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A complete blood count can help ascertain the health of a patient and typically includes an estimate of the hemoglobin concentration, which can indicate several conditions, including anemia, polycythemia, and pulmonary fibrosis. In AIP Advances, researchers describe a new AI-powered imaging-based tool to estimate hemoglobin levels. The setup was developed in conjunction with a microfluidic chip and an AI-powered automated microscope that was designed for deriving the total as well as differential counts of blood cells.

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To highlight and enhance the awareness of Black physicists, the American Institute of Physics is partnering with Black in Physics to host a Wikipedia Edit-A-Thon to address inaccuracies and incomplete information on the popular resource website about African American and Black scientists. The event will take place during the last week of Black History Month, Feb. 22-26, and bring together volunteers in the physics community to build and edit Wikipedia pages about Black physicists.

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For explosion wounds as well as some incurred in disasters and accidents, severe hemorrhage is a leading cause of death. Hydrogel dressings, which have advanced in recent years, may help; they are good at promoting wound healing and can better meet the demands of different situations. Many are antibacterial, biodegradable, responsive, and injectable and can fill irregularly shaped wounds. In APL Bioengineering, researchers in China examine some of the recent advances.

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Research into 3D bioprinting has grown rapidly in recent years as scientists seek to re-create the structure and function of complex biological systems from human tissues to entire organs. In APL Bioengineering, researchers from Carnegie Mellon University provide perspective on the Freefrom Reversible Embedding of Suspended Hydrogels 3D bioprinting approach, which solves the issue of gravity and distortion by printing within a yield-stress support bath that holds the bioinks in place until they are cured.

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Advances in the fields of biomaterials and nanotechnology could lead to big breakthroughs in the fight against dangerous viruses like the novel coronavirus that causes COVID-19. In APL Bioengineering, researchers from the Indian Institute of Science describe possibilities being explored by scientists, combining biomaterials and nanotechnology, to make vaccines more effective and build surfaces that could fight and kill viruses on their own.

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School closures, the loss of public spaces, and having to work remotely due to the coronavirus pandemic have caused major disruptions in people’s lives all over the world. After running thousands of simulations of the pandemic response in New York City with variations in social distancing behavior, researchers suggest a reduction in fatal coronavirus cases can be achieved without the need for so much social disruption. They discuss the impacts of the closures of various types of facilities in the journal Chaos.

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A restaurant outbreak in China was widely reported as strong evidence of airflow-induced transmission of COVID-19, but it lacked a detailed investigation about exactly how transmission occurred. In Physics of Fluids, researchers at the University of Minnesota report using advanced simulation methods to capture the complex flows that occur when the cold airflow from air conditioners interacts with the hot plume from a dining table and the transport of virus-loading particles within such flows.

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As COVID-19 spreads via respiratory droplets, researchers have become increasingly interested in the drying of droplets on impermeable and porous surfaces; surfaces that accelerate evaporation can decelerate the spread of the virus. In Physics of Fluids, researchers show a droplet remains liquid for a much shorter time on a porous surface, making it less favorable to survival of the virus. On paper and cloth, the virus survived for only three hours and two days, respectively.

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Scientists are hoping advances in cancer research could lead to a day when a patient's own immune system could be used to fight and destroy a wide range of tumors. Cancer immunotherapy has some remarkable successes, but its effectiveness has been limited to a relatively small handful of cancers. In APL Bioengineering, researchers describe how advances in engineering models of tumors can greatly expand cancer immunotherapy's effectiveness to a wider range of cancers.

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Foods will sometimes get stuck to a heated surface, even if oil or a nonstick frying pan is used. Scientists have investigated the fluid properties of oil on a flat surface and their work, reported in Physics of Fluids, shows convection may be to blame. When the pan is heated from below, a temperature gradient is established in the oil film, as well as a surface tension gradient. This gradient sets up a type of convection known as thermocapillary convection.

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The “second wave” of the coronavirus pandemic has placed much blame on a lack of appropriate safety measures. However, due to the impacts of weather, research suggests two outbreaks per year are inevitable. Though face masks, travel restrictions, and social distancing guidelines help slow the number of new infections in the short term, the lack of climate effects incorporated into epidemiological models presents a glaring hole that can cause long-term effects. In Physics of Fluids, researchers discuss the impacts of these parameters.

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Some promising biosensors and medical devices work well within pristine laboratory environments but may stop working once exposed to real-world conditions. A thick layer of foulants will quickly cover biosensors, and there is no good way to revive them once they quit working. Essentially, a biosensor is only as good as its antifouling properties. In APL Materials, researchers review a variety of approaches developed to combat fouling.

