The market for self-ordering kiosks is booming, as restaurant operators seek to meet consumer demand for self-service.

Global financial technology company SumUp has unveiled its Kiosk solution designed to transform how businesses process orders. SumUp’s Kiosk solution is claimed to be able to dramatically improve the speed at which merchants can process orders.

With e-commerce leaders such as Alibaba, Amazon, eBay, and TikTok on hand to share insights at the China (Shenzhen) Cross Border E-commerce Fair (CCBEC) from 11 – 13 September 2024, the show will welcome nearly 1,500 exhibitors from around the globe.

Paysend has launched instant and simple cross-border payouts to China UnionPay cards for its Enterprise customers.

[Inter-Korea] :
President Yoon Suk Yeol has instructed the National Security Council(NSC) to respond strongly to North Korea’s provocations and prepare thoroughly so the North cannot carry out any surprise provocations. Yoon gave the instructions Thursday after being immediately informed by the National Security ...

[more...]

[Inter-Korea] :
A group representing families of South Koreans abducted by North Korea called off plans to send anti-Pyongyang propaganda leaflets north of the border, amid opposition from residents and the presence of law enforcement officers. Choi Seong-ryong, the head of the association, announced the decision Thursday ...

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Small earthquake detected on Shropshire-Staffordshire border  BBC.com

Did you feel the earth move? Mini-earthquake recorded on Shropshire/Staffordshire border  Express & Star

A detailed structural characterization of the δ1-MnZn9.7 phase is presented.

A comparative description is presented of the symmetry and the magnetic structures found in the family of double perovskites A2MnB'O6 (mainly B' = Co and some Ni compounds for comparative purposes).

A detailed structural analysis of the Zn-rich δ1-MnZn9.7 phase using single-crystal X-ray diffraction is presented. The δ1 phase has been synthesized by the high-temperature synthetic route. The structure crystallizes in space group P63/mmc (Pearson symbol hP556) with unit-cell parameters: a = b = 12.9051 (2) Å and c = 57.640 (1) Å. The 556 atoms are distributed over 52 Wyckoff positions in the hexagonal unit cell: seven ordered Mn sites, 37 ordered Zn sites and eight positionally disordered Zn sites. The structure predominantly consists of Frank–Kasper polyhedra (endohedral icosahedra Zn12 and icosioctahedron Zn16) and four distinct types of glue Zn atoms. The structure comprises a 127-atom supercluster (Mn13Zn114), a 38-atom extended Pearce cluster (Mn3Zn35), a 46-atom L-tetrahedron (Mn4Zn42), a Friauf polyhedron (Zn17), a disordered icosahedral cluster (MnZn12) and four glue Zn atoms. Positionally disordered Zn sites around an Mn site can be visualized as the superimposition of three differently oriented Zn12 icosahedra.

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

The impact of sample thickness and experimental noise on angular correlation analysis from scanning electron nanobeam diffraction patterns of disordered carbon are investigated and analyzed regarding the interpretability of the analysis results.

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.

Algebraic expressions for averaging linear and nonlinear stiffness tensors from general anisotropy to different effective symmetries (11 Laue classes elastically representing all 32 crystal classes, and two non-crystalline symmetries: isotropic and cylindrical) have been derived by automatic symbolic computations of the arithmetic mean over the set of rotational transforms determining a given symmetry. This approach generalizes the Voigt average to nonlinear constants and desired approximate symmetries other than isotropic, which can be useful for a description of textured polycrystals and rocks preserving some symmetry aspects. Low-symmetry averages have been used to derive averages of higher symmetry to speed up computations. Relationships between the elastic constants of each symmetry have been deduced from their corresponding averages by resolving the rank-deficient system of linear equations. Isotropy has also been considered in terms of generalized Lamé constants. The results are published in the form of appendices in the supporting information for this article and have been deposited in the Mendeley database.

Eukaryotic TIR (Toll/interleukin-1 receptor protein) domains signal via TIR–TIR interactions, either by self-association or by interaction with other TIR domains. In mammals, TIR domains are found in Toll-like receptors (TLRs) and cytoplasmic adaptor proteins involved in pro-inflammatory signaling. Previous work revealed that the MAL TIR domain (MALTIR) nucleates the assembly of MyD88TIR into crystalline arrays in vitro. A microcrystal electron diffraction (MicroED) structure of the MyD88TIR assembly has previously been solved, revealing a two-stranded higher-order assembly of TIR domains. In this work, it is demonstrated that the TIR domain of TLR2, which is reported to signal as a heterodimer with either TLR1 or TLR6, induces the formation of crystalline higher-order assemblies of MyD88TIR in vitro, whereas TLR1TIR and TLR6TIR do not. Using an improved data-collection protocol, the MicroED structure of TLR2TIR-induced MyD88TIR microcrystals was determined at a higher resolution (2.85 Å) and with higher completeness (89%) compared with the previous structure of the MALTIR-induced MyD88TIR assembly. Both assemblies exhibit conformational differences in several areas that are important for signaling (for example the BB loop and CD loop) compared with their monomeric structures. These data suggest that TLR2TIR and MALTIR interact with MyD88 in an analogous manner during signaling, nucleating MyD88TIR assemblies uni­directionally.

