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Scientists Discover Secret Behind Chocolate’s Irresistible Texture – Paves Way for Healthier Luxury Chocolates
Scientists at the University of Leeds have decoded the physical process of chocolate melting in the mouth, and hope that by understanding the different steps involved, they can develop a new generation of luxury chocolates that have the same texture and feel but are healthier to consume.
Scientists have decoded the physical process that takes place in the mouth when a piece of chocolate is eaten, as it changes from a solid into a smooth emulsion that many people find totally irresistible.
By analyzing each of the steps, the interdisciplinary research team at the University of Leeds hopes it will lead to the development of a new generation of luxury chocolates that will have the same feel and texture but will be healthier to consume.
During the moments it is in the mouth, the chocolate sensation arises from the way the chocolate is lubricated, either from ingredients in the chocolate itself or from saliva or a combination of the two.
A confocal microscope image of molten dark chocolate. Credit: Dr. Siavash Soltanahmadi
Fat plays a key function almost immediately when a piece of chocolate is in contact with the tongue. After that, solid cocoa particles are released and they become important in terms of the tactile sensation, so fat deeper inside the chocolate plays a rather limited role and could be reduced without having an impact on the feel or sensation of chocolate.
Anwesha Sarkar, Professor of Colloids and Surfaces in the School of Food Science and Nutrition at Leeds, said: “Lubrication science gives mechanistic insights into how food actually feels in the mouth. You can use that knowledge to design food with better taste, texture, or health benefits.
“If a chocolate has 5% fat or 50% fat it will still form droplets in the mouth and that gives you the chocolate sensation. However, it is the location of the fat in the make-up of the chocolate which matters in each stage of lubrication, and that has been rarely researched.
“We are showing that the fat layer needs to be on the outer layer of the chocolate, this matters the most, followed by effective coating of the cocoa particles by fat, these help to make chocolate feel so good.”
A confocal microscope showing the structure of the molten chocolate mixed with saliva after it has experienced forces that mimic the eating. Credit: Dr. Siavash Soltanahmadi
The study — published in the scientific journal ACS Applied Materials and Interface — did not investigate the question of how chocolate tastes. Instead, the investigation focused on its feel and texture.
Tests were conducted using a luxury brand of dark chocolate on an artificial 3D tongue-like surface that was designed at the University of Leeds. The researchers used analytical techniques from a field of engineering called tribology to conduct the study, which included in situ imaging.
Tribology is about how surfaces and fluids interact, the levels of friction between them and the role of lubrication: in this case, saliva or liquids from the chocolate. Those mechanisms are all happening in the mouth when chocolate is eaten.
When chocolate is in contact with the tongue, it releases a fatty film that coats the tongue and other surfaces in the mouth. It is this fatty film that makes the chocolate feel smooth throughout the entire time it is in the mouth.
Dr. Siavash Soltanahmadi, from the School of Food Science and Nutrition at Leeds and the lead researcher in the study, said: “With the understanding of the physical mechanisms that happen as people eat chocolate, we believe that a next generation of chocolate can be developed that offers the feel and sensation of high-fat chocolate yet is a healthier choice.
“Our research opens the possibility that manufacturers can intelligently design dark chocolate to reduce the overall fat content.
“We believe dark chocolate can be produced in a gradient-layered architecture with fat covering the surface of chocolates and particles to offer the sought-after self-indulging experience without adding too much fat inside the body of the chocolate.”
Revenue from chocolate sales in the UK is forecast to grow over the next five years, according to research from the business intelligence agency MINTEL. Sales are expected to grow 13% between 2022 and 2027 to reach £6.6 billion.
The researchers believe the physical techniques used in the study could be applied to the investigation of other foodstuffs that undergo a phase change, where a substance is transformed from a solid to a liquid, such as ice cream, margarine, or cheese.
Reference: “Insights into the Multiscale Lubrication Mechanism of Edible Phase Change Materials” by Siavash Soltanahmadi, Michael Bryant and Anwesha Sarkar, 12 January 2023, ACS Applied Materials and Interface.
