NEWS OF THE W EEK
ELECTRONICS: Polymer coating simplifies organic thin-film technology
A
SIMPLE POLYMER-BASED coating process can
reduce the cost and complexity of fabricating organic optoelectronic devices, according to a study published in Science by researchers at Georgia Institute of Technology (DOI: 10.1126/science.1218829). The finding may broaden the use of solar cells, electronic display technologies, and other applications of organic thin films, which offer key advantages over conventional semiconductor-based devices. Compared with silicon- and other inorganic semiconductor-based electronics, devices constructed from thin films of organic semiconductors could be more flexible, irregularly shaped, lighter in weight, and less expensive. Some products of this type, for example, organic solar cells, are produced today in limited quantities via roll-toroll manufacturing and solution-phase processing. However, organic electronic devices tend to remain expensive because some of the manufacturing steps require vacuum processing to control reactions of airsensitive materials. The requirement results from the devices’ need for electrodes with low work function. Work function is a measure of the energy needed to strip an electron away from a solid surface. It must be low enough to facilitate transport of electrons in and out of the various layers from which organic electronic devices are fabricated. Calcium, magnesium, and a variety of metals coated or treated with lithium meet the low-work-function requirement, but they quickly react with ambient oxygen and water. For use as electrodes, these metals must be
processed in specialized equipment and encased in a protective coating. Researchers have devised strategies to sidestep the low-work-function requirement, but many of the proposed solutions also involve specialized deposition procedures or work with just a few materials. The Georgia Tech scientists, led by electrical engineering professor Bernard Kippelen, report what they describe as a “universal” approach to reducing the work function of many types of chemically stable, high-workfunction conductors including metals, transparent metal oxides, conducting polymers, and graphene. The new method is based on coating those materials with a 1- to 10-nm layer of polyethylenimine or ethoxylated polyethyl enimine. Those polymers are inexpensive and air-stable, and they can be handled as dilute solutions in water and various organic solvents. The research team, which also includes Georgia Tech’s Yinhua Zhou and Canek Fuentes-Hernandez, used the method to make test devices, including organic solar cells, organic and metal oxide thin-film transistors, and organic light-emitting diodes. In general, the group reports, the test devices’ performances are comparable to those of devices made with standard low-work-function metal conductors and remained relatively stable in some cases for more than 100 days. Commenting on the study in the same issue of Science, Michael G. Helander, a materials scientist at the University of Toronto, describes the advance as “an appreciable step” toward eliminating costly vacuum deposition procedures but notes that much work remains before low-cost roll-to-roll printing of organic electronics is fully realized.�—MITCH JACOBY CANEK FU EN T ES-HER N AN DEZ
ELECTRODES BY SOLUTION PROCESSING
Organic photovoltaic devices like the one shown can be fabricated by customizing electrode properties with polyethylenimine.
HEALTH Science panel links exposure to nonstick chemical with testicular, kidney cancers A panel of scientists connected with a class-action settlement has found a probable link between exposure to perfluorooctanoic acid (PFOA) and testicular and kidney cancers. The panel did not, however, find sufficient evidence to associate PFOA exposure with 19 other cancers, including prostate, breast, and pancreatic. It also did not find a link between PFOA exposure and type 2 diabetes. PFOA is used in consumer products, including Teflon-coated cookware, fast-food wrappers, and stain-resistant textiles.
The panel was formed in 2005 as part of a settlement between DuPont and residents living near its Washington Works plant in West Virginia. Residents sued DuPont in 2001 for PFOA-contaminated drinking water. The panel’s latest findings, reported on April 16, open the door for residents with testicular or kidney cancer to pursue personal injury and wrongful death claims against DuPont. Under the settlement, DuPont must also now pay up to $235 million for a monitoring program to screen residents near the plant for ear-
WWW.CEN-ONLIN E .ORG
9
AP RI L 2 3, 20 1 2
ly signs of testicular and kidney cancers as well as other diseases that the science panel has linked to PFOA exposure. Last December, the panel linked PFOA exposure to a higher risk of pregnancyinduced hypertension and preeclampsia. DuPont defended its handling of PFOA saying it “will continue to meet its obligations under the West Virginia litigation.” The firm emphasized that it has reduced its PFOA emissions by more than 98% since 2000 and plans to stop making and using PFOA by 2015.�—BRITT ERICKSON
