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Nedelcu, Mihaela,Saifullah, Mohammad S. M.,Hasko, David G.,Jang, Arang,Anderson, David,Huck, Wilhelm T. S.,Jones, Geraint A. C.,Welland, Mark E.,Kang, Dae Joon,Steiner, Ullrich WILEY-VCH Verlag 2010 Advanced Functional Materials Vol.20 No.14
<B>Graphic Abstract</B> <P>This computer rendered graphic displays direct writing of sub-10 nm metallic wires of low line-width roughness using an electron beam (shown as a sinusoidal wave), as presented by M. S. M. Saifullah, D. J. Kang, U. Steiner, et al. on page 2317. Sub-10 nm metallic wires of good integrity and low line-width roughness were obtained by reducing electron-beam patterned metal naphthenate lines in a hydrogen-rich atmosphere at 500°C for 1 h. <img src='wiley_img_2010/1616301X-2010-20-14-ADFM201090059-content.gif' alt='wiley_img_2010/1616301X-2010-20-14-ADFM201090059-content'> </P>
Nedelcu, Mihaela,Saifullah, Mohammad S. M.,Hasko, David G.,Jang, Arang,Anderson, David,Huck, Wilhelm T. S.,Jones, Geraint A. C.,Welland, Mark E.,Kang, Dae Joon,Steiner, Ullrich WILEY-VCH Verlag 2010 Advanced Functional Materials Vol.20 No.14
<P>The fabrication of very narrow metal lines by the lift-off technique, especially below sub-10 nm, is challenging due to thinner resist requirements in order to achieve the lithographic resolution. At such small length scales, when the grain size becomes comparable with the line-width, the built-in stress in the metal film can cause a break to occur at a grain boundary. Moreover, the line-width roughness (LWR) from the patterned resist can result in deposited metal lines with a very high LWR, leading to an adverse change in device characteristics. Here a new approach that is not based on the lift-off technique but rather on low temperature hydrogen reduction of electron-beam patterned metal naphthenates is demonstrated. This not only enables the fabrication of sub-10 nm metal lines of good integrity, but also of low LWR, below the limit of 3.2 nm discussed in the International Technology Roadmap for Semiconductors. Using this method, sub-10 nm nickel wires are obtained by reducing patterned nickel naphthenate lines in a hydrogen-rich atmosphere at 500 °C for 1 h. The LWR (i.e., 3 σ<SUB>LWR</SUB>) of these nickel nanolines was found to be 2.9 nm. The technique is general and is likely to be suitable for fabrication of nanostructures of most commonly used metals (and their alloys), such as iron, cobalt, nickel, copper, tungsten, molybdenum, and so on, from their respective metal–organic compounds.</P> <B>Graphic Abstract</B> <P>Sub-10 nm nickel wires of good integrity are obtained by reducing electron-beam-patterned nickel naphthenate lines in a hydrogen-rich atmosphere at 500 °C for 1 h. The line-width roughness (i.e., 3 σ<SUB>LWR</SUB>) of these nickel nanolines is found to be 2.9 nm, which is below the limit of 3.2 nm discussed in the International Technology Roadmap for Semiconductors. <img src='wiley_img_2010/1616301X-2010-20-14-ADFM201000219-content.gif' alt='wiley_img_2010/1616301X-2010-20-14-ADFM201000219-content'> </P>
NES Model Development: Expert System for Nitrogen Fertilizer Applications to Cornfields
김원일,정구복,박노동,Kim, Won-Il,Jung, Goo-Bok,Fermanian, T.W.,Huck, M.G.,Park, Ro-Dong 한국토양비료학회 2001 한국토양비료학회지 Vol.34 No.1
N fertilizer recommendations to optimize with consideration to maximum crop yields, maximum profits, and minimum N losses to ground or runoff water, an advisory system. Nitrogen Expert System (NES), was developed. The system was to estimate the optimal rate of N fertilizer application cornfields in Illinois. NES was constructed using Smart Elements, a knowledge-based system that manages the expertise of human experts. NES was reinforced by addition of the effect of a productivity index (PI), soil organic matter content (SOM), and pre-sidedressing of nitrate concentration (PSNT) to the optimal N fertilizer recommendation. NES contains 49 rules, 1 class, 14 objects, and 2 properties. NES was successfully operated, showing N recommendations with inputs of three soil properties including PI, SOM, and PSNT. NES can reduce N loss to the environment, but adherence to the recommendations may also reduce farmers income. Therefore, NES will be more effective by evaluating both environmental damage assessment and other economic agricultural management parameters and other soil physico-chemical parameters. 일리노이 옥수수 포장에서 질소비료의 적정 시용량 결정에는 작물 수량의 극대화와 더불어 질소 손실의 최소화가 고려 되어야 하는데 이를 위하여 질소 전문가체계(NES)가 개발되었다. NES는 전문가의 지식과 사고의 결정과정을 컴퓨터체계로 전환하는 Smart Element program에 의해 만들어졌다. NES는 현재 일리노이 옥수수포장에서 사용중인 생산성지수 (PI)와 토양중 유기물함량 (SOM) 및 시비전 질산태질소 함량 (PSNT)의 요인을 고려하여 시비수준을 결정하였는데 각각의 수준에 따라 49개의 rule 등을 사용하였다. NES는 시스템상에서 성공적으로 작동되었으며 3개의 토양특성 (PI, SOM, PSNT)를 입력하여 적정 시비량을 결정하였다. NES는 다른 시비량 결정 방법에 비해 환경에 대해 질소의 유입을 현저히 줄일 수 있었으며 모델에 대한 검증이 계속될 것이다. 그러나 이에 따른 수량의 감소를 보여, 질소 비료의 적정 시비량은 수량과 더불어 질소유실에 따른 환경 영향평가와 기타 다른 경제적 또는 토양의 물리화학적 요인이 고려되어야 하며 이 요인을 추가한 NES의 검증 및 개선방향이 모색되어야 할 것이다.
