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Stories of shimmer and pollution: understanding child-environment aesthetic encounters in urban wilds.

Children's Geographies; 09/14/2022
(AN 159192657); ISSN: 14733285
Academic Search Premier




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Children's spaces in coastal cities: challenges to conventional urban understandings and prospects for child-friendly blue urbanism.

Children's Geographies; 10/01/2022
(AN 159948780); ISSN: 14733285
Academic Search Premier




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Towards interdependence: using slings to inspire a new understanding of parental care.

Children's Geographies; 10/01/2022
(AN 159948779); ISSN: 14733285
Academic Search Premier




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'She doesn't have to get in the car ... ': exploring social workers' understandings of sexually exploited girls as agents and choice-makers.

Children's Geographies; 10/01/2022
(AN 159948769); ISSN: 14733285
Academic Search Premier





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Malnutrition as more-than-food: understanding failings in the broader infrastructures of nurture.

Children's Geographies; 10/01/2023
(AN 173035622); ISSN: 14733285
Academic Search Premier








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'Free Cholsoo Lee' Named Outstanding Historical Documentary at 45th Emmys

[Culture] :
A documentary about a 1970s campaign in the United States to release a Korean immigrant, who was wrongfully convicted of murder, from prison was honored at this year's Emmy Awards. According to the National Academy of Television Arts and Sciences(NATAS), the documentary, titled "Free Cholsoo ...

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Aquarius Moon Traits: Understanding the Emotional Landscape

Explore the Aquarius Moon's traits, emotional depth, and how it influences relationships, creativity, and personal growth in astrology. Unlock its mysterious power.




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Is Aquarius Woman Creative or Logical? Understanding Her Unique Mind

Is Aquarius woman unique? Discover her free-spirited personality, loyalty in friendship, innovative mindset, and how she navigates love and relationships.






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Understanding secondary order parameters in perovskites with tilted octahedra

A symmetry guide for the secondary structural degrees of freedom and related physical properties generated by tilts of BX6 octahedra in perovskites is proposed.




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Understanding secondary order parameters in perovskites with tilted octahedra

In the family of perovskite materials, the tilts of BX6 octahedra are the most common type of structural distortion. Conventionally, the formation of low-symmetry perovskite phases with tilted octahedra is analyzed by considering only primary order parameters. However, octahedral tilting also gives rise to secondary order parameters which contribute to additional atomic displacements, ordering and lattice distortions. Our study highlights the significant impact of secondary order parameters on the structural formation and emergent physical properties of perovskites. Through group-theoretical and crystallographic analyses, we have identified all secondary order parameters within Glazer-type tilt systems and clarified their physical manifestations. We explore the fundamental symmetry relationships among various structural degrees of freedom in perovskites, including tilt-induced ferroelasticity, correlations between displacements and ordering of atoms occupying different positions, and the potential for rigid unit rotations and unconventional octahedral tilts. Particular emphasis is placed on the emergence of secondary order parameters and their coupling with primary order parameters, as well as their symmetry-based hierarchy, illustrated through a modified Bärnighausen tree. We applied our theoretical insights to elucidate phase transitions in well known perovskites such as CaTiO3 and RMnO3 (where R = La and lanthanide ions), thereby demonstrating the significant influence of secondary order parameters on crystal structure formation. Our results serve as a symmetry-based guide for the design, identification and structural characterization of perovskites with tilted octahedra, and for understanding tilt-induced physical properties.




