U.S. Public and Private Higher Education
News releases, reports, statements and associated documents from public, private and community colleges in the U.S.
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University of Warwick: HRT Prescriptions Lower in the Most Deprived Areas of England - New Study
COVENTRY, England, Sept. 30 (TNSJou) -- The University of Warwick issued the following news release on Sept. 29:
Prescription rates for hormone replacement therapy (HRT) are lower in more deprived areas of England compared to affluent areas, a new study from the University of Warwick has found.
Researchers at Warwick Medical School found that the overall prescribing rate of HRT was 29% lower in GP practices from the most socioeconomically deprived fifth compared to least deprived fifth.
They have published the results of an analysis of prescription rates for HRT and socioeconomic status in England
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COVENTRY, England, Sept. 30 (TNSJou) -- The University of Warwick issued the following news release on Sept. 29:
Prescription rates for hormone replacement therapy (HRT) are lower in more deprived areas of England compared to affluent areas, a new study from the University of Warwick has found.
Researchers at Warwick Medical School found that the overall prescribing rate of HRT was 29% lower in GP practices from the most socioeconomically deprived fifth compared to least deprived fifth.
They have published the results of an analysis of prescription rates for HRT and socioeconomic status in Englandin the British Journal of General Practice today (29 September), which highlights inequalities associated with HRT prescriptions and suggests there is a large unmet need in terms of menopause care in areas of greater deprivation.
HRT is prescribed for the treatment of menopausal or perimenopausal symptoms, and according to NHS.uk can relieve many of the symptoms of menopause, such as hot flushes, night sweats, mood swings, vaginal dryness and reduced sex drive. Many women find that their work and home life are negatively affected when experiencing the menopause and consult their GP during this time.
Past research has raised concerns that women from deprived backgrounds are less likely to be receiving HRT treatment and its benefits, although recent evidence in support of this is lacking.
To investigate this, the researchers used prescribing data from GP practices in England from NHS Digital for the year 2018 and compared this with practice-level Index of Multiple Deprivation scores. The Index of Multiple Deprivation score is an overall measure of deprivation experienced by people living in a certain area, and considers seven dimensions: income deprivation; employment deprivation; health deprivation and disability; education; skills and training deprivation; barriers to housing and services; and living environment deprivation and crime.
The overall rate of HRT prescriptions per 1000 women, aged 40 years or over, was 29% lower in practices from the most deprived quintile compared with the least deprived. After adjusting for all cardiovascular disease outcomes and risk factors, the prescribing rate in the most deprived quintile was still 18% lower than in the least deprived quintile. In addition, they found that there was a significantly higher tendency to prescribe oral HRT (administered by mouth) than transdermal preparations (administered through the skin) in more deprived practices.
Lead author Dr Sarah Hillman from Warwick Medical School said: "Our research showed that women in deprived areas are less likely to be prescribed HRT and are prescribed relatively more oral and less transdermal HRT, even though transdermal has less risks of side effects.
"The data couldn't tell us why that is the case, only that there was a difference. That will be investigated in the next stage of the research. However, there is likely to be both clinician and patient factors involved.
"Access to menopause care is incredibly important. HRT is a medication that can significantly improve symptoms of the menopause. If women want to consider HRT they should approach their GP."
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JOURNAL: British Journal of General Practice - https://doi.org/10.3399/bjgp20X713045
University of Nevada: Cleaning for COVID-19 - Are Household Disinfectants and Sanitizers Harmful to Our Health?
RENO, Nevada, Sept. 30 -- The University of Nevada issued the following news:
We get used to the new normal - sanitization - in the COVID-19 world. Every day, we apply various chemical disinfectants in our homes, offices and classrooms, aiming to kill the novel coronavirus on high-touch surfaces. The novel coronavirus has been found to remain viable on hard, non-porous surfaces for hours to even days. To date, the U.S. Environmental Protection Agency and regulatory agencies in other countries have published lists of recommended cleaning products for use against the virus. The virucidal ingredients
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RENO, Nevada, Sept. 30 -- The University of Nevada issued the following news:
We get used to the new normal - sanitization - in the COVID-19 world. Every day, we apply various chemical disinfectants in our homes, offices and classrooms, aiming to kill the novel coronavirus on high-touch surfaces. The novel coronavirus has been found to remain viable on hard, non-porous surfaces for hours to even days. To date, the U.S. Environmental Protection Agency and regulatory agencies in other countries have published lists of recommended cleaning products for use against the virus. The virucidal ingredientsin these products include alcohols, phenols, quaternary ammonium compounds ("quats"), and many others. You may be unfamiliar with the name "quats," but if checking the labels of disinfecting sprays, hand sanitizers and sanitizing wipes in your homes, you would easily find the members of the quats family: benzalkonium chlorides, benzethonium chloride, alkyldimethylbenzyl ammonium chlorides, dodecyl dimethyl ammonium chlorides and so on.
