http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
MOORE, ROBERT E. 한국국제경제학회 1990 International Economic Journal Vol.4 No.1
This paper provides an empirical test of the hypothesis that the Japanese government has undertaken a successful strategic trade policy in the semiconductor industry. Quantifiable R & D and tariff policy as they relate to the semiconductor industry and their impact on firms in the US "merchant" semiconductor market are considered. The test results do not support the hypothesis as it applies to government R & D expenditures and tariffs. These Japanese government policies have not had a significant adverse impact on the profits of three important US semiconductor producing firms.
Rebranding Belfast: Chromatopes of (Post-)Conflict
Robert Moore 한국외국어대학교 HK 세미오시스 연구센터 2016 Signs and Society Vol.4 No.-
In 2007, Belfast City Council contracted with a London-based branding consultancy to develop a new brand identity for the city. The result was a new logo (a heart-shaped letter B), a bespoke typeface, and a set of brand guidelines designed to reflect “Belfast’s coming of age, the turning of a new page and the new shared enthusiasm which is palpable to all those who experience the city.” A key element of the rebranding was an official palette of sixteen colors to be deployed in association with the logo. Nonprimary hues with low saturation predominate in the new color scheme, which is overlaid upon a complex preexisting system of vivid sectarian color contrasts that mark, among other things, the partitioning of space in a “divided city.” Drawing on recent work in the semiotic anthropology of branding, the article shows that the rebranding of Belfast is part of a larger effort to frame recent histories of ethno-sectarian conflict in terms of “cultural” diversity.
Multilayered Polymer-Coated Carbon Nanotubes To Deliver Dasatinib
Moore, Thomas L.,Grimes, Stuart W.,Lewis, Robert L.,Alexis, Frank American Chemical Society 2014 MOLECULAR PHARMACEUTICS Vol.11 No.1
<P>Multilayered, multifunctional polymer coatings were grafted onto carbon nanotubes (CNTs) using a one-pot, ring-opening polymerization in order to control the release kinetic and therapeutic efficacy of dasatinib. Biocompatible, biodegradable multilayered coatings composed of poly(glycolide) (PGA) and poly(lactide) (PLA) were polymerized directly onto hydroxyl-functionalized CNT surfaces. Sequential addition of monomers into the reaction vessel enabled multilayered coatings of PLA-PGA or PGA-PLA. Poly(ethylene glycol) capped the polymer chain ends, resulting in a multifunctional amphiphilic coating. Multilayer polymer coatings on CNTs enabled control of the anticancer drug dasatinib’s release kinetics and enhanced the in vitro therapeutic efficacy against U-87 glioblastoma compared to monolayer polymer coatings.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/mpohbp/2014/mpohbp.2014.11.issue-1/mp400448w/production/images/medium/mp-2013-00448w_0009.gif'></P>
Proximity field nanopatterning of azopolymer thin films
Lambeth, Robert H,Park, Junyong,Liao, Hongwei,Shir, Daniel J,Jeon, Seokwoo,Rogers, John A,Moore, Jeffrey S IOP Pub 2010 Nanotechnology Vol.21 No.16
<P>A method for inscribing surface relief gratings in azopolymer thin films via proximity field nanopatterning is reported. Azopolymers prepared by ring opening metathesis polymerization were cast as thin films and brought into conformal contact with transparent polydimethylsiloxane phase masks. Irradiation of the film surface through the phase masks induces mass transport of azopolymer that generates surface relief structures on the basis of the intensity modulation of the light by structures on the phase mask. The experimental images obtained matched well with those produced by optical simulation. A wide variety of structures could be inscribed in the film surface which depended on the molecular weight of the azopolymer and irradiation time. Control experiments conducted suggest that the process is entirely photonic and that the presence of the phase mask on the film surface did not affect the inscription process. </P>