Thermal atomic layer deposition (ALD) of metal has generally been achieved at high temperatures of around 300°C or at relatively low temperatures with highly reactive counter reactants, including plasma radicals and O 3 , which can induce severe damage to substrates. Here, the growth of metallic Pt layers by ALD at a low temperature of 80°C is achieved by using [(1,2,5,6-η)-1,5-hexadiene]-dimethyl-platinum(II) (HDMP) and O 2 as the Pt precursor and counter reactant, respectively. ALD results in the successful growth of continuous Pt layers at the low temperature without any reactive reactants owing to the low activation energy of the HDMP precursor for surface reactions. Because of the high reactivity of the precursor, the growth of a pure Pt layer is achieved on various thermally weak substrates, leading to the fabrication of high-performance conductive cotton fibers by ALD. A capacitive-type textile pressure sensor is successfully demonstrated by stacking elastomeric rubber-coated conductive cotton fibers perpendicularly and integrating them onto a fabric with a 7 × 8 array configuration to identify the features of the applied pressure, which can be effectively utilized as a new platform for future wearable and textile electronics. INTRODUCTIONAtomic layer deposition (ALD) has widely attracted considerable interest for various high technologies, such as semiconductor devices and display devices, 1-3 because of its superb ability to deposit ultrathin films with excellent controllability and conformality even on complex three-dimensional (3D) structures. 1-8 Based on these superior properties, ALD has been intensively studied for several applications. In particular, textile electronics using the ALD is one of the promising fields since several materials can be readily deposited at temperatures lower than 150°C by ALD, leading to the effective functionalization of thermally fragile substrates such as plastics, cellulose papers and polymeric textiles. [9][10][11][12] Chen et al. 13 demonstrated hydrophobic silk fabrics with a high laundering durability and robustness due to a TiO 2 coating deposited by ALD. However, in the case of metal ALD, since temperatures as high as 300°C are generally required to achieve successful deposition with the thermal energy of the precursor reactions, it is difficult to deposit conformal metal films onto thermally weak substrates using ALD, causing difficulties in a wide range of applications, including textile electronics. 14,15 To ensure successful metal ALD at low temperatures, ALD in which the
Nonsteroidal anti-inflammatory drugs (NSAIDs) are known to induce apoptosis in a variety of cancer cells, including colon, prostate, breast and leukemia. Among them, aspirin, a classical NSAID, shows promise in cancer therapy in certain types of cancers. We hypothesized that aspirin might affect the growth of liver cancer cells since liver is the principal site for aspirin metabolism. Therefore, we investigated the effects of aspirin on the HepG2 human hepatocellular carcinoma cell line in vitro and the HepG2 cell xenograft model in BALB/c nude mice. We found that treatment with aspirin inhibited cell growth and induced apoptosis involving both extrinsic and intrinsic pathways as measured by DNA ladder formation, alteration in the Bax/Bcl-2 ratio, activation of the caspase activities and related protein expressions. In vivo antitumor activity assay also showed that aspirin resulted in significant tumor growth inhibition compared to the control. Oral administration of aspirin (100 mg/kg/day) caused a significant reduction in the growth of HepG2 tumors in nude mice. These findings suggest that aspirin may be used as a promising anticancer agent against liver cancer.
Cobalt thin films were deposited by plasma-enhanced atomic layer deposition (PE-ALD) using CoCp 2 as a precursor and N 2 /H 2 plasma as a reactant. We systematically investigated the changes in Co film properties depending on N 2 /H 2 gas flow ratio to study the role of N during PE-ALD Co. With increasing N 2 flow ratio, the resistivity decreased reaching minimum value at f N2/H2 = 0.25 ∼ 0.33, which corresponds to the atomic ratio in NH 3 molecule, and then increased. With only N 2 or H 2 plasma, films with very high sheet resistance over 1 M/sq were deposited. The chemical compositions of Co films were analyzed by x-ray photoelectron spectroscopy (XPS) and thickness and conformality were determined by x-ray reflectometry (XRR) and field emission scanning electron microscopy (FE-SEM), respectively. Then, the silicidation of PE-ALD Co films producing epitaxial CoSi 2 were investigated by x-ray diffraction (XRD) and high-resolution cross-sectional transmission electron microscopy (HR-XTEM).
There is a need to destroy both military and civilian hazardous waste and an urgency, mandated by public concern over traditional waste handling methodologies, to identify safe and efficient alternative technologies. One very effective process for the destruction of such waste is supercritical water oxidation (SCWO). By capitalizing on the properties of water above its critical point (374 °C and 22.4 MPa for pure water), this technology provides rapid and complete oxidation with high destruction efficiencies at typical operating temperatures. Nevertheless, corrosion of the materials of fabrication is a serious concern. While Ni and Ni-based alloys are generally considered important for severe service applications, results from laboratory and pilot-scale SCWO systems presently in operation indicate that they will not withstand some aggressive feeds. Significant weight loss and localized effects, including stress corrosion cracking and dealloying, are seen in some environments. Although exotic liners such as platinum are currently promoted as a solution to aggressive conditions, some evidence suggests the potential for corrosion control by judicious feed modification. Various alloys were exposed in a SCWO system at 600 °C for 66.2 h. After exposure, samples were coated with a thick outer salt layer and an inner oxide layer. It is considered likely that, at the high supercritical temperature employed during this test, the salt was molten and contained a substantial quantity of gas. The inner oxide layer revealed the presence of numerous defects and a thickness that is proportional to the corrosion rate determined by mass loss, suggesting the oxide layer is nonprotective. Of the alloys tested, G-30 exhibited the highest corrosion resistance. Experiments in which a C-276 tube was instrumented with thermocouples and exposed to a HCl feed indicate for this simple non-salt-forming influent that there is a strong correlation between temperature and the extent and form of corrosion, with the most pronounced degradation being at high subcritical temperatures. These experiments corroborate previous results from a failure analysis for C-276, suggesting a corrosion maximum in the subcritical region.
Purpose To explore the need for pharmaceutical care services, key features of desirable pharmacy services, and perceived barriers for advancing the services in hospital environments with doctors and nurses who are key co-workers of the interdisciplinary team care services.Methods Semi-structured, in-depth interviews with eighteen doctors and fifteen nurses employing purposive and snowballing sampling strategies were conducted in ten hospitals in South Korea. Results The level of pharmaceutical care was varied across regions or institutions in South Korea. The concept of pharmaceutical care was insufficiently defined, and tended to be limited to some parts of medication counseling. Through pharmaceutical care services, doctors desired to acquire comprehensive drug information from and to share clinical responsibilities with pharmacists. Nurses wished to lower their burdens of medication counseling services from their daily practices. Doctors and nurses asked for pharmacists providing essential and carefully selected medication information to their patients in a patient-centered manner. The listed barriers to pharmaceutical care included the lack of appropriate systems for reward, insufficient accessibility to patient records by pharmacists, ambiguous role descriptions of pharmacist, and absence of effective communication among professionals. Conclusion A successful pharmaceutical care service model should allow efficient exchange of information among healthcare professionals to build inter-professional trust and to provide a continuity of care both in terms of time and setting. As prerequisites of such system, it was warranted to develop clinical evidence and an appropriate reward system for pharmaceutical care services.
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