Can these disinfecting chemicals be harmful to our health?
Probably. During the past decades, a growing number of scientists have linked some disinfecting chemicals with developmental and reproductive problems among animals in the laboratories. For instance, when intentionally feeding animals with high doses of quats, scientists observed increased rates of neural tube defects, infertility, and enzyme inhibition. While there has not been any evidence confirming a direct link between disinfectant use with toxicity in humans, toxicologists and health scientists call for more scrutiny of the safety of disinfectant chemicals.
Our homes are not labs, so we would be totally safe, right?
Before giving a definitive yes or no, let's recall how we use cleaning products on hard surfaces at home: after use, most of us let the disinfected surfaces or objects air dried without wiping up excess disinfectants. In this situation, disinfectants would remain on the surfaces or objects all day long. When our kids climb on the disinfected table surfaces or countertops as if they conquered Mount Everest, or touch the disinfected toys, doorknobs and electronics, disinfectants stealthily migrate to the skin of their palms or fingers. The kids may then take in disinfectants when licking or biting their hands. According to our recent research on 22 disinfecting ingredients, such an unintended mouthing-mediated intake is not trivial: when disinfectants are used at full strength without dilution, the unintended mouthing-mediated intake is prevalently more than 2,000 times higher than intake through deliberate contact with disinfectants, such as skin absorption during handwashing. The unintended mouthing-mediated intake is less relevant for alcohols and phenols, as they can easily turn into gases and are ventilated out from the room. However, quats cannot easily change into gases and would stay on the surfaces for a long time if not wiped off. The unintended mouthing-mediated intake is particularly notable for kids because they are more frequent in licking palms, wiping mouth and sucking thumb than adults are. For instance, our recent study also shows that the intake of a 3-year-old kid is typically 55 times higher than that of an adult for some quats.
Is the intake risky for our kids?
Unfortunately, we do not have a conclusive answer at this moment. In a risk assessment, scientists usually compare the level of chemical intake with the minimum level of a chemical leading to a certain health outcome. Yet, scientists have not yet to reach a consensus regarding which health outcome should be used as the criterion in a risk assessment. In our recent work, we attempted to characterize the risks using two approaches in parallel. On the one hand, U.S. Environmental Protection Agency recommends the use of a concept called " reference dose" to describe the minimum amount of a chemical posing "systemic toxicity" to the human body (this reference dose is derived from animal, not human, studies at this moment). If this criterion is applied, our assessment shows that around 40% of the 22 disinfectants studied in our work can be somewhat risky at the intake level of kids. Other scientists propose the use of cell studies to assess how toxic a chemical is to certain biological activities or functions of a cell. If this criterion is applied, our assessment shows that there is little risk for most disinfecting chemicals. However, no matter which criterion is used, triclosan, triclocarban and benzethonium chloride (one of the quats) would to some extent pose health risks to kids. Triclosan and triclocarban have been removed from the list of ingredients "generally recognized as safe (GRAS)" by the U.S. Food and Drug Administration, but they are still allowed to be used in other countries.
Then what do we need to do to protect our kids?
Of course, it is by no means wise or prudent to stop disinfecting your homes because the pandemic is the primary risk at this moment. However, we can still do something to prevent our kids to be overexposed to disinfectants. For instance, we may use disinfectants that tends to go into the air, instead of quats, for indoor surfaces with which kids are in frequent contact. Alcohols, e.g., 70% ethyl or isopropyl alcohol, may be an ideal option. We may also wipe up excess disinfectants after disinfecting surfaces accessible to kids. But keep in mind that before wiping off, we need to keep the surface wet for an appropriate "contact time" based on the manufacturer guideline to ensures disinfectants inactivate the pathogens.
