INFORMATION:
Engineering matter at the atomic level
2021-05-25
(Press-News.org) As devices continue to be built on an increasingly small scale, scientists are looking toward developing ways to engineer materials at the atomic level. In a breakthrough that will contribute to this, published in Nature Communications, researchers from the RIKEN Cluster for Pioneering Research and RIKEN Center for Advanced Photonics, along with collaborators, have developed a way to use a "dry transfer technique"--a technique that uses no solvent--to position optical quality carbon nanotubes in a precise way.
Carbon nanotubes are a promising type of materials with potential uses in applications such as light-emitting diodes, single-electron transistors, or as single photon sources. They are essentially tubes made up of graphene twisted in specific ways, and the way they are twisted is critical for allowing the desired properties to emerge. Creating devices with desired properties requires precise manipulation of the position and orientation of the nanotubes, along with a property known as "chirality," which essentially describes how much it is twisted. It is difficult to manipulate the molecules precisely, however, as using solvents or high-temperature treatment inevitably leaves the nanotubes dirty, hampering their optical characteristics.
To solve this issue, the researchers looked for a way to engineer the nanotubes without using solvents. They experimented with using anthracene, a chemical derived from oil, as a sacrificial material. Essentially, they picked up the nanotube on a scaffolding of anthracene to carry it wherever they wanted, and then used heat to sublimate the anthracene, leaving the nanotube in an optically pristine condition. They also developed a method for monitoring the photoluminescence of the nanotubes during the transfer, ensuring that a nanotube with the desired optical properties would be placed at a right location.
The group confirmed that following the dry transfer, the remaining nanotubes has bright photoluminescence, up to 5,000 times as bright as the original molecule, a quality that makes them ideal for optical devices. In addition, the group was able to precisely position the nanotube on top of a nanosized optical resonator, enhancing the light emission properties.
According to Keigo Otsuka from the RIKEN Cluster for Pioneering Research, the first author of the paper, "We believe that this technology could contribute not only to the creation of nanodevices from carbon nanotubes with desired properties, but also to the construction of higher-order systems that are based on the free combination of atomic layer materials and other nanostructures."
"Beyond that," says Yuichiro Kato, the leader of the group, "this technology has the potential to contribute to the development of atomically defined technologies that go beyond nanotechnology, in which materials with precise structures at the atomic level are used as building blocks to design and build functions that are different from those of existing materials."
ELSE PRESS RELEASES FROM THIS DATE:
Odd angles make for strong spin-spin coupling
2021-05-25
HOUSTON - (May 25, 2021) - Sometimes things are a little out of whack, and it turns out to be exactly what you need.
That was the case when orthoferrite crystals turned up at a Rice University laboratory slightly misaligned. Those crystals inadvertently became the basis of a discovery that should resonate with researchers studying spintronics-based quantum technology.
Rice physicist Junichiro Kono, alumnus Takuma Makihara and their collaborators found an orthoferrite material, in this case yttrium iron oxide, placed in a high magnetic field showed uniquely tunable, ultrastrong interactions between magnons in the crystal.
Orthoferrites ...
Soft X-ray method promises nanocarrier breakthroughs for smart medicine
2021-05-25
PULLMAN, Wash. - Before the huge potential of tiny nanocarriers for highly targeted drug delivery and environmental clean-up can be realized, scientists first need to be able to see them.
Currently researchers have to rely on attaching fluorescent dyes or heavy metals to label parts of organic nanocarrier structures for investigation, often changing them in the process. A new technique using chemically-sensitive "soft" X-rays offers a simpler, non-disruptive way of gaining insight into this nano-world.
In a study published by Nature Communications, a research team demonstrates the capability of the X-ray method on a smart drug delivery nanoparticle and a polysoap nanostructure intended to capture crude oil spilled in the ocean.
"We have developed a ...
Ancient fish bones reveal non-kosher diet of ancient Judeans, say researchers
2021-05-25
Ancient Judeans commonly ate non-kosher fish surrounding the time that such food was prohibited in the Bible, suggests a study published in the peer-reviewed journal Tel Aviv.
This finding sheds new light on the origin of Old Testament dietary laws that are still observed by many Jews today. Among these rules is a ban on eating any species of fish which lacks scales or fins.
The study reports an analysis of ancient fish bones from 30 archaeological sites in Israel and Sinai which date to the more than 2,000-year span from the Late Bronze Age (1550-1130 ...