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The Acoustical Society of America is accepting submissions for its 2021 Science Communication Awards. Works should be intended for a general audience and will be judged on their ability to enhance the public’s understanding and appreciation of acoustics and related fields. The deadline for entries is April 1, 2021.

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The positions of air inlets and outlets in confined spaces, such as elevators, greatly affect airborne virus transmission. In Physics of Fluids, researchers show air purifiers may actually increase the spread. They use ultraviolet radiation to kill viruses and other microbes, but they also circulate air, sucking it in and exhausting cleaned air. This adds to overall circulation.

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As the pandemic continues, scientists are increasingly focused on developing methods to assist in decontaminating surfaces and spaces. In Review of Scientific Instruments, researchers report on experimental tools capable of presenting electromagnetic waves to an aerosol mixture with the capability to vary power, energy, and frequency of the electromagnetic exposure. The researchers seek to better characterize the threshold levels of microwave energy needed to inactivate aerosolized viral particles and reduce their ability to spread infection.

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While decades of research have resulted in substantial improvements in surviving cancer, a key challenge remains in identifying new drugs that improve outcomes for patients. In APL Bioengineering, researchers suggest a major hurdle is the paucity of models for cancer research that accurately represent patient tumors. They provide a perspective on strategies using models from individual patients and where the field needs to go in terms of research in animal systems and in culture systems.

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Treatment options for many types of cancers remain limited, due partly to the in vitro tools used to model cancers and that results from animal studies do not always translate well to human disease. These shortcomings point to a clear need for a better, patient-specific model. Researchers suggest bioengineered microscale organotypic models can address this need. They discuss the advantages and capabilities of this technique, as well as its challenges, in the journal APL Bioengineering.

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A Velcro-like fastener with a microscopic design that looks like tiny mushrooms could mean advances for everyday consumers and scientific fields. Currently available fasteners are called hook and loop fasteners and require harder, stiff material. In Biointerphases, researchers describe a design that can use softer materials and still be strong enough to work. The team believes a 3D mushroom design can be made with softer, more flexible materials and provide sufficient interlocking force on the fabric and hold strong.

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In AIP Advances, researchers describe how to exploit DNA origami as a platform to build superconducting nanoarchitectures. The structures they built are addressable with nanometric precision that can be used as a template for 3D architectures that are not possible today via conventional fabrication techniques. Inspired by previous works using the DNA molecule as a template for superconducting nanowires, the group took advantage of a recent bioengineering advance known as DNA origami to fold DNA into arbitrary shapes.

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Biomedical engineers developed a technique to observe wound healing in real time, discovering a central role for cells known as fibroblasts. The work, reported in APL Bioengineering, is the first demonstration of a wound closure model within human vascularized tissue in a petri dish.

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Our brains consist of soft matter bathed in watery cerebrospinal fluid inside a hard skull, and in Physics of Fluids, researchers describe studying another system with the same features, an egg, to search for answers about concussions. Considering that in most concussive brain injuries, the skull does not break, they wanted to find out if it was possible to break or deform the egg yolk without breaking the eggshell and did a simple experiment using an egg scrambler, measuring the soft matter deformation.

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The American Institute of Physics and the National Society of Black Physicists congratulate physicist Thomas A. Searles as the winner of the inaugural Joseph A. Johnson III Award for Excellence. Named to honor the legacy of the renowned experimental physicist and founder of NSBP, the Joseph A. Johnson III Award will be given annually to recognize an early career NSBP physicist who exemplifies Johnson’s ingenuity as a scientist and passion for mentorship and service.

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The American Institute of Physics is still accepting nominations for the 2021 Andrew Gemant Award. The deadline to apply is Jan. 31, 2021. The Gemant Award is presented every year and recognizes the accomplishments of a person who has made significant contributions to the cultural, artistic, or humanistic dimension of physics. Self-nominations are permitted, and nominations of women, members of underrepresented minority groups, and scientists from outside the United States are encouraged.

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Since April 2019, the American Association of Physicists in Medicine has championed a critical way to make X-ray imaging safer and more effective by discontinuing the long-standing practice of placing leaded shields over patient gonads. Today, the National Council on Radiation Protection and Measurements released a statement recommending the discontinuation of routine shielding of patient gonads during X-ray imaging exams and AAPM stands ready to help imaging providers, patients and caregivers to understand and adopt these new best practices – practices that will ensure safer and higher-quality X-ray exams.

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The executive leadership of the American Institute of Physics and seven of its Member Societies have joined more than 1,500 other leaders in signing the CEO Action for Diversity and Inclusion pledge, recommitting their organizations to advance diversity and inclusion in the workplace. The pledge, currently signed by CEOs across 85 industries, was created by CEO Action for Racial Equality, a fellowship to advance racial equity through public policy.