University of Lethbridge: Grant to Aid in Developing New Treatments for Alzheimer's Disease
LETHBRIDGE, Alberta, Sept. 30 (TNSRes) -- The University of Lethbridge issued the following news:
The University of Lethbridge's Dr. Majid Mohajerani and two partners from Laval University are creating new tools for neuroscience research that they'll use to test out a promising drug target for Alzheimer's disease. If successful, their research could lead to new treatments to prevent the onset of Alzheimer's disease symptoms, delay progression of the disease or even restore normal function after symptoms have appeared.
The research is made possible thanks to a grant of nearly $1 million over three
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LETHBRIDGE, Alberta, Sept. 30 (TNSRes) -- The University of Lethbridge issued the following news:
The University of Lethbridge's Dr. Majid Mohajerani and two partners from Laval University are creating new tools for neuroscience research that they'll use to test out a promising drug target for Alzheimer's disease. If successful, their research could lead to new treatments to prevent the onset of Alzheimer's disease symptoms, delay progression of the disease or even restore normal function after symptoms have appeared.
The research is made possible thanks to a grant of nearly $1 million over threeyears from the Weston Brain Institute, a non-profit institute of the W. Garfield Weston Foundation that supports world-class neuroscience research to accelerate discovery of treatments for neurodegenerative diseases such as Alzheimer's and Parkinson's.
"New treatments for these diseases are critically needed," says Mohajerani, a professor of neuroscience at the U of L's Canadian Centre for Behavioural Neuroscience (CCBN). "Alzheimer's disease has an enormous impact on patients, the health-care system and society. This is only anticipated to get worse as the population ages. Current treatments for Alzheimer's disease only address some of the symptoms. They do not prevent or alter the course of the disease."
In the project, Mohajerani, along with Laval University's Drs. Benoit Gosselin and Yves De Koninck, will develop a device that allows for minimally invasive stimulation and recording of brain activity in mice in their home cages. The device includes a wireless transmitter, thus removing the need for the animal to be taken from its home cage and hooked up to wires in the lab. This implant will be combined with an automated monitoring system, currently under development at the CCBN, that records the animals' natural behaviour. Together, these devices will allow scientists to measure both the brain activity and behaviour of an animal in its home environment over days, weeks or even months.
The technology will enable them to address the idea that abnormal brain activity, characterized by an imbalance between excitatory and inhibitory connections in the brain, underlies the early progression of Alzheimer's disease. De Koninck is a world expert on a certain protein, found on the outer membranes of cells within the nervous system, called potassium chloride co-transporter 2 (KCC2). An increase or decrease in the production of KCC2 affects the balance of inhibitory and excitatory activity in the brain. Pharmaceutical tools that target KCC2 might thus be able to correct the imbalance observed in Alzheimer's disease, as well as other nervous system disorders such as chronic pain.
"We are using drugs that modulate the expression of KCC2," says Mohajerani. "We will increase and also decrease the production of KCC2 to study both effects. We will explore if activation of KCC2, by boosting neuronal inhibition, can reduce the progression of the disease and if inhibition of KCC2 will increase the progression of the disease."
Using genetically modified mice that model Alzheimer's disease pathology and symptoms, the project aims to accelerate the development of therapeutics for Alzheimer's disease by testing how altering KCC2 function affects brain activity and behaviour during disease progression in living animals. If successful, this research would implicate KCC2 as an entirely new drug target for mitigating Alzheimer's disease.
This grant is the first for the U of L from the Weston Brain Institute.
University of Illinois: Gene Expression Altered By Direction of Forces Acting on Cell
CHAMPAIGN, Illinois, Sept. 30 (TNSJou) -- The University of Illinois System Urbana-Champaign campus issued the following news release:
Tissues and cells in the human body are subjected to a constant push and pull - strained by other cells, blood pressure and fluid flow, to name a few. The type and direction of the force on a cell alters gene expression by stretching different regions of DNA, researchers at University of Illinois Urbana-Champaign and collaborators in China found in a new study.
The findings could provide insights into physiology and diseases such as fibrosis, cardiovascular disease
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CHAMPAIGN, Illinois, Sept. 30 (TNSJou) -- The University of Illinois System Urbana-Champaign campus issued the following news release:
Tissues and cells in the human body are subjected to a constant push and pull - strained by other cells, blood pressure and fluid flow, to name a few. The type and direction of the force on a cell alters gene expression by stretching different regions of DNA, researchers at University of Illinois Urbana-Champaign and collaborators in China found in a new study.
The findings could provide insights into physiology and diseases such as fibrosis, cardiovascular diseaseand malignant cancer, the researchers said.