ED visits for appendicitis, miscarriage fell sharply in first wave of COVID-19 pandemic
2021-05-25
Emergency department visits for common conditions such as appendicitis, miscarriage, gallbladder attacks and ectopic pregnancy decreased markedly at the start of the COVID-19 pandemic, but patient outcomes were not worse, found research published in CMAJ (Canadian Medical Association Journal) https://www.cmaj.ca/lookup/doi/10.1503/cmaj.202821.
"These findings are reassuring, as patients who required emergency care in the first wave of the pandemic continued to present to the emergency department, received similar care and had similar outcomes to patients presenting in the prepandemic period," writes Dr. David Gomez, a trauma surgeon at St. Michael's Hospital, Unity ...
Whale carcasses help answer mysteries of elusive species
2021-05-25
Summary: A new study published by the open access publisher Frontiers shows the usefulness of opportunistically collected specimens, such as stranded carcasses, to study elusive species. The researchers used stable isotope analysis of skin, muscle, and bone tissue of Sowerby's beaked whales to study their spatial ecology. They found that the species exhibits both short- and long-term habitat fidelity. The results are published in Frontiers in Conservation Science and show the importance of such studies for marine wildlife conservation.
A mysterious whale species
Beaked whales, a species of toothed whales, make up more than 25% of extant cetaceans (dolphins, porpoises, and whales), but are elusive and notoriously difficult to study. They live in deep waters and stay away ...
Mothers' depression impacts mother-infant relationships
2021-05-25
In a study funded by National Institute for Health Research (NIHR) Maudsley Biomedical Research Centre (BRC) researchers examined whether depression, either before or during pregnancy, affects the mother-infant relationship. The research was published today (Tuesday 25 May) in BJPsych Open.
Researchers looked at the quality of mother-infant interactions eight weeks and 12 months after birth in three groups of women; healthy women, women with clinically-significant depression in pregnancy, and women with a lifetime history of depression but healthy pregnancies.
The study used a sample of 131 women: 51 healthy mothers with no current or past depression, 52 mothers with depression referred to the South London and Maudsley ...
UBCO researchers examine how pandemics impact the homeless
2021-05-25
A team of UBC Okanagan researchers is looking at strategies that could help the homeless during a pandemic.
John Graham, director of UBC Okanagan's School of Social Work, says while many populations have been targeted with guidelines to keep them safe, homeless people have been mostly overlooked.
While this research project began a few years ago, Graham says his team quickly turned their attention to the impact of COVID-19. His team looked at peer-reviewed publications, dating back to 1984, that examined how homeless populations were impacted by other highly contagious or communicable illnesses such as tuberculous, H1NI and Severe Acute Respiratory Syndrome ...
Delivering "serendipity": Seemingly random product discovery, aided by technology
2021-05-25
Researchers from University of Sydney, University of Florida, and Rutgers University published a new paper in the Journal of Marketing that examines the role of serendipity in customer satisfaction and how marketers can provide it.
The study, forthcoming in the Journal of Marketing, is titled "Serendipity: Chance Encounters in the Marketplace Enhance Consumer Satisfaction" and is authored by Aekyoung Kim, Felipe Affonso, Juliano Laran, and Kristina Durante.
Netflix knows you are tired of choice. The streaming service recently introduced what might be the perfect hack: a shuffle button that eliminates choice and plays a randomly selected program for the consumer. Under COVID-19 restrictions, the newly homebound were happy to have so many programming ...
"Scuba-diving" lizards use bubble attached to snout to breathe underwater
2021-05-25
BINGHAMTON, N.Y. - A team of evolutionary biologists including faculty at Binghamton University, State University of New York have shown that some Anolis lizards, or anoles, have adapted to rebreathe exhaled air underwater using a bubble clinging to their snouts.
Semi-aquatic anoles live along neotropical streams and frequently dive for refuge, remaining underwater for up to 16 minutes. Lindsey Swierk, assistant research professor of biological sciences at Binghamton University, documented this behavior in a Costa Rican anole species in 2019. She had been shocked to see an anole submerge itself for such long periods and used a GoPro underwater to document the behavior.
"It's easy to imagine the advantage that these small, slow anoles gain by hiding from their predators ...
Intermittent fasting in mice effective at promoting long term memory retention
2021-05-25
A new study from the Institute of Psychiatry, Psychology and Neuroscience (IoPPN) at King's College London has established that Intermittent Fasting (IF) is an effective means of improving long term memory retention and generating new adult hippocampal neurons in mice, in what the researchers hope has the potential to slow the advance of cognitive decline in older people.
The study, published today in Molecular Biology, found that a calorie restricted diet via every other day fasting was an effective means of promoting Klotho gene expression in mice. Klotho, which is often referred to as the "longevity gene" has now been shown in this study to play ...