by in category: robotics/AI

Learn the basics of Convolutional Neural Networks (CNNs) in this beginner-friendly guide. Discover how they work, their applications in image recognition, and how they’re changing the world of AI.

Jun 2, 2024

Machine intelligence accelerated design of conductive MXene aerogels with programmable properties

Posted by in categories: bioengineering, nanotechnology, robotics/AI, wearables

Conductive aerogels have gained significant research interests due to their ultralight characteristics, adjustable mechanical properties, and outstanding electrical performance1,2,3,4,5,6. These attributes make them desirable for a range of applications, spanning from pressure sensors7,8,9,10 to electromagnetic interference shielding11,12,13, thermal insulation14,15,16, and wearable heaters17,18,19. Conventional methods for the fabrication of conductive aerogels involve the preparation of aqueous mixtures of various building blocks, followed by a freeze-drying process20,21,22,23. Key building blocks include conductive nanomaterials like carbon nanotubes, graphene, Ti3C2Tx MXene nanosheets24,25,26,27,28,29,30, functional fillers like cellulose nanofibers (CNFs), silk nanofibrils, and chitosan29,31,32,33,34, polymeric binders like gelatin25,26, and crosslinking agents that include glutaraldehyde (GA) and metal ions30,35,36,37. By adjusting the proportions of these building blocks, one can fine-tune the end properties of the conductive aerogels, such as electrical conductivities and compression resilience38,39,40,41. However, the correlations between compositions, structures, and properties within conductive aerogels are complex and remain largely unexplored42,43,44,45,46,47. Therefore, to produce a conductive aerogel with user-designated mechanical and electrical properties, labor-intensive and iterative optimization experiments are often required to identify the optimal set of fabrication parameters. Creating a predictive model that can automatically recommend the ideal parameter set for a conductive aerogel with programmable properties would greatly expedite the development process48.

Machine learning (ML) is a subset of artificial intelligence (AI) that builds models for predictions or recommendations49,50,51. AI/ML methodologies serve as an effective toolbox to unravel intricate correlations within the parameter space with multiple degrees of freedom (DOFs)50,52,53. The AI/ML adoption in materials science research has surged, particularly in the fields with available simulation programs and high-throughput analytical tools that generate vast amounts of data in shared and open databases54, including gene editing55,56, battery electrolyte optimization57,58, and catalyst discovery59,60. However, building a prediction model for conductive aerogels encounters significant challenges, primarily due to the lack of high-quality data points. One major root cause is the lack of standardized fabrication protocols for conductive aerogels, and different research laboratories adopt various building blocks35,40,46. Additionally, recent studies on conductive aerogels focus on optimizing a single property, such as electrical conductivity or compressive strength, and the complex correlations between these attributes are often neglected to understand37,42,61,62,63,64. Moreover, as the fabrication of conductive aerogels is labor-intensive and time-consuming, the acquisition rate of training data points is highly limited, posing difficulties in constructing an accurate prediction model capable of predicting multiple characteristics.

Herein, we developed an integrated platform that combines the capabilities of collaborative robots with AI/ML predictions to accelerate the design of conductive aerogels with programmable mechanical and electrical properties (see Supplementary Fig. 1 for the robot–human teaming workflow). Based on specific property requirements, the robots/ML-integrated platform was able to automatically suggest a tailored parameter set for the fabrication of conductive aerogels, without the need for conducting iterative optimization experiments. To produce various conductive aerogels, four building blocks were selected, including MXene nanosheets, CNFs, gelatin, and GA crosslinker (see Supplementary Note 1 and Supplementary Fig. 2 for the selection rationale and model expansion strategy). Initially, an automated pipetting robot (i.e., OT-2 robot) was operated to prepare 264 mixtures with varying MXene/CNF/gelatin ratios and mixture loadings (i.e.

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