DOI: 10.1021/acsami.2c13017
This project received funding from the European Research Council under the European Union’s Horizon 2020 research and innovation program.
Peru president paves way for early elections after two killed in latest protests | Peru
Peru’s new president, Dina Boluarte, has announced in a nationally televised address that she will send Congress a proposal to move forward the general elections in the wake of widespread protests.
Boluarte said early on Monday that she would submit a bill to bring general elections forward two years, to April 2024.
Her decision comes after two young people died and four were injured during Sunday’s protests demanding elections following the ousting of former president Pedro Castillo over his attempt to dissolve Congress.
A 15-year-old and an 18-year-old died “possibly as a result of gunshot wounds” during clashes with police on Sunday in the city of Andahuaylas, in the Andean region of Apurimac, the head of Peru’s ombudsman’s office, Eliana Revollar, told local radio station RPP.
Baltazar Lantaron, the governor of the Apurimac region, told local television station Canal N that “four injuries are reported, treated at the health centre, three of them [with wounds] to the scalp, with multiple injuries”.
Thousands of demonstrators took to streets across the nation again on Sunday, including hundreds in Lima, the capital, where riot police used teargas to push protesters back.
The protests rocking Peru heated up particularly in rural areas, strongholds for Castillo, a former schoolteacher and political newcomer from a poor Andean mountain district. Protesters set fire to a police station, vandalised a small airport used by the armed forces, and marched in the streets.
Congresswoman Maria Taipe Coronado said the 15-year-old boy died of an injury during the protest as she made an impassioned plea for Boluarte to step down.
“The death of this compatriot is the responsibility of Mrs Dina for not submitting her resignation,” said Taipe, who is affiliated with the party that helped Castillo and Boluarte to their election last year as president and vice-president respectively before both were kicked out of that party. “Since when is protesting a crime?”
“The life of no Peruvian deserves to be sacrificed for political interests,” Boluarte tweeted on Sunday following Taipe’s speech in Congress. “I express my condolences for the death of a citizen in Andahuaylas. I reiterate my call for dialogue and to put an end to violence.”
Boluarte was sworn in last week after Castillo was sacked by Congress and arrested for attempting to shut down the legislature in an effort to prevent an impeachment vote against him.
Demonstrators, many of them Castillo supporters, have for days demanded that Peru hold elections rather than allow Boluarte to stay in power until Castillo’s term officially ends in 2026. Some protesters have also called for Congress to be shuttered.
The Peruvian Corporation of Airports and Commercial Aviation, which manages the country’s airports, reported the closure of the Andahuaylas airport following attacks and acts of vandalism since Saturday.
Protesters had set fire to the transmitter room, which is crucial for providing navigation services, it added.
The ombudsman’s office said on Saturday two police officers had been held for hours by protesters in Andahuaylas, but were later released. Clashes on Saturday left 16 civilians and four policemen injured, it said.
With Reuters and Associated Press
Danish election paves way for centrist government: exit poll – POLITICO
Danish Prime Minister Mette Frederiksen is clinging on to her job after losing her majority in an election triggered in the wake of a scandal over her decision to cull the country’s population of mink.
According to an exit poll, Frederiksen’s Social Democrats are on course to remain the biggest party in the country after Tuesday’s election, but her political survival depends on a new centrist grouping.
An initial survey by public broadcaster DR suggests the Social Democrats secured 23.1 percent of the vote, which would earn them 42 of the 179 seats in parliament. This put them ahead of the Liberal Party of Jakob Ellemann-Jensen on 13.5 percent of the vote, or 24 seats.
But the outcome is also bittersweet for Frederiksen. If confirmed by official tallies, winning 42 seats would be her party’s worst election result in more than 100 years.
In a political landscape split between 14 parties, both the left-leaning “red bloc,” which secured 85 seats, and the rival right-wing “blue bloc,” on 73 seats, fell short of the 90 seats needed for a majority in the 179-seat parliament. The remaining seats went to unaligned parties.
The election was triggered by a scandal about a government-mandated mink cull during the coronavirus pandemic. An uncharacteristically exciting and chaotic campaign followed, at times seeming to foreshadow the twists and turns of the latest season of the popular TV political drama “Borgen.”