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The American Institute of Physics, the American Astronomical Society, and the Heineman Foundation proudly announce Robert Lupton and David Weinberg as recipients of the 2021 Dannie Heineman Prize for Astrophysics. The award is given annually to recognize outstanding mid-career work in any area of astrophysics.

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Singing may be the next-generation, noninvasive approach to determining the health of a patient’s thyroid. When a person sings, the vibrations create waves in the tissue near the vocal tract called shear waves. If a tumor is present in the thyroid, the elasticity of its surrounding tissue increases, stiffening, and causing the shear waves to accelerate. Using ultrasound imaging to measure these waves, researchers can determine the elasticity of the thyroid tissue. They demonstrate the technique in Applied Physics Letters.

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Sodium-ion batteries are a potential replacement for lithium batteries, but different anodes are needed for the same level of performance. Amorphous carbon is known to be a useful anode, because it has defects and voids that can be used to store sodium ions. Nitrogen/phosphorus-doped carbon also offers appealing electrical properties. In Applied Physics Reviews, researchers describe how they applied basic physical concepts of atomic scale to build high-performance anodes for sodium-ion batteries.

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Dentists and otolaryngologists are at particular risk of infection of COVID-19, since they need direct access to the mouth, nose, and throat of patients. The current solutions are expensive, not highly effective, and not very accessible. In Physics of Fluids, researchers discuss their design of an open-faced helmet for patient use that is connected to a medical-grade air filtration pump from the top that creates a reverse flow of air to prevent cough droplets from exiting the helmet.

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A small and inexpensive sensor, announced in Applied Physics Letters and based on an electrochemical system, could potentially be worn continuously by cardiac patients or others who require constant monitoring. A solution containing electrolyte substances is placed into a small circular cavity that is capped with a thin flexible diaphragm, allowing detection of subtle movements when placed on a patient’s chest. The authors suggest their sensor could be used for diagnosis of respiratory diseases.

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Over 300,000 people die each year in the U.S. due to sudden cardiac death. In many cases, sudden cardiac death is caused by abnormally rapid heart rhythms called tachycardias, which means the heart cannot pump adequate blood to the body. In Chaos, researchers use mice to study tachycardias and find there are intrinsic mechanisms that exist in heart tissue that they hypothesize lead to the self-termination of rapid cardiac rhythm.

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Simply wearing a mask may not be enough to prevent the spread of COVID-19 without social distancing. In Physics of Fluids, researchers tested how different types of mask materials impacted the spread of droplets that carry the coronavirus when we cough or sneeze. Every material tested dramatically reduced the number of droplets that were spread. But at distances of less than 6 feet, enough droplets to potentially cause illness still made it through several of the materials.

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Understanding aerosol concentrations and persistence in public spaces can help determine infection risks. However, measuring these concentrations is difficult, requiring specialized personnel and equipment. Now, researchers demonstrate that a commercial hand-held particle counter can be used for this purpose and help determine the impacts of risk-reducing measures, like ventilation improvements. They describe the quick and easy, portable process in the journal Physics of Fluids.

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Cornell University is developing a system to extract energy from cattle manure to meet the campus’s peak demands for heat in the winter months. In the Journal of Renewable and Sustainable Energy, scientists involved with the project give a detailed analysis of the issues required to make this work, including scientific, economic, and energy policy considerations.

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The American Institute of Physics announced the winner of the 2020 John Torrence Tate Award for International Leadership in Physics to French astrophysicist Catherine Cesarsky. Named after the celebrated American physicist John Torrence Tate, the Tate medal was established in 1959 and is awarded by AIP every two years to non-U.S. citizens for their leadership, research contributions, and service to the international physics community. Previous winners include Fabiola Gianotti, Roald Sagdeev, and Jean Trân Thanh Vân.

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A device developed by scientists at the CY Cergy Paris University and Paris Observatory promises insight into how the building blocks of life form in outer space. In Review of Scientific Instruments, the scientists detail how VENUS -- an acronym of the French phrase “Vers de Nouvelles Syntheses,” which means “toward new syntheses” -- mimics how molecules come together in the freezing darkness of interstellar space.

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Even though it has been widely known that wearing a face mask will help mitigate the community spread of COVID-19, less is known regarding the specific effectiveness of masks in reducing the viral load in the respiratory tracts of those wearing them. In Physics of Fluids, researchers examined the effect of wearing a three-layer surgical mask on inspiratory airflows and the mask’s effects on the inhalation and deposition of ambient particles in the upper respiratory airways.