"Force is everywhere in the human body, and both external and internal forces can influence your body far more than you may have thought," said study leader Ning Wang, a professor of mechanical science and engineering at Illinois. "These strains profoundly influence cellular behaviors and physiological functions, which are initiated at the level of gene expression."
The effects of physical forces and signals on cells, tissues and organs have been less studied than those of chemical signals and responses, yet physical forces play an important role in how cells function and respond to their environment, Wang said.
Most studies seeking to understand the mechanics of cells apply force using a microscope cantilever probe to tap a cell's surface or a focused laser beam to move a tiny particle across the surface. However, these techniques can only move in one dimension. This incomplete picture leaves fundamental questions unanswered, Wang said - for example, the difference in the responses to shear stress from blood flow and stretching from blood pressure.
Wang and his collaborators developed a method that allows them to move a magnetic bead in any direction, giving them a picture of the ways forces act on a cell in 3D. They call it three-dimensional magnetic twisting cytometry.
They found that the force from the magnetic bead caused a rapid increase in expression for certain genes, but the amount of the increase depended on the direction the bead moved. When the bead rolled along the long axis of the cell, the increase was the lowest, but when the force was applied perpendicularly - across the short axis of the cell - gene activity increased the most. When the bead was moved at a 45-degree angle or rotated in the same plane as the cell to induce shear stress, the response was intermediate.
"These observations show that gene upregulation and activation are very sensitive to the mode of the applied force, when the magnitude of the force remains unchanged," Wang said.
In further experiments, the researchers found that the reason for the difference lies in the method that the forces are relayed to the cell's nucleus, where DNA is housed. Cells have a network of support structures called the cytoskeleton, and the main force-bearing elements are long fibers of the protein actin. When they bend due to a force, they relay that force to the nucleus and stretch the chromosomes.
These actin fibers run lengthwise along the cell. So when the force strains them widthwise, they deform more, stretching the chromosomes more and causing greater gene activity, the researchers found. They published their findings in the journal Nature Communications.
"A stress fiber is like a tense violin string. When a stress is applied across the short axis of the cell, it's just like when a person plucks a violin string vertically from the string's direction to produce a louder, more forceful sound," Wang said.
The researchers' next step will be to create disease models to see how different forces might help explain the mechanism of certain diseases, and to identify possible therapeutic targets or applications.
"In certain diseases, such as aortic valve calcification, arterial atherosclerosis, liver fibrosis or malignant tumors, these cellular responses and adaptation go awry, causing the tissues and organs to function abnormally," Wang said. "This is the first time that the mechanism of living cells' different biological responses to the direction of forces at the level of genes has been revealed, so perhaps with our three-dimensional approach we can understand these diseases better."
The U.S. National Institutes of Health and the National Science Foundation of China supported this work. Wang is affiliated with the Beckman Institute for Advanced Science and Technology, the Cancer Center at Illinois, the Carle Illinois College of Medicine, the Carl R. Woese Institute for Genomic Biology, the department of bioengineering and the Holonyak Micro and Nanotechnology Lab at Illinois.
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JOURNAL: Nature Communications - https://www.nature.com/articles/s41467-020-18584-5
Royal College of Nursing: Response to the NHS Confederation Report 'NHS Reset - A New Direction for Health and Care'
LONDON, England, Sept. 30 (TNSRes) -- The Royal College of Nursing issued the following statement on Sept. 29 by Dame Donna Kinnair, chief executive and general secretary:
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The Royal College of Nursing (RCN) today commented on the NHS Confederation's report, NHS Reset: A new direction for health and care.
Dame Donna Kinnair, RCN Chief Executive and General Secretary, said:
"This deeply concerning report shows the urgent need for investment in our health services, to make them sustainable and ensure patient safety.
"Nursing is an area of particular concern that we have repeatedly highlighted.
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LONDON, England, Sept. 30 (TNSRes) -- The Royal College of Nursing issued the following statement on Sept. 29 by Dame Donna Kinnair, chief executive and general secretary:
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The Royal College of Nursing (RCN) today commented on the NHS Confederation's report, NHS Reset: A new direction for health and care.
Dame Donna Kinnair, RCN Chief Executive and General Secretary, said:
"This deeply concerning report shows the urgent need for investment in our health services, to make them sustainable and ensure patient safety.