Single-particle imaging using X-ray free-electron lasers (XFELs) is a promising technique for observing nanoscale biological samples under near-physiological conditions. However, as the sample's orientation in each diffraction pattern is unknown, advanced algorithms are required to reconstruct the 3D diffraction intensity volume and subsequently the sample's density model. While most approaches perform 3D reconstruction via determining the orientation of each diffraction pattern, a correlation-based approach utilizes the averaged spatial correlations of diffraction intensities over all patterns, making it well suited for processing experimental data with a poor signal-to-noise ratio of individual patterns. Here, a method is proposed to determine the 3D structure of a sample by analyzing the double, triple and quadruple spatial correlations in diffraction patterns. This ab initio method can reconstruct the basic shape of an irregular unsymmetric 3D sample without requiring any prior knowledge of the sample. The impact of background and noise on correlations is investigated and corrected to ensure the success of reconstruction under simulated experimental conditions. Additionally, the feasibility of using the correlation-based approach to process incomplete partial diffraction patterns is demonstrated. The proposed method is a variable addition to existing algorithms for 3D reconstruction and will further promote the development and adoption of XFEL single-particle imaging techniques.

The orientation ordering and assembly behavior of silica–nickel Janus particles in a static external magnetic field were probed by ultra small-angle X-ray scattering (USAXS). Even in a weak applied field, the net magnetic moments of the individual particles aligned in the direction of the field, as indicated by the anisotropy in the recorded USAXS patterns. X-ray photon correlation spectroscopy (XPCS) measurements on these suspensions revealed that the corresponding particle dynamics are primarily Brownian diffusion [Zinn, Sharpnack & Narayanan (2023). Soft Matter, 19, 2311–2318]. At higher fields, the magnetic forces led to chain-like configurations of particles, as indicated by an additional feature in the USAXS pattern. A theoretical framework is provided for the quantitative interpretation of the observed anisotropic scattering diagrams and the corresponding degree of orientation. No anisotropy was detected when the magnetic field was applied along the beam direction, which is also replicated by the model. The method presented here could be useful for the interpretation of oriented scattering patterns from a wide variety of particulate systems. The combination of USAXS and XPCS is a powerful approach for investigating asymmetric colloidal particles in external fields.

Our study compares short-range order parameters refined from the diffuse scattering in single-crystal X-ray and single-crystal electron diffraction data. Nb0.84CoSb was chosen as a reference material. The correlations between neighbouring vacancies and the displacements of Sb and Co atoms were refined from the diffuse scattering using a Monte Carlo refinement in DISCUS. The difference between the Sb and Co displacements refined from the diffuse scattering and the Sb and Co displacements refined from the Bragg reflections in single-crystal X-ray diffraction data is 0.012 (7) Å for the refinement on diffuse scattering in single-crystal X-ray diffraction data and 0.03 (2) Å for the refinement on the diffuse scattering in single-crystal electron diffraction data. As electron diffraction requires much smaller crystals than X-ray diffraction, this opens up the possibility of refining short-range order parameters in many technologically relevant materials for which no crystals large enough for single-crystal X-ray diffraction are available.

K3FeTe2O8(OH)2(H2O)2 was synthesized under hydrothermal conditions from Te(OH)6, FeSO4·7H2O and 85 wt% KOH in a 1:2:6 molar ratio. The crystal structure is built of a triperiodic network. One disordered water molecule per formula unit is located in a channel and can be partially removed by heating. Systematic one-dimensional diffuse scattering indicates a polytypic character, which is best described by application of the order–disorder theory. The major polytype is monoclinic with pseudo-orthorhombic metrics. It is interrupted by fragments of an orthorhombic polytype. The diffraction intensities are analyzed using structure factor calculations.