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X-ray standing wave characterization of the strong metal–support interaction in Co/TiOx model catalysts

The strong metal–support interaction (SMSI) is a phenomenon observed in supported metal catalyst systems in which reducible metal oxide supports can form overlayers over the surface of active metal nanoparticles (NPs) under a hydrogen (H2) environment at elevated temperatures. SMSI has been shown to affect catalyst performance in many reactions by changing the type and number of active sites on the catalyst surface. Laboratory methods for the analysis of SMSI at the nanoparticle-ensemble level are lacking and mostly based on indirect evidence, such as gas chemisorption. Here, we demonstrate the possibility to detect and characterize SMSIs in Co/TiOx model catalysts using the laboratory X-ray standing wave (XSW) technique for a large ensemble of NPs at the bulk scale. We designed a thermally stable MoNx/SiNx periodic multilayer to retain XSW generation after reduction with H2 gas at 600°C. The model catalyst system was synthesized here by deposition of a thin TiOx layer on top of the periodic multilayer, followed by Co NP deposition via spare ablation. A partial encapsulation of Co NPs by TiOx was identified by analyzing the change in Ti atomic distribution. This novel methodological approach can be extended to observe surface restructuring of model catalysts in situ at high temperature (up to 1000°C) and pressure (≤3 mbar), and can also be relevant for fundamental studies in the thermal stability of membranes, as well as metallurgy.




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Laboratory-based 3D X-ray standing-wave analysis of nanometre-scale gratings

The increasing structural complexity and downscaling of modern nanodevices require continuous development of structural characterization techniques that support R&D and manufacturing processes. This work explores the capability of laboratory characterization of periodic planar nanostructures using 3D X-ray standing waves as a promising method for reconstructing atomic profiles of planar nanostructures. The non-destructive nature of this metrology technique makes it highly versatile and particularly suitable for studying various types of samples. Moreover, it eliminates the need for additional sample preparation before use and can achieve sub-nanometre reconstruction resolution using widely available laboratory setups, as demonstrated on a diffractometer equipped with a microfocus X-ray tube with a copper anode.




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Catawba County Finance Officer named Outstanding NC Finance Officer Of Year

Rodney Miller has been named Outstanding N.C. Finance Officer of the Year for 2011-12 by the North Carolina Government Finance Officers Association. The award traditionally and annually recognizes and honors the local government finance officer who has demonstrated state leadership in local government finance issues by serving as the organization's president.




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Catawba County Assistant Planning Director, Mary George, named 2012 Outstanding Contributor to Agriculture.

Catawba County Assistant Planning Director, Mary George, has been named 2012 Outstanding Contributor to Agriculture by the Hickory Kiwanis Club




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Learning About Evolution Critical for Understanding Science

Many public school students receive little or no exposure to the theory of evolution, the most important concept in understanding biology, says a new guidebook from the National Academy of Sciences (NAS).




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New Report Recommends Research to Improve Understanding of Relationship Between Fatigue and Crash Risk for Truck and Bus Drivers

Insufficient sleep can decrease a commercial motor vehicle (CMV) driver’s level of alertness, which may increase the risk of a crash, yet little is known about effective ways to minimize that risk, says a new report from the National Academies of Sciences, Engineering, and Medicine.




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U.S. Ocean Observation Critical to Understanding Climate Change, But Lacks Long-Term National Planning

The ocean plays a critical role in climate and weather, serving as a massive reservoir of heat and water that influences tropical storms, El Nin~o, and climate change.




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Public Safety During Severe Weather and Other Disasters Could Be Improved With Better Alert Systems and Improved Understanding of Social and Behavioral Factors

Our ability to observe and predict severe weather events and other disasters has improved markedly over recent decades, yet this progress does not always translate into similar advances in the systems used in such circumstances to protect lives.




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Reducing Climate Uncertainty, Improving Weather Forecasts, and Understanding Sea-Level Rise Are Among Top Science Priorities for Space-Based Earth Observation Over Next Decade

NASA, the National Oceanic and Atmospheric Administration (NOAA), and the United States Geological Survey (USGS) should implement a coordinated approach for their space-based environmental observations to further advance Earth science and applications for the next decade, says a new report by the National Academies of Sciences, Engineering, and Medicine.




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Kenneth Wells Receives National Academy of Medicine’s Sarnat Award for Outstanding Achievements in Improving Mental Health

The National Academy of Medicine today announced Kenneth Wells is the recipient of the 2018 Rhoda and Bernard Sarnat International Prize in Mental Health, for his work developing quality and outcomes approaches to psychiatry and mental health, fostering a generation of clinical investigators and mental health system leaders, and championing partnered, participatory research to advance equity for under-resourced populations.




