(Press-News.org) UPTON, NY - In a step toward engineering ever-smaller electronic devices, scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have assembled nanoscale pairings of particles that show promise as miniaturized power sources. Composed of light-absorbing, colloidal quantum dots linked to carbon-based fullerene nanoparticles, these tiny two-particle systems can convert light to electricity in a precisely controlled way.
"This is the first demonstration of a hybrid inorganic/organic, dimeric (two-particle) material that acts as an electron donor-bridge-acceptor system for converting light to electrical current," said Brookhaven physical chemist Mircea Cotlet, lead author of a paper describing the dimers and their assembly method in Angewandte Chemie.
By varying the length of the linker molecules and the size of the quantum dots, the scientists can control the rate and the magnitude of fluctuations in light-induced electron transfer at the level of the individual dimer. "This control makes these dimers promising power-generating units for molecular electronics or more efficient photovoltaic solar cells," said Cotlet, who conducted this research with materials scientist Zhihua Xu at Brookhaven's Center for Functional Nanomaterials (CFN, http://www.bnl.gov/cfn/).
Scientists seeking to develop molecular electronics have been very interested in organic donor-bridge-acceptor systems because they have a wide range of charge transport mechanisms and because their charge-transfer properties can be controlled by varying their chemistry. Recently, quantum dots have been combined with electron-accepting materials such as dyes, fullerenes, and titanium oxide to produce dye-sensitized and hybrid solar cells in the hope that the light-absorbing and size-dependent emission properties of quantum dots would boost the efficiency of such devices. But so far, the power conversion rates of these systems have remained quite low.
"Efforts to understand the processes involved so as to engineer improved systems have generally looked at averaged behavior in blended or layer-by-layer structures rather than the response of individual, well-controlled hybrid donor-acceptor architectures," said Xu.
The precision fabrication method developed by the Brookhaven scientists allows them to carefully control particle size and interparticle distance so they can explore conditions for light-induced electron transfer between individual quantum dots and electron-accepting fullerenes at the single molecule level.
The entire assembly process takes place on a surface and in a stepwise fashion to limit the interactions of the components (particles), which could otherwise combine in a number of ways if assembled by solution-based methods. This surface-based assembly also achieves controlled, one-to-one nanoparticle pairing.
To identify the optimal architectural arrangement for the particles, the scientists strategically varied the size of the quantum dots - which absorb and emit light at different frequencies according to their size - and the length of the bridge molecules connecting the nanoparticles. For each arrangement, they measured the electron transfer rate using single molecule spectroscopy.
"This method removes ensemble averaging and reveals a system's heterogeneity - for example fluctuating electron transfer rates - which is something that conventional spectroscopic methods cannot always do," Cotlet said.
The scientists found that reducing quantum dot size and the length of the linker molecules led to enhancements in the electron transfer rate and suppression of electron transfer fluctuations.
"This suppression of electron transfer fluctuation in dimers with smaller quantum dot size leads to a stable charge generation rate, which can have a positive impact on the application of these dimers in molecular electronics, including potentially in miniature and large-area photovoltaics," Cotlet said.
"Studying the charge separation and recombination processes in these simplified and well-controlled dimer structures helps us to understand the more complicated photon-to-electron conversion processes in large-area solar cells, and eventually improve their photovoltaic efficiency," Xu added.
A U.S. patent application is pending on the method and the materials resulting from using the technique, and the technology is available for licensing. Please contact Kimberley Elcess at (631) 344-4151, or elcess@bnl.gov, for more information.
###
This work was funded by the DOE Office of Science.
MEDIA CONTACTS: Karen McNulty Walsh, kmcnulty@bnl.gov, (631) 344-8350 or Peter Genzer, genzer@bnl.gov, (631) 344-3174
The Center for Functional Nanomaterials at Brookhaven National Laboratory is one of the five DOE Nanoscale Science Research Centers (NSRCs), premier national user facilities for interdisciplinary research at the nanoscale. Together the NSRCs comprise a suite of complementary facilities that provide researchers with state-of-the-art capabilities to fabricate, process, characterize and model nanoscale materials, and constitute the largest infrastructure investment of the National Nanotechnology Initiative. The NSRCs are located at DOE's Argonne, Brookhaven, Lawrence Berkeley, Oak Ridge and Sandia and Los Alamos national laboratories. For more information about the DOE NSRCs, please visit http://nano.energy.gov.