The re-investigation of [Bi2O2(OH)](NO3), dioxidodibismuth(III) hydroxide nitrate, on the basis of single-crystal X-ray diffraction data revealed an apparent structural phase transition of a crystal structure determined previously (space group Cmc21 at 173 K) to a crystal structure with lower symmetry (space group Pna21 at 100 K). The Cmc21 → Pna21 group–subgroup relationship between the two crystal structures is klassengleiche with index 2. In contrast to the crystal structure in Cmc21 with orientational disorder of the nitrate anion, disorder does not occur in the Pna21 structure. Apart from the disorder of the nitrate anion, the general structural set-up in the two crystal structures is very similar: [Bi2O2]2+ layers extend parallel to (001) and alternate with layers of (OH)− anions above and (NO3)− anions below the cationic layer. Whereas the (OH)− anion shows strong bonds to the BiIII cations, the (NO3)− anion weakly binds to the BiIII cations of the cationic layer. A rather weak O—H⋯O hydrogen-bonding inter­action between the (OH)− anion and the (NO3)− anion links adjacent sheets along [001].

Syntheses of the acyclic amidinium salts, morpholino­formamidinium hexa­fluorido­phosphate [OC4H8N—CH=NH2]PF6 or C5H11N2O+·PF6−, 1, and pyrrolidinoformamidinium hexa­fluorido­phosphate [C4H8N—CH= NH2]PF6 or C5H11N2+·PF6−, 2, were carried out by heating either morpholine or pyrrolidine with triethyl orthoformate and ammonium hexa­fluorido­phosphate. Crystals of 1 obtained directly from the reaction mixture contain one cation and one anion in the asymmetric unit. The structure involves cations linked in chains parallel to the b axis by N—H⋯O hydrogen bonds in space group Pbca, with glide-related chains pointing in opposite directions. Crystals of 1 obtained by recrystallization from ethanol, however, showed a similar unit cell and the same basic structure, but unexpectedly, there was positional disorder [occupancy ratio 0.639 (4):0.361 (4)] in one of the cation chains, which lowered the crystal symmetry to the non-centrosymmetric space group Pca21, with two cations and anions in the asymmetric unit. In the pyrrolidino compound, 2, cations and anions are ordered and are stacked separately, with zigzag N—H⋯F hydrogen-bonding between stacks, forming ribbons parallel to (101), extended along the b-axis direction. Slight differences in the delocalized C=N distances between the two cations may reflect the inductive effect of the oxygen atom in the morpholino compound.

Small-angle neutron scattering is a widely used technique to study large-scale structures in bulk samples. The largest accessible length scale in conventional Bragg scattering is determined by the combination of the longest available neutron wavelength and smallest resolvable scattering angle. A method is presented that circumvents this limitation and is able to extract larger length scales from the low-q power-law scattering using a modification of the well known Porod law connecting the scattered intensity of randomly distributed objects to their specific surface area. It is shown that in the special case of a highly aligned domain structure the specific surface area extracted from the modified Porod law can be used to determine specific length scales of the domain structure. The analysis method is applied to study the micrometre-sized domain structure found in the intermediate mixed state of the superconductor niobium. The analysis approach allows the range of accessible length scales to be extended from 1 µm to up to 40 µm using a conventional small-angle neutron scattering setup.

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American and Mexican families play with a seesaw installation at the border near Ciudad Juarez, Mexico, in July 2019. London's Design Museum recognized the project with an award for best design of 2020.; Credit: Luis Torres/AFP via Getty Images

An art project that turned the border wall at the U.S.-Mexico border into the temporary base for pink seesaws – inviting children on each side to come play together – has won the London's Design Museum award for best design of 2020.

"We are totally surprised by this unexpected honor," said Ronald Rael, who designed the project with fellow architect Virginia San Fratello. They share the award, he said, with the Ciudad Juárez, Mexico-based art collective Colectivo Chopeke.

"That's amazing," San Fratello said in a video feed announcing the prize. The seesaw installation won both the overall prize and in the transportation category.

"Most importantly, it comes at a time when we are hopeful for change and that we start building more bridges instead of walls," Rael added.

"The Beazley Designs of the Year are the Oscars of the design world," said Razia Iqbal, a journalist who chaired the Design Museum's panel of judges. The award, she noted, highlights work that pushes boundaries of creativity and innovation.

The metal wall was meant to be a stark barrier dividing the U.S. and Mexico, the centerpiece of President Trump's aggressive immigration policies. But in one spot, it became a junction point instead – a fulcrum for a series of seesaws that let children in the two countries share a playground toy.

The project, officially named Teeter-Totter Wall, was first installed in July 2019 when workers slid steel beams through the slats of the border near El Paso, Texas, and Ciudad Juárez.

"For the first time, children from both El Paso, Texas, and the Anapra community in Mexico were invited to connect with their [neighbors], in an attempt to create unity at the politically divisive border," the museum said.

"Everyone was very happy and excited to engage the seesaws," Rael told NPR at the time. The installation went smoothly, turning an idea that had been growing for 10 years into a reality.