If confirmed, the exit poll results would mean Frederiksen would need the support of former Prime Minister Lars Løkke Rasmussen and his newly formed Moderate party, which secured 9.3 percent of the vote, or 17 seats.
Rasmussen has not said he will back either bloc, putting the former prime minister in the position of kingmaker during the upcoming negotiations.
He used that position during the campaign to call for a broad coalition of more moderate parties from both the red and blue blocs, a move that could upset the nation’s post-war political order. Some have even suggested he could use his post-election influence to hold out for a senior role or even the prime minister position.
But Rasmussen, who previously served as prime minister from 2009 to 2011 and again from 2015 to 2019 for Denmark’s Liberal party, said he does not envision becoming prime minister a third time. “That’s not in my mind,” he said Tuesday morning after casting his vote.
Magnus Heunicke, currently health minister and member of the Social Democrats, told journalists that voters may have punished his party for some of the decisions they had to make during a “time when there was a real need for someone to show leadership.”
“I think we have done that and we can be proud of it. But it may also have taken its toll, because some people may disagree with some of the decisions we’ve made,” he added.
Heunicke reiterated the party’s desire to form a broad, centrist government: “This result only underpins our desire for broad cooperation. Now let’s sit down together and see if we can form a centrist government.”
The Danish People’s Party, meanwhile, which was the second biggest party in the country from 2015 until 2019 and the face of far-right politics, lost significant ground, according to the exit poll. It’s only projected to get 2.5 percent of the vote, or 4 seats — just above the parliament’s 2 percent threshold.
Dramatic campaign
Domestic issues dominated the campaign, ranging from tax cuts and a need to hire more nurses to financially supporting Danes amid inflation and soaring energy prices because of Russia’s invasion of Ukraine.
Once a pivotal topic, immigration has fallen down the agenda, partly because the Social Democrats have vowed to remain tough on migration, depriving right-leaning parties of a possible rallying point.
Although Frederiksen’s party will remain the largest in parliament, it has lost popularity in recent months — falling from 48 seats to 42 seats, if the exit poll is confirmed — after a number of scandals rocked her reputation. These include a 2020 order to cull all of the country’s farmed mink over fears they could spread a mutated variant of the coronavirus, a policy that devastated Europe’s largest fur exporter.
A parliament-appointed commission said in June that the government had lacked legal justification for the cull and that it had made “grossly misleading” statements when ordering the sector to be shut down. A leftist party backing Frederiksen’s minority government withdrew its support as a result of the report, forcing Frederiksen to call Tuesday’s early election.
Her center-right rivals, however, have also lost ground, with the Conservative leader, Søren Pape Poulsen, hit by revelations about lies told by his former husband and the Liberals suffering from internal splits.
Negotiations to form a new government could take weeks, with the right bloc likely to try to match or surpass every offer made to Rasmussen’s Moderates by the red bloc in an effort to regain power.
This article has been updated with more details on the exit poll results and election campaign.
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Pioneering mathematical formula paves way for exciting advances in health, energy, and food industry
A groundbreaking mathematical equation that could transform medical procedures, natural gas extraction, and plastic packaging production in the future has been discovered.
The new equation, developed by scientists at the University of Bristol, indicates that diffusive movement through permeable material can be modeled exactly for the very first time. It comes a century after world-leading physicists Albert Einstein and Marian von Smoluchowski derived the first diffusion equation, and marks important progress in representing motion for a wide range of entities from microscopic particles and natural organisms to man-made devices.
Until now, scientists looking at particle motion through porous materials, such as biological tissues, polymers, various rocks and sponges have had to rely on approximations or incomplete perspectives.
The findings, published today in the journal Physical Review Research, provide a novel technique that presents exciting opportunities in a diverse range of settings including health, energy, and the food industry.
Lead author Toby Kay, who is completing a Ph.D. in Engineering Mathematics, said, “This marks a fundamental step forward since Einstein and Smoluchowski’s studies on diffusion. It revolutionizes the modeling of diffusing entities through complex media of all scales, from cellular components and geological compounds to environmental habitats.