One of ten national laboratories overseen and primarily funded by the Office of Science of the U.S. Department of Energy (DOE), Brookhaven National Laboratory conducts research in the physical, biomedical, and environmental sciences, as well as in energy technologies and national security. Brookhaven Lab also builds and operates major scientific facilities available to university, industry and government researchers. Brookhaven is operated and managed for DOE's Office of Science by Brookhaven Science Associates, a limited-liability company founded by the Research Foundation of State University of New York on behalf of Stony Brook University, the largest academic user of Laboratory facilities, and Battelle, a nonprofit, applied science and technology organization.
Visit Brookhaven Lab's electronic newsroom for links, news archives, graphics, and more at http://www.bnl.gov/newsroom , or follow Brookhaven Lab on Twitter, http://twitter.com/BrookhavenLab.
Related Links:
Scientific Paper: Quantum Dot-Bridge-Fullerene Heterodimers with Controlled Photoinduced Electron Transfer (http://onlinelibrary.wiley.com/doi/10.1002/anie.201007270/abstract)
Pairing quantum dots with fullerenes for nanoscale photovoltaics
Surface-based assembly produces promising power-generating units for molecular electronics
2011-05-11
ELSE PRESS RELEASES FROM THIS DATE:
On 9/11, Americans may not have been as angry as you thought they were
2011-05-11
On September 11, 2001, the air was sizzling with anger—and the anger got hotter as the hours passed. That, anyway, was one finding of a 2010 analysis by Mitja Back, Albrecht Küfner, and Boris Egloff of 85,000 pager messages sent that day. The researchers employed a commonly used tool called Linguistic Inquiry and Word Count, or LIWC, which teases out information from the frequency of word usages in texts.
But were Americans really so angry? Clemson University psychologist Cynthia L. S. Pury wasn't out to answer that question when she made the discovery that was just published ...
A new study on self-injury behavior encourages quick and targeted intervention
2011-05-11
While the disturbing act of self-injury is nothing new to adolescents, researchers and physicians at Nationwide Children's Hospital have identified a more severe type of behavior that is raising some concern among medical professionals. Often misdiagnosed, ignored and under-reported, Self-Embedding Behavior (SEB) is a form of self-injurious behavior that involves inserting foreign objects into soft tissue – either under the skin or into muscle. A recent study, published in the June issue of Pediatrics, stresses the importance of quickly identifying this dangerous behavior ...
New American Chemical Society podcast: 2-in-1 explosive detector and neutralizer
2011-05-11
WASHINGTON, May 10, 2011 — A two-in-one material that can both detect and neutralize explosives of the type favored by Richard Reid, the notorious shoe bomber who tried to blow-up a commercial airliner in 2001, is the topic of the latest episode in the American Chemical Society's (ACS) award-winning "Global Challenges/Chemistry Solutions" podcast.
The podcast explains that the detector/neutralizer is a material made of metal oxide nanoparticles so small that 50,000 could fit across the width of a single human hair. It changes color in the presence of certain explosives, ...
Student, 16, invents new drug cocktail to fight cystic fibrosis, wins Canadian biotech challenge
2011-05-11
While many 16-year-olds are content with PlayStation, Toronto-area student Marshall Zhang used the Canadian SCINET supercomputing network to invent a new drug cocktail which could one day help treat cystic fibrosis.
The Grade 11 student at Bayview Secondary School in Richmond Hill so impressed eight eminent scientists at the National Research Council of Canada laboratories in Ottawa they awarded him first prize today in the 2011 Sanofi-Aventis BioTalent Challenge.
Jonathan Khouzam, Simon Leclerc, Francis Marcogliese, all 19, of Montreal's CÉGEP Collège Jean-de-Brébeuf, ...
Getting along with co-workers may prolong life, researchers find
2011-05-11
WASHINGTON -- People who have a good peer support system at work may live longer than people who don't have such a support system, according research published by the American Psychological Association.
This effect of peer social support on the risk of mortality was most pronounced among those between the ages of 38 and 43. Yet similar support from workers' supervisors had no effect on mortality, the researchers found.
In addition, men who felt like they had control and decision authority at work also experienced this "protective effect," according to the study, published ...
Genomic test shows promise as chemotherapy response, survival predictor for women with breast cancer
2011-05-11
HOUSTON — A new genomic test combining multiple signatures – a patient's estrogen receptor status, endocrine therapy response, chemotherapy resistance and sensitivity – shows promise as a predictor of chemotherapy response and survival benefit in women with invasive breast cancer, according to research led by The University of Texas MD Anderson Cancer Center.