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National Academy of Medicine Honors Three Members for Outstanding Service

The National Academy of Medicine (NAM) honored three members today at its annual meeting for their outstanding service.




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Research Campaign to Advance Understanding of Gulf of Mexico Loop Current Moves Forward By Awarding $10.3 Million in Initial Grants

Following recommendations from a National Academies of Sciences, Engineering, and Medicine report released earlier this year, the National Academies’ Gulf Research Program (GRP) is developing a long-term research campaign to improve understanding and prediction of the Gulf of Mexico Loop Current System (LCS).




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$2.5 Million in Grants Available to Advance Understanding and Prediction of Gulf of Mexico Loop Current

The Gulf Research Program (GRP) of the National Academies of Sciences, Engineering, and Medicine today announced a new funding opportunity to provide up to $2.5 million in grants to foster innovative approaches that support its ongoing efforts to improve understanding and prediction of the Gulf of Mexico Loop Current System (LCS).




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$5 Million in Grants Available to Advance Understanding of U.S. Gulf Coastal Ecosystems and Their Interactions with Natural Processes and Human Activities

The Gulf Research Program (GRP) of the National Academies of Sciences, Engineering, and Medicine today announced a new funding opportunity under its Healthy Ecosystems Initiative.




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PFAS - Controlling, Preventing, and Understanding Exposure

PFAS, or perfluoroalkyl and polyfluoroalkyl substances, are ubiquitous fluorinated organic compounds found widely in manufactured products, from firefighting foam to stain-resistant carpets. These water- and oil-repellent compounds are known to degrade slowly over time, and have been found in humans, drinking water, and even in Arctic ecosystems.




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Gulf Research Program Awards $2 Million to Seven Projects to Improve Understanding and Prediction of the Gulf of Mexico Loop Current System

The Gulf Research Program (GRP) of the National Academies of Sciences, Engineering, and Medicine today announced $2 million in grant awards for seven new projects through its Understanding Gulf Ocean Systems (UGOS) Grants 2 competition.




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White House Requests National Academies Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats in Response to Spread of Coronavirus

WASHINGTON — In response to the COVID-19 outbreak, the White House Office of Science and Technology Policy has asked the National Academies of Sciences, Engineering, and Medicine to establish a Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats.




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Harvey Fineberg Named Chair of Standing Committee Requested by White House in Response to Coronavirus

The National Academies of Sciences, Engineering, and Medicine announced today that Harvey Fineberg, former president of the Institute of Medicine (now the National Academy of Medicine) and current president of the Gordon and Betty Moore Foundation, will serve as the chair of the Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats.




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Standing Committee on Emerging Infectious Diseases Provides Rapid Response to Government on Key Coronavirus Questions

Formed earlier this month, the National Academies’ Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats was assembled at the request of the White House Office of Science and Technology Policy and the Office of the Assistant Secretary for Preparedness and Response in response to the COVID-19 outbreak.




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Standing Committee on Emerging Infectious Diseases Provides Rapid Response to Government on Crisis Standards of Care for Coronavirus Pandemic

The recently formed National Academies Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats, assembled at the request of the White House Office of Science and Technology Policy and the U.S. Department of Health and Human Services’ Office of the Assistant Secretary for Preparedness and Response in response to the COVID-19 outbreak, has been providing rapid expert consultations on several topics, such as social distancing and severe illness in young adults.




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Standing Committee on Emerging Infectious Diseases Provides Rapid Response to Government on Whether COVID-19 Could Also Be Spread by Conversation

The recently formed National Academies Standing Committee on Emerging Infectious Diseases and 21st Century Health Threats, assembled at the request of the White House Office of Science and Technology Policy (OSTP) and the U.S. Department of Health and Human Services’ Office of the Assistant Secretary for Preparedness and Response in response to the COVID-19 outbreak, has been providing rapid expert consultations on several topics, such as social distancing and severe illness in young adults.