“Previously, mathematical attempts to represent movement through environments scattered with objects that hinder motion, known as permeable barriers, have been limited. By solving this problem, we are paving the way for exciting advances in many different sectors because permeable barriers are routinely encountered by animals, cellular organisms and humans.”
Creativity in mathematics takes different forms and one of these is the connection between different levels of description of a phenomenon. In this instance, by representing random motion in a microscopic fashion and then subsequently zooming out to describe the process macroscopically, it was possible to find the new equation.
Further research is needed to apply this mathematical tool to experimental applications, which could improve products and services. For example, being able to model accurately the diffusion of water molecules through biological tissue will advance the interpretation of diffusion-weighted MRI (Magnetic Resonance Imaging) readings. It could also offer more accurate representation of air spreading through food packaging materials, helping to determine shelf life and contamination risk. In addition, quantifying the behavior of foraging animals interacting with macroscopic barriers, such as fences and roads, could provide better predictions on the consequence of climate change for conservation purposes.
The use of geolocators, mobile phones, and other sensors has seen the tracking revolution generate movement data of ever-increasing quantity and quality over the past 20 years. This has highlighted the need for more sophisticated modeling tools to represent the movement of wide-ranging entities in their environment, from natural organisms to man-made devices.
Senior author Dr. Luca Giuggioli, Associate Professor in Complexity Sciences at the University of Bristol, said, “This new fundamental equation is another example of the importance of constructing tools and techniques to represent diffusion when space is heterogeneous; that is, when the underlying environment changes from location to location.
“It builds on another long-awaited resolution in 2020 of a mathematical conundrum to describe random movement in confined space. This latest discovery is a further significant step forward in improving our understanding of motion in all its shapes and forms—collectively termed the mathematics of movement—which has many exciting potential applications.”
Solution to century-old math problem could predict transmission of infectious diseases
More information:
Toby Kay and Luca Giuggioli, Diffusion through permeable interfaces: Fundamental equations and their application to first-passage and local time statistics, Physical Review Research (2022). journals.aps.org/prresearch/ac … 9165d2cc3a57a416bdf4
Toby Kay and Luca Giuggioli, Diffusion through permeable interfaces: Fundamental equations and their application to first-passage and local time statistics, Physical Review Research (2022). journals.aps.org/prresearch/ac … 9165d2cc3a57a416bdf4
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Biden’s $26 billion proposal for NASA paves path for 1st human exploration on Mars
The figure is 8% more than the enacted federal spending levels, or the appropriation bill from fiscal year 2022, Nelson said.
“Greater than a number, statistic, or fact is what the President’s budget request represents,” Nelson said in a statement.
“This budget reflects the Biden-Harris Administration’s confidence in the extraordinary workforce that makes NASA the best place to work in the federal government,” Nelson said. “It’s an investment in the businesses and universities that partner with NASA in all 50 states and the good-paying jobs they are creating. It’s a signal of support for our missions in a new era of exploration and discovery.”
The request was submitted to Congress Monday as part of President Joe Biden’s proposed budget for fiscal year 2023. NASA officials believe that Biden’s request will allow NASA to continue investments in the Artemis program, which aims to land the first woman and the first person of color on the moon in 2025, as well as provide more research into the climate crisis and promote diversity, equity and inclusion.
Artemis mission to get lion’s share
The largest chunk of the $26 billion budget request would go toward the Artemis program.
The budget has intended $7.6 billion for deep-space exploration and $4.7 billion for exploration systems development.
Artemis is considered to be the program that will not only return humans to the moon and create a sustainable, long-lasting lunar presence, but will also prepare NASA for the first human exploration of Mars.
“Our goal is to apply what we’ve learned living and operating on the moon and continue then out into the solar system,” Nelson said. “Our plan is for humans to walk on Mars by 2040.”
The $4.7 billion would be used in support of lunar missions, like funding for the Orion spacecraft and Space Launch System rocket that will land astronauts on the moon. And $1.5 billion will go toward funding new competition to develop sustainable lunar landers, which was announced last week by NASA.