The findings, published in the May 11 issue of JAMA, also may determine those for whom standard therapy alone might not offer enough, and/or for whom an appropriate clinical trial in the adjuvant setting could provide ...
'Surrogates' aid design of complex parts and controlling video games
2011-05-11
WEST LAFAYETTE, Ind. - Researchers have defined a new class of software, calling it "surrogate interaction," which enables designers and video gamers to more easily change features of complex objects like automotive drawings or animated characters.
The new interactive approach is being used commercially and in research but until now has not been formally defined, and doing so could boost its development and number of applications, said Ji Soo Yi, an assistant professor of industrial engineering at Purdue University.
Conventional computer-aided design programs often ...
Genetic defects hold clues to risk for sudden cardiac death
2011-05-11
Sudden cardiac death is always a shocking, tragic event, especially when it occurs at a young age. But, for the first time, scientists are unraveling how genetic defects can help predict the risk of dying suddenly in individuals with one of the leading causes of this unfortunate phenomenon.
This knowledge could guide treatment and potentially lessen the occurrence of sudden cardiac death in patients with Long QT syndrome, a rare, inherited heart rhythm disorder. It could also provide insight into the assessment and treatment of the millions of people who experience cardiac ...
Wayne State researchers find new way to examine major depressive disorder in children
2011-05-11
DETROIT — A landmark study by scientists at Wayne State University published in the May 6, 2011, issue of Archives of General Psychiatry, the most prestigious journal in the field, has revealed a new way to distinguish children with major depressive disorder (MDD) from not only normal children, but also from children with obsessive compulsive disorder (OCD).
MDD is a common, debilitating disease prevalent in childhood and adolescence. Examination of cortical thickness in patients with MDD has not been widely studied, and WSU's team of researchers set out to determine ...
Brazil's health care system vastly expands coverage, but universality, equity remain elusive
2011-05-11
Two decades after Brazil's constitution recognized health as a citizen's right and a duty of the state, the country has vastly expanded health care coverage, improved the population's health, and reduced many health inequalities, but universal and equitable coverage remains elusive, experts from four major Brazilian universities and New York University have concluded.
According to their analysis—one of six articles published in the medical journal The Lancet as a special series on health in Brazil—while federal expenditures have nearly quadrupled over the past 10 years, ...
LAST 30 PRESS RELEASES:
Call for papers: 14th Asia-Pacific Conference on Transportation and the Environment (APTE 2025)
A novel disturbance rejection optimal guidance method for enhancing precision landing performance of reusable rockets
New scan method unveils lung function secrets
Searching for hidden medieval stories from the island of the Sagas
Breakthrough study reveals bumetanide treatment restores early social communication in fragile X syndrome mouse model
Neuroscience leader reveals oxytocin's crucial role beyond the 'love hormone' label
Twelve questions to ask your doctor for better brain health in the new year
Microelectronics Science Research Centers to lead charge on next-generation designs and prototypes
Study identifies genetic cause for yellow nail syndrome
New drug to prevent migraine may start working right away
Good news for people with MS: COVID-19 infection not tied to worsening symptoms
Department of Energy announces $179 million for Microelectronics Science Research Centers
Human-related activities continue to threaten global climate and productivity
Public shows greater acceptance of RSV vaccine as vaccine hesitancy appears to have plateaued
Unraveling the power and influence of language
Gene editing tool reduces Alzheimer’s plaque precursor in mice
TNF inhibitors prevent complications in kids with Crohn's disease, recommended as first-line therapies
Twisted Edison: Bright, elliptically polarized incandescent light
Structural cell protein also directly regulates gene transcription
Breaking boundaries: Researchers isolate quantum coherence in classical light systems
Brain map clarifies neuronal connectivity behind motor function
Researchers find compromised indoor air in homes following Marshall Fire
Months after Colorado's Marshall Fire, residents of surviving homes reported health symptoms, poor air quality
Identification of chemical constituents and blood-absorbed components of Shenqi Fuzheng extract based on UPLC-triple-TOF/MS technology
'Glass fences' hinder Japanese female faculty in international research, study finds
Vector winds forecast by numerical weather prediction models still in need of optimization
New research identifies key cellular mechanism driving Alzheimer’s disease
Trends in buprenorphine dispensing among adolescents and young adults in the US
Emergency department physicians vary widely in their likelihood of hospitalizing a patient, even within the same facility
Firearm and motor vehicle pediatric deaths— intersections of age, sex, race, and ethnicity
[Press-News.org] Pairing quantum dots with fullerenes for nanoscale photovoltaicsSurface-based assembly produces promising power-generating units for molecular electronics