"Nursing is an area of particular concern that we have repeatedly highlighted.For years there has been a serious shortage of nursing staff, putting a worrying strain on health services and the people who work in them. Because we went into the pandemic with too few nurses, the situation is even tougher than it might have been.
"Many people do not realise the scale of the problem. In the NHS in England alone, there are approximately 40,000 nursing vacancies. When I say this to people outside our profession, they often look stunned.
"Worryingly, when we recently surveyed 42,000 Royal College of Nursing members, just over a third said they were thinking of leaving the profession, with most of them citing pay as a reason. We are calling on the government to invest in the health service and deliver a fair pay rise for nursing staff.
"There also need to be measures to properly care for nursing and other healthcare staff. Our survey showed just over three quarters of our members reported an increase in their own stress levels, and a very concerning nine in 10 saying they were concerned about the wellbeing of those in the nursing profession generally. Government must take action to address these issues, especially as we head into what is certain to be an extremely difficult winter."
Purdue: International Programs Uses Virtual Model to Expand Access, Collaboration During Pandemic
WEST LAFAYETTE, Indiana, Sept. 30 (TNSCon) -- Purdue University issued the following news release:
Purdue University students have the opportunity to work with students and faculty in Peru, Brazil and other parts of the world thanks to a new program offered through Purdue's International Programs.
With the global COVID-19 pandemic suspending study abroad programs, Michael Brzezinski, dean of International Programs, set out in May with his staff to find ways faculty and students could still have intercultural learning experiences.
Brzezinski, faculty and staff explored what could be done to take
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WEST LAFAYETTE, Indiana, Sept. 30 (TNSCon) -- Purdue University issued the following news release:
Purdue University students have the opportunity to work with students and faculty in Peru, Brazil and other parts of the world thanks to a new program offered through Purdue's International Programs.
With the global COVID-19 pandemic suspending study abroad programs, Michael Brzezinski, dean of International Programs, set out in May with his staff to find ways faculty and students could still have intercultural learning experiences.
Brzezinski, faculty and staff explored what could be done to takein-person study abroad to a virtual realm. About 30 faculty members showed interest in participating in a pilot program. Ten programs involving about 100 students were approved for the fall 2020 semester.
"We needed to respond to the suspension of study abroad programs by offering outside-the-box intercultural learning experiences for our students," Brzezinski said. "We had to pivot in a major way, and quickly, and accomplish in three months what often takes a full academic year. The dedication and effort by multiple individuals in every one of our colleges is a testament to their commitment to offer global experiences to our students."
Brzezinski credits faculty members who have existing international collaborations and an interest in intercultural learning for pulling the program together in three months, as well as those who are looking for ways to have professional development opportunities for students.
"The virtual experiential intercultural learning (VEIL) experiences that we have created will not only benefit students during the pandemic, but they will continue to be excellent opportunities for students who don't have financial resources to study abroad after overseas travel is resurrected. I believe that these virtual learning experiences are here to stay well beyond the COVID-19 pandemic," Brzezinski said. "Furthermore, thanks to the hard work of the CILMAR (Center for Intercultural Learning, Mentorship, Assessment and Research) staff we were able to rework our entire Intercultural Pedagogy Grant (IPG) curriculum so that we could offer workshops to help our faculty learn how to integrate best virtual teaching method practices into their programs."
John Sheffield, a professor of engineering technology in Purdue Polytechnic Institute and president of the International Association for Hydrogen Energy, has incorporated intercultural learning experiences into the semester team project on renewable energy for his HyFlex and online sections of the MET 320 Applied Thermodynamics course. The classes are working with faculty and students at the University of Engineering and Technology and the National University of Engineering in Peru, through a partnership that Sheffield developed in 1996.
The project Sheffield's classes will be working on with their Peruvian counterparts is the United Nations' "Race to Zero" initiative, which was suggested by a Peruvian professor. The goal of "Race to Zero" is to integrate renewable energy technologies with appropriate hydrogen fuel-cell technologies into the design of a net-zero community. The project can show students how their work can support a healthy, resilient, zero-carbon economic recovery that creates well-paying jobs and sustainable growth, and prevents future threats.
In addition to every student having an engaging virtual intercultural experience, the course's new look also addresses Purdue's alternative calendar, which will switch to remote learning after Thanksgiving.
"The traditional final exam for Applied Thermodynamics will be replaced by this semester-long project," Sheffield said.