“Remember what happened after the Apollo program? You had several generations of engineers and scientists and technicians that all came out as a result of the extraordinary work in Apollo,” Nelson said. “But now, the Apollo generation has passed the torch to the Artemis generation. And this new generation is preparing to push the boundaries of what we know to be possible.”
Satellite monitoring and space tech
The budget request also includes $2.4 billion that could fund climate and weather monitoring, using satellites to observe our planet and other research to create a better understanding of the climate crisis.
The President’s budget will empower NASA to launch an Earth Information Center, Nelson said. The center will monitor greenhouse gases and other conditions on Earth in coordination with other agencies and partners, integrating data from satellites and telescopes to measure water, land, ice and the atmosphere on our planet.
Given NASA’s ongoing commercial partnerships, the agency has requested $1.4 billion for space technology research and development that could reduce costs, enhance mission capabilities and create more jobs for the US commercial space industry.
“Our partnership with industry has already allowed more scientific research, and in December, NASA signed agreements with three American companies to develop designs of space stations and other commercial destinations, first in low-Earth orbit and then who knows what, out of (low-Earth orbit).”
This budget provides funding for these efforts. It enables a commercial economy in low-Earth orbit, where the US will maintain an uninterrupted presence after the planned retirement of the International Space Station.
Noting that the first “A” in NASA stands for aeronautics, Nelson said $970 million of the budget would go toward aeronautics research that could improve aviation flights for everyone. This includes reducing the impact of the aviation industry on global climate and helping develop next-generation aircraft that will be safer, smoother, cleaner and quieter.
Lastly, there is $150 million to support NASA’s Office of STEM Engagement, providing more support for educational efforts and activities, especially in underserved areas.
Queen Elizabeth Paves the Way for Camilla to One Day Be Called Queen
On Saturday, the eve of the 70th anniversary of her accession to the throne, Queen Elizabeth II paved the way for Camilla, the Duchess of Cornwall, to be called a queen once Prince Charles becomes king of Britain.
In a statement, Elizabeth, 95, said it was her “sincere wish that, when the time comes, Camilla will be known as Queen Consort as she continues her own loyal service.” A consort is the partner of the ruling monarch.
The announcement seemed to resolve a sensitive issue for Camilla, the second wife of Prince Charles, who is Elizabeth’s eldest son and the heir to the throne. The two were romantically involved during Charles’s marriage to Diana, the Princess of Wales, who was killed in a car crash in 1997.
Camilla, who married Charles in 2005, was long reviled by the British tabloids, who sometimes called her the most hated woman in the country. It had widely been speculated that she would hold the title of Princess Consort, not Queen Consort, once Charles became king.
But Camilla has become more popular with the public over the years. Elizabeth recently appointed her a Royal Lady of the Most Noble Order of the Garter, a strong show of support.
In her message on Saturday, which she signed “Your Servant Elizabeth,” the queen said she was “eternally grateful for” and “humbled by” the support she received from around the world during her reign, which began seven decades ago on Sunday upon the death of her father, King George VI.
“And when, in the fullness of time, my son Charles becomes King, I know you will give him and his wife Camilla the same support that you have given me,” she said in the statement.
The royal family has been the source of much recent intrigue. Elizabeth’s second son, Prince Andrew, is being sued in New York by a woman who says he sexually abused her when she was a teenager, and the queen recently stripped him of his military titles. In March, Prince Harry and his wife, Meghan, who is biracial, gave a sensational interview to Oprah Winfrey in which the couple accused the royal family of callous and racist behavior toward them.
The 70th anniversary of the queen’s reign, known as her Platinum Jubilee, comes at a dark moment for Britain as a whole, battered along with the rest of the world by two years of a devastating pandemic. The country’s prime minister, Boris Johnson, is embroiled in a scandal over boozy parties that violated lockdown restrictions.
But the queen struck an optimistic note in her message. “These last seven decades have seen extraordinary progress socially, technologically and culturally that have benefited us all,” she said, adding that she was “confident that the future will offer similar opportunities to us.”
FDA paves way for Pfizer COVID-19 vaccinations in young kids
WASHINGTON (AP) — The Food and Drug Administration on Friday paved the way for children ages 5 to 11 to get Pfizer’s COVID-19 vaccine.