Model Verification of Decision Assisting Nitrogen Expert System NES to Illinois Cornfields
김원일,정구복,김길용,박노동,Kim, Won-Il,Jung, Goo-Bok,Huck, M.G.,Kim, Kil-Yong,Park, Ro-Dong 한국토양비료학회 2001 한국토양비료학회지 Vol.34 No.1
To verify the newly developed decision assisting expert system for nitrogen fertilizer application NES to Illinois cornfields, a couple of N rate studies from Dr. Howard and five Illinois Agricultural Experiment Stations were applied. Four types of recommendations including the current Illinois recommendation, Hoeft recommendation, NES, and maximum economic recommendation were compared with each other for the crop yields, profits, recovery rate, and N losses to cornfields. The N rate of NES recommendation, considering productivity index (PI), soil organic matter content (SOM), and pre-sidedressing nitrate concentration (PSNT) level, was the lowest in comparison to those of other recommendations. However, N recovery rate in NES was generally higher and the resulting N loss was lower than others. But, adherence to the recommendations may also reduce farmers income if environmental expense did not considered. Therefore, NES will be more effective by adding the factors including environmental expense, tillage systems, crop rotation, and other agricultural management parameters. 전보에서 개발한 질소질 비료의 적정시비량 산정을 위한 전문가체계 모델인 NES 를 일리노이주 옥수수 포장에 적용하여 검증하였다. 본 검증에는 Howard 박사와 5개의 일리노이주 농업 시험장에서 수행한 옥수수에 대한 질소질 비료의 시용 결과를 각각 이용하였고, 현행 일리노이주 옥수수 포장의 질소시비 추천량, Hoeft 추천량, 이론적 최대이익산출 추천량 및 NES 추천량 등 각각의 추천기준에 대한 예상수량, 질소회수율 및 질소유실량을 산정 비교하였다. 생산성 지표(PI), 토양 유기물함량(SOM) 및 시비전 질산태질소 함량(PSNT) 등 3개의 토양특성을 고려한 NES의 추천량이 타 추천량에 비해 가장 적었으며, 이에 따른 질소의 회수율도 가장 높았다. 그러나, 수익면에 있어서는 NES 추천량이 이론적 최대이익산출 추천량에 미치지 못했는데, 이는 환경 비용을 고려하지 않은 결과로 생각된다. 따라서 경작 형태나 경운, 환경 비용 등에 따른 질소의 효율성을 고려한 보다 발전된 시비량 모델의 개발이 요구된다.
Bolsen, K.K.,Dalke, B.S.,Sonon, R.N. Jr.,Young, M.A.,Huck, G.L.,Harbers, L.H. Asian Australasian Association of Animal Productio 1997 Animal Bioscience Vol.10 No.4
Six medium-framed steers, fitted with ruminal cannulas, were utilized in a $6{\times}6$ Latin square design with a $3{\times}2$ arrangement of treatments to determine the effects of sorghum hybrid and grain supplementation on nutrient digestibilities and passage rates and ruminal metabolism of silage-based diets fed to growing steers. The diets consisted of three wholes-plant silages (a high grain-containing, grain sorghum and middle-season, moderate grain-containing, and late-season, low grain-containing forage sorghums), each fed with or without 25% rolled grain sorghum. No significant interactions occurred between sorghum hybrid and grain supplementation for the digestion or passage rate criteria measured. Ruminal butyrate concentration was the only fermentation characteristic affected by a hybrid ${\times}$ grain supplementation interaction. The grain sorghum silage diets had the highest DM, OM, and ADF digestibilities; the late-season silage diets, the lowest. Digestibility of NDF tended to be highest (p < 0.10) for the grain sorghum silage, whereas starch digestibility was not affected by sorghum hybrid. Ruminal ammonia, acetate, propionate, butyrate, and total VFA concentrations were highest for the grain sorghum silage diets. Grain supplementation increased DM and OM digestibilities, but had no effect on digestibilities of NDF, ADF, and starch. Ruminal pH was decreased, but total VFA concentration and acetate : propionate ratio were not affected by grain supplementation.