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Potential Effects of Seasonal and Temperature Changes on Spread of COVID-19 Examined in New Rapid Response to Government from Standing Committee on Emerging Infectious Diseases

A new rapid expert consultation from a standing committee of the National Academies of Sciences, Engineering, and Medicine responds to questions from the White House Office of Science and Technology Policy (OSTP) regarding survival of the COVID-19 virus in relation to temperature and humidity and potential for seasonal reduction and resurgence of cases.




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Spread of COVID 19 Virus from Infected Patients Antibody Response, and Interpretation of Laboratory Testing Examined in New Rapid Responses to Government from Standing Committee on Emerging Infectious Diseases

A new rapid expert consultation from a standing committee of the National Academies of Sciences, Engineering, and Medicine.




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Effectiveness of Homemade Fabric Masks to Protect Others from Spread of COVID-19 Examined in New Rapid Response to Government from Standing Committee on Emerging Infectious Diseases

A new rapid expert consultation from a standing committee of the National Academies of Sciences, Engineering, and Medicine responds to questions from the White House Office of Science and Technology Policy (OSTP) regarding the effectiveness of homemade fabric masks to protect others from the viral spread of COVID-19 from potentially contagious asymptomatic or presymptomatic individuals.




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Understanding the Well-Being of LGBTQI+ Populations

The National Academies of Sciences, Engineering, and Medicine are currently conducting a study to review available data on the well-being of LGBTQI+ populations and future research needs for this community.




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Staffing Considerations for Crisis Standards of Care Outlined in New Rapid Response to Government from National Academies Standing Committee

A new rapid expert consultation from a standing committee of the National Academies of Sciences, Engineering, and Medicine outlines considerations for clinical staffing needs during the implementation of Crisis Standards of Care (CSC), including adjusting staff responsibilities, providing “hazard pay” to staff, ensuring adequate time off, offering child care and other benefits, and leveraging health care coalitions to ensure appropriate transfer of patients between hospitals.




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Stephen Hinshaw Receives National Academy of Medicine’s Sarnat Award for Contributions to Understanding and Treating Mental Health Conditions in Childhood and Adolescence and Stigma Prevention Efforts

The National Academy of Medicine today announced Stephen P. Hinshaw is the recipient of the 2020 Rhoda and Bernard Sarnat International Prize in Mental Health, for basic and applied research on individuals with externalizing disorders, and for efforts to reduce mental illness stigma through youth-based programs and the promotion of humanization.




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National Academy of Sciences Enlists Gaming Community to Boost Public Understanding of COVID-19

LabX, a creative engagement outreach program of the National Academy of Sciences, announced the winners of a competition to create games designed to help build public understanding of COVID-19.




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National Academies’ Gulf Research Program Awards $5.27 Million to Enhance Understanding of Gulf Ecosystems and Their Interactions with Natural Processes and Human Activities

The Gulf Research Program (GRP) of the National Academies of Sciences, Engineering, and Medicine today announced grant awards totaling $5.27 million for six new projects. These projects, planned to span two to three years, aim to improve understanding of how natural processes and human activities interact to affect coastal ecosystems in the U.S. Gulf Coast region.




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New Research Models Offer Promise for Understanding the Human Brain and Finding Pathways to Therapies, But Also Raise Profound Ethical Questions

New models for studying the human brain — human neural organoids, transplants, and chimeras — show promise for advancing understanding of the brain and laying the groundwork for new therapeutic approaches to brain diseases that have so far proved hard to treat, says a new report from the National Academies of Sciences, Engineering, and Medicine.




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Beyond the buzz: Understanding AI and its role in cybersecurity

A new white paper from ESET uncovers the risks and opportunities of artificial intelligence for cyber-defenders




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Understanding IoT security risks and how to mitigate them | Unlocked 403 cybersecurity podcast (ep. 4)

As security challenges loom large on the IoT landscape, how can we effectively counter the risks of integrating our physical and digital worlds?