The FDA cleared kid-size doses — just a third of the amount given to teens and adults — for emergency use, and up to 28 million more American children could be eligible for vaccinations as early as next week.
One more regulatory hurdle remains: On Tuesday, advisers to the Centers for Disease Control and Prevention will make more detailed recommendations on which youngsters should get vaccinated, with a final decision by the agency’s director expected shortly afterwards.
“Vaccinating younger children against COVID-19 will bring us closer to returning to a sense of normalcy,” Dr. Janet Woodcock, the acting FDA commissioner, said in a statement. “Our comprehensive and rigorous evaluation of the data pertaining to the vaccine’s safety and effectiveness should help assure parents and guardians that this vaccine meets our high standards.”
A few countries have begun using other COVID-19 vaccines in children under 12, including China, which just began vaccinations for 3-year-olds. But many that use the vaccine made by Pfizer and its partner BioNTech are watching the U.S. decision, and European regulators just began considering the companies’ kid-size doses.
With FDA’s action, Pfizer plans to begin shipping millions of vials of the pediatric vaccine — in orange caps to avoid mix-ups with the purple-capped doses for everyone else — to doctors’ offices, pharmacies and other vaccination sites. Once the CDC issues its ruling, eligible kids will get two shots, three weeks apart.
While children are at lower risk of severe illness or death from COVID-19 than older people, 5- to 11-year-olds still have been seriously affected — including over 8,300 hospitalizations, about a third requiring intensive care, and nearly 100 deaths since the start of the coronavirus pandemic, according to the FDA.
And with the extra-contagious delta variant circulating, the government has counted more than 2,000 coronavirus-related school closings just since the start of the school year, affecting more than a million children.
“With this vaccine kids can go back to something that’s better than being locked at home on remote schooling, not being able to see their friends,” said Dr. Kawsar Talaat of Johns Hopkins University. “The vaccine will protect them and also protect our communities.”
The American Academy of Pediatrics also applauded FDA’s decision, and said pediatricians were “standing by” to talk with parents.
Vaccinating this age group is “an important step in keeping them healthy and providing their families with peace of mind,” said Dr. Lee Savio Beers, the academy’s president.
Earlier this week, FDA’s independent scientific advisers voted that the pediatric vaccine’s promised benefits outweigh any risks. But several panelists said not all youngsters will need to be vaccinated, and that they preferred the shots be targeted to those at higher risk from the virus.
Nearly 70% of 5- to 11-year-olds hospitalized for COVID-19 in the U.S. have other serious medical conditions, including asthma and obesity, according to federal tracking. Additionally, more than two-thirds of youngsters hospitalized are Black or Hispanic, mirroring long-standing disparities in the disease’s impact.
The question of how broadly Pfizer’s vaccine should be used will be a key consideration for the CDC and its advisers, who set formal recommendations for pediatricians and other medical professionals.
A Pfizer study of 2,268 schoolchildren found the vaccine was nearly 91% effective at preventing symptomatic COVID-19 infections, based on 16 cases of COVID-19 among kids given dummy shots compared to just three who got vaccinated.
The kid dosage also proved safe, with similar or fewer temporary reactions — such as sore arms, fever or achiness — that teens experience.
But the study wasn’t large enough to detect any extremely rare side effects, such as the heart inflammation that occasionally occurs after the second full-strength dose, mostly in young men and teen boys. It’s unclear if younger children getting a smaller dose also will face that rare risk.
Some parents are expected to vaccinate their children ahead of family holiday gatherings and the winter cold season.
Laura Cushman of Salt Lake City plans to get her three children — ages 7, 9 and 11 — vaccinated as soon as possible.
“We just want them to get to resume their pre-COVID life a little bit more. And feel safe about it,” she said.
But a recent Kaiser Family Foundation survey suggests most parents won’t rush to get the shots. About 25% of parents polled earlier this month said they would get their children vaccinated “right away.” But the remaining majority of parents were roughly split between those who said they will to wait to see how the vaccine performs and those who said they “definitely” won’t have their children vaccinated.