The Black Cultural Center had plans to take a Maymester group to Brazil to study the Afro-Latin Diaspora. With the trip canceled, BCC leaders worked with International Programs and long-standing partners Brazil Cultural - Education and Cultural Travel -- to switch to the new format, including a different timeline.
Brazil Cultural staff worked with the BCC in developing a virtual program that will have a real educational and service impact, said Renee Thomas, director of the Black Cultural Center.
According to Thomas and Bill Caise, assistant director of the BCC, the program will be offered for one hour each evening Nov. 16-20 via Zoom. While no credits will be offered to students, the program is free. Participants can register for the program online (https://docs.google.com/forms/d/15TbA1Y8yH3t39Y1raJLOaQ0UlUIR57MtHDNQRGC2Cdo/edit?_ga=2.234470174.1873436301.1601356685-1090772253.1599632678).
Caise said the study abroad will still give students, faculty and staff the opportunity to explore the complex issues of history, race, politics, Latin America, the African Diaspora and how they affect Afro-Brazilian culture. In addition, participants will explore highly diverse communities such as Rio de Janeiro and Bahia, including roots to those communities' West African culture.
"We are excited to offer this flexible, accessible and fun experience. Students will have the chance to dip their toe in the water and experience a study abroad program. No passport is needed, and it is a great alternative for cultural learning," Caise said.
"It is our goal that students will be exposed to study abroad and once the boarders are open, they will be more likely to enroll in a credit-bearing offering through the BCC and the African American Studies and Research Center," Thomas said.
Missouri University of Science and Technology: Researchers Use Amino Acids to Grow High-Performance Copper Thin Films
ROLLA, Missouri, Sept. 30 (TNSRes) -- Missouri University of Science and Technology issued the following news release:
For the first time, researchers from Missouri S&T have shown that highly ordered copper thin films can be crystallized directly on a one-molecule-thick layer of organic material rather than on the inorganic substrates that have been used for years.
The copper thin films they've produced are excellent candidates for use as underlying substances for solar cells, LEDs, and high-temperature superconductors, says Dr. Jay Switzer, Chancellor's Professor and Curators' Distinguished
... Show Full Article
ROLLA, Missouri, Sept. 30 (TNSRes) -- Missouri University of Science and Technology issued the following news release:
For the first time, researchers from Missouri S&T have shown that highly ordered copper thin films can be crystallized directly on a one-molecule-thick layer of organic material rather than on the inorganic substrates that have been used for years.
The copper thin films they've produced are excellent candidates for use as underlying substances for solar cells, LEDs, and high-temperature superconductors, says Dr. Jay Switzer, Chancellor's Professor and Curators' DistinguishedProfessor emeritus of chemistry, who is principal investigator of the project. Switzer says that other researchers have previously electroplated thin films onto self-assembled monolayers (SAMs) of organic molecules, but those films lacked the in-plane and out-of-plane order required for electronic applications.
"Like the way seashells, bones or teeth are formed, we've found a way to give the copper films the right level of crystalline order and durability for their applications," says Switzer. "With our process, which mimics biomineralization, we're creating inorganic thin films with superior qualities of single-crystal-like order, high conductivity and flexibility."
In their experiments, the researchers electrodeposited copper on a single layer of L-cysteine, a protein- building amino acid that was placed on ordered layers of gold on silicon. After the copper crystallized into an ordered film, they were able to lift off a single, crystal-like foil simply using adhesive tape. Their process provides an inexpensive route to free-standing metal foils with properties that mimic those of expensive single crystals, the researchers note.
Switzer says their method shows the importance of the cysteine molecule in directing the growth of ordered crystalline structures. As a contribution to science, he notes the method will enable future work on the deposition of ordered films of other important materials such as semiconductors and catalysts onto organic self-assembled monolayers. The method may also prove to minimize the effects of lattice mismatch that sometimes limit epitaxial, or crystalline, growth.
Other Missouri S&T scientists on the team include Dr. Avishek Banik, a post-doctoral researcher in chemistry; Dr. Eric Bohannan, a senior research specialist in S&T's Materials Research Center; and Bin Luo, a doctoral student in chemistry.
The team's findings will be published in the upcoming issue of the American Chemical Society's Journal of Physical Chemistry C and are available now online in the study, "Epitaxial Electrodeposition of Cu(111) onto an L-cysteine Self- assembled Monolayer on Au(111) and Epitaxial Lift-off of Single-crystal-like CuFoils for Flexible Electronics."