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Researchers in Japan and Italy are embracing chaos and nonlinear physics to create insectlike gaits for tiny robots -- complete with a locomotion controller to provide a brain-machine interface. Biology and physics are permeated by universal phenomena fundamentally grounded in nonlinear physics, and it inspired the researchers’ work. In the journal Chaos, the group describes using a system of three nonlinear differential equations as a building block for central pattern generators to control the gait of a robotic insect.

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Simulations have been used to predict droplet dispersal patterns in situations where COVID-19 might be spread and results in Physics of Fluids show the importance of the space shape in modeling how droplets move. The simulations are used to determine flow patterns behind a walking individual in spaces of different shape. The results reveal a higher transmission risk for children in some instances, such as behind quickly moving people in a long narrow hallway.

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A Nobel laureate, a “father of the internet,” the first African American administrator of NASA, a former chief technology officer of one of the U.S. Department of Energy’s national research laboratories, and a chemist who is the executive director of The Camille and Henry Dreyfus Foundation -- these five renowned scientists are coming together to join the board of trustees for the AIP Foundation with France Córdova at its helm as founding chair.

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A lemony scent and light sounds could change the way you feel about yourself. Previously, researchers have shown that visual and tactile stimulation can change a person’s perception of their own body weight. Research being presented by Giada Brianza at the 179th ASA Meeting, has found our hearing and sense of smell can also change how we feel about our self-image, which could help improve healthy behaviors.

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Though face masks are important and necessary for controlling the spread of the new coronavirus, they result in muffled speech and a loss of visual cues during communication. Sandie Keerstock, Rajka Smiljanic, and their colleagues examine how this loss of visual information impacts speech intelligibility and memory for native and nonnative speech. They will discuss these communication challenges and how to address them at the 179th ASA Meeting, Dec. 7-10

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As restaurants get noisier, the increasing noise levels could deter older patrons, especially those with mild to severe hearing loss. Researchers from the University of Illinois at Urbana-Champaign will discuss their work on investigating acceptable noise levels that won’t cause restaurant visitors to stay away from certain establishments. Identifying acceptable noise levels helps establish truly “age-friendly” communities. The session will take place as part of the 179th ASA Meeting.

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Listeners can extract a lot of information about a person from their acoustic speech signal. During the 179th ASA Meeting, Dec. 7-10, Tessa Bent, Emerson Wolff, and Jennifer Lentz will describe their study in which listeners were told to categorize 144 unique audio clips of monolingual English talkers into Midland, New York City, and Southern U.S. dialect regions, and Asian American, Black/African American, or white speakers.

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With each atom assigned a tonal signature based on its spectral signature, music can be a powerful tool for helping students understand atomic structure. Jill Linz is working toward synthesizing unique tones for each element to create an acoustic version of the periodic table. She will discuss her progress and the potential applications of the project at the 179th ASA Meeting, Dec. 7-10.

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Researchers have developed a method using ultrasound imaging to score a patient’s lung health, which may help predict if a patient with COVID-19 will worsen. Using 14 points in the lungs, they looked for abnormalities and assigned each spot a score out of 3 based on its severity. Adding up all the points, the researchers found the total lung ultrasound score was higher for those who had a worsening outcome of COVID-19. Umberto Sabatini’s presentation will be a part of the 179th ASA Meeting of the Acoustical Society of America.

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At a North Carolina beach, researchers have been poking and prodding the sand to study how moisture levels affect sounds as they move across the environment. Over short distances, even moderately wet sand reflects sound more like water does than as a solid surface does. Faith Cobb and her team are looking into if the same is true for long-range sound propagation. Their findings will be presented as a part of the 179th ASA Meeting.

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With the ubiquity of masks due to the coronavirus pandemic, understanding speech has become difficult. This especially applies in classroom settings, where the presence of a mask and the acoustics of the room have an impact on students’ comprehension. Pasquale Bottalico has been studying the effects of masks on communication. He will discuss his findings on the best way to overcome hurdles in classroom auditory perception caused by facial coverings at the 179th ASA Meeting.

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Visual cues can change listeners’ perception of others’ accents, and people’s past exposure to varied speech can also impact their perception of accents. Ethan Kutlu will discuss his team’s work testing the impact that visual input and linguistic diversity has on listeners’ perceived accentedness judgments in two different locations: Gainesville, Florida, and Montreal, Canada. The session will take place Dec. 9 as part of the 179th ASA Meeting.

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A noninvasive method to measure the stiffness parameters along fibrous pathways within the brain is helping researchers explore traumatic brain injuries. The stiffness of these tissues can reveal clues about changes and pathologies within the brain’s gray and white matter. During the 179th ASA Meeting, Anthony J. Romano will describe the method known as waveguide elastography. Waveguide elastography merges magnetic resonance elastography and diffusion tensor imaging with a combination of isotropic and anisotropic inversion algorithms.