The similarly made Moderna vaccine also is being studied in young children, and both Pfizer and Moderna also are testing shots for babies and preschoolers.
___
AP reporter Lindsay Whitehurst in Salt Lake City contributed.
___
The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Department of Science Education. The AP is solely responsible for all content.
New technique paves the way for perfect perovskites
An exciting new solar material called organic-inorganic halide perovskites could one day help the U.S. achieve its solar ambitions and decarbonize the power grid. One thousand times thinner than silicon, perovskite solar materials can be tuned to respond to different colors of the solar spectrum simply by altering their composition mix.
Typically fabricated from organic molecules such as methylammonium and inorganic metal halides such as lead iodide, hybrid perovskite solar materials have a high tolerance for defects in their molecular structure and absorb visible light more efficiently than silicon, the solar industry’s standard.
Altogether, these qualities make perovskites promising active layers not only in photovoltaics (technologies that convert light into electricity), but also in other types of electronic devices that respond to or control light including light-emitting diodes (LEDs), detectors, and lasers.
“Although perovskites offer great potential for greatly expanding solar power, they have yet to be commercialized because their reliable synthesis and long-term stability has long challenged scientists,” said Carolin Sutter-Fella, a scientist at the Molecular Foundry, a nanoscience user facility at Lawrence Berkeley National Laboratory (Berkeley Lab). “Now, a path to perfect perovskites may soon be within reach.”
A recent Nature Communications study co-led by Sutter-Fella reports that solar materials manufacturing could be aided by a sophisticated new instrument that uses two types of light—invisible X-ray light and visible laser light—to probe a perovskite material’s crystal structure and optical properties as it is synthesized.
“When people make solar thin films, they typically have a dedicated synthesis lab and need to go to another lab to characterize it. With our development, you can fully synthesize and characterize a material at the same time, at the same place,” she said.
For this work, Sutter-Fella assembled an international team of top scientists and engineers to equip an X-ray beamline endstation with a laser at Berkeley Lab’s Advanced Light Source (ALS).
The new instrument’s highly intense X-ray light allows researchers to probe the perovskite material’s crystal structure and unveil details about fast chemical processes. For example, it can be used to characterize what happens in the second before and after a drop of a solidifying agent transforms a liquid precursor solution into a solid thin film.
At the same time, its laser can be used to create electrons and holes (electrical charge carriers) in the perovskite thin film, allowing the scientists to observe a solar material’s response to light, whether as a finished product or during the intermediate stages of material synthesis.
“Equipping an X-ray beamline endstation with a laser empowers users to probe these complementary properties simultaneously,” explained Sutter-Fella.
This combination of simultaneous measurements could become part of an automated workflow to monitor the production of perovskites and other functional materials in real time for process and quality control.
Perovskite films are typically made by spin coating, an affordable technique that doesn’t require expensive equipment or complicated chemical setups. And the case for perovskites gets even brighter when you consider how energy-intensive it is just to manufacture silicon into a solar device—silicon requires a processing temperature of about 2,732 degrees Fahrenheit. In contrast, perovskites are easily processed from solution at room temperature to just 302 degrees Fahrenheit.
The beamline endstation allows researchers to observe what happens during synthesis, and in particular during the first few seconds of spin coating, a critical time window during which the precursor solution slowly begins to solidify into a thin film.
First author Shambhavi Pratap, who specializes in the use of X-rays to study thin-film solar energy materials, played a critical role in developing the instrument as an ALS doctoral fellow. She recently completed her doctoral studies in the Müller-Buschbaum group at the Technical University of Munich.
“The instrument will allow researchers to document how small things that are usually taken for granted can have a big impact on material quality and performance,” Pratap said.
“To make reproducible and efficient solar cells at low cost, everything matters,” Sutter-Fella said. She added that the study was a team effort that spanned a wide range of scientific disciplines.
The work is the latest chapter in a body of work for which Sutter-Fella was awarded a Berkeley Lab Early Career Laboratory Directed Research and Development (LDRD) Award in 2017.
“We know that the research community is interested in using this new capability at the ALS,” she said. “Now we want to make it user friendly so that more people can take advantage of this endstation.”