"It was peaceful and fun — a day at a park for the children and mothers of Anapra," Rael said.

"The project resonated with people around the world in a way that we didn't anticipate," San Fratello said when the award was announced. "It speaks to the fact that most people are excited about being together, and about optimism and about possibility and the future. And the divisiveness actually comes from the minority."

Rael is a professor at the University of California, Berkeley; San Fratello teaches at San José State University.

The seesaw project was chosen out of more than 70 nominees from dozens of countries, including a customized "stab-proof vest" that the artist Banksy designed for musician Stormzy.

Also considered: the gray and red rendering of SARS-CoV-2, the virus that causes COVID-19. Commissioned by the U.S. Centers for Disease Control and Prevention and designed by Alissa Eckert and Dan Higgins, the famous sphere, with its menacing clusters of crowns, won the design award in the graphics category.

The Impossible Burger 2.0 won in the crowded product category, which also included Lego Braille bricks and a self-sanitizing door handle.

This content is from Southern California Public Radio. View the original story at SCPR.org.

The increase in the number of children from low-income families who are receiving federal disability benefits for speech and language disorders over the past decade parallels the rise in the prevalence of these disorders among all U.S. children, says a new report by the National Academies of Sciences, Engineering, and Medicine.

The U.S. Department of Health and Human Services (HHS) should lead efforts among federal partners and stakeholders to design, implement, and evaluate a multipronged, evidence-based national strategy to reduce stigma toward people with mental and substance use disorders, says a new report from the National Academies of Sciences, Engineering, and Medicine.

The U.S. Department of the Interior’s Bureau of Safety and Environmental Enforcement has ordered the National Academies of Sciences, Engineering, and Medicine to suspend all work on a study to review and update the bureau’s offshore oil and gas operations inspection program to enhance safety.

We urge the U.S. Department of Homeland Security to immediately stop separating migrant children from their families, based on the body of scientific evidence that underscores the potential for lifelong, harmful consequences for these children and based on human rights considerations.

Although less invasive and more evidence-based approaches are available for temporomandibular disorders (TMDs) – a set of 30 disorders that cause pain or malfunction in the jaw joint and muscles of the jaw – some dentists continue to rely on aggressive or costly procedures as a first-line treatment, says a new report from the National Academies of Sciences, Engineering, and Medicine.

Among the many parts of the U.S. public health system strained by the COVID-19 pandemic were the Centers for Disease Control and Prevention’s Division of Global Migration and Quarantine and its network of quarantine stations. A recent report explored how to improve these stations based on lessons learned during the pandemic.

On Wednesday, the Union Cabinet approved the third revival package for the telecom PSU worth Rs 89,047 crores which also includes the allotment of 4G/5G spectrum through equity infusion.

Using high-tech human heart models and mouse experiments, scientists at Johns Hopkins and Germany's University of Bonn have shown that beams of light could replace electric shocks in patients reeling from a deadly heart rhythm disorder.

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Dorner’s FlexMove Helix Conveyors are manufactured to meet customer’s needs with build to order inclines and declines, which provide tight spirals in a small footprint for greater flexibility in layout for applications such as accumulation, buffering, cooling product and more.

Ergonomics principles can guide employers towards systems that adapt to workers’ needs and decrease the potential for discomfort and harm.

Doctors met a patient at a surgical center outside Boston to invent a new operation, a way to perform arm amputations that might allow patients to move their prosthetic hands more like real ones. The right arm resting on a blue surgical drape before them came from a cadaver; it’s just the limb, ending at the shoulder. It came from the Anatomy Gifts Registry. Devising a new operation is like re-engineering the anatomy.

No magic pills make musculoskeletal disorders (MSDs) disappear, yet risk, human resources and safety departments continue to buy into programs and systems that do not affectively aid in helping employees deemed the “walking wounded.” 

The guide provides a structure by which employers can assess, plan, and implement strategies and practices that support mine worker mental health and address harmful opioid use.  

Esteemed educator, author, and podcaster, Barbara Taber, EdD, has delivered the highly anticipated season finale of Take It Or Leave It, against impossibly high expectations, following the landmark achievement of her previous three episodes.

CleverGet just released a brand-new module namely Streaming Video Recorder to record, and save video to MP4 at up to 1080P from nearly all sites. It even could record DRM protected videos.

Thai Kitchen has been serving authentic Thai cuisines to the St. Louis region since 1999 and is expanding its locations to include St. Louis, and Maryland Heights, MO.

Program Connects Korean Startups with Key Malaysian Industry Players and Investors

"I will protect my country. I will not let enemy armies pass through it. I will not let them hurt my people anymore." Zechariah 9:8-10