New roadmap to better performing solar energy cells
More information:
Shambhavi Pratap et al, Out-of-equilibrium processes in crystallization of organic-inorganic perovskites during spin coating, Nature Communications (2021). DOI: 10.1038/s41467-021-25898-5
Shambhavi Pratap et al, Out-of-equilibrium processes in crystallization of organic-inorganic perovskites during spin coating, Nature Communications (2021). DOI: 10.1038/s41467-021-25898-5
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Lawrence Berkeley National Laboratory
Lawrence Berkeley National Laboratory
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New technique paves the way for perfect perovskites (2021, October 19)
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Research Into “Achilles Heel” of Cancer Tumors Paves Way for New Treatment Strategies
Researchers at the University of British Columbia’s faculty of medicine and BC Cancer Research Institute have uncovered a weakness in a key enzyme that solid tumor cancer cells rely on to adapt and survive when oxygen levels are low.
The findings, published on August 27, 2021, in Science Advances, will help researchers develop new treatment strategies to limit the progression of solid cancer tumors, which represent the majority of tumor types that arise in the body.
Solid tumors rely on blood supply to deliver oxygen and nutrients to help them grow. As the tumors advance, these blood vessels are unable to provide oxygen and nutrients to every part of the tumor, which results in areas of low oxygen. Over time, this low-oxygen environment leads to a buildup of 
Dr. Shoukat Dedhar, professor in UBC faculty of medicine’s department of biochemistry and molecular biology and distinguished scientist at BC Cancer. Credit: University of British Columbia
“Cancer cells depend on the CAIX enzyme to survive, which ultimately makes it their ‘Achilles heel.’ By inhibiting its activity, we can effectively stop the cells from growing,” explains the study’s senior author Dr. Shoukat Dedhar, professor in UBC faculty of medicine’s department of biochemistry and molecular biology and distinguished scientist at BC Cancer.
Dr. Dedhar and colleagues previously identified a unique compound, known as SLC-0111—currently being evaluated in Phase 1 clinical trials—as a powerful inhibitor of the CAIX enzyme. While pre-clinical models of breast, pancreatic, and brain cancers have demonstrated the effectiveness of this compound in suppressing tumor growth and spread, other cellular properties diminish its effectiveness.
In this study, the research team, which included Dr. Shawn Chafe, a research associate in Dr. Dedhar’s lab, together with Dr. Franco Vizeacoumar and colleagues from the University of Saskatchewan, set out to examine these cellular properties and identify other weaknesses of the CAIX enzyme using a powerful tool known as a genome-wide synthetic lethal screen. This tool looks at the genetics of a cancer cell and systematically deletes one gene at a time to determine if a cancer cell can be killed by eliminating the CAIX enzyme together with another specific gene.
According to Dr. Dedhar, the results of their examination were surprising and point to an unexpected role of proteins and processes that control a form of cell death called ferroptosis. This form of cell death happens when iron builds up and weakens the tumor’s metabolism and cell membranes.
“We now know that the CAIX enzyme blocks cancer cells from dying as a result of ferroptosis,” says Dr. Dedhar. “Combining inhibitors of CAIX, including SLC-0111, with compounds known to bring about ferroptosis results in catastrophic cell death and debilitates tumor growth.”
There is currently a large international effort underway to identify drugs that can induce ferroptosis. This study is a major step forward in this quest.
Reference: “Genome-wide synthetic lethal screen unveils novel CAIX-NFS1/xCT axis as a targetable vulnerability in hypoxic solid tumors” by Shawn C. Chafe, Frederick S. Vizeacoumar, Geetha Venkateswaran, Oksana Nemirovsky, Shannon Awrey, Wells S. Brown, Paul C. McDonald, Fabrizio Carta, Andrew Metcalfe, Joanna M. Karasinska, Ling Huang, Senthil K. Muthuswamy, David F. Schaeffer, Daniel J. Renouf, Claudiu T. Supuran, Franco J. Vizeacoumar and Shoukat Dedhar, 27 August 2021, Science Advances.
DOI: 10.1126/sciadv.abj0364