WordNet

of an instrument or device; capable of registering minute differences or changes precisely; "almost undetectable with even the most delicate instruments"
easily broken or damaged or destroyed; "a kite too delicate to fly safely"; "fragile porcelain plates"; "fragile old bones"; "a frail craft" (同)fragile, frail
easily hurt; "soft hands"; "a babys delicate skin" (同)soft
difficult to handle; requiring great tact; "delicate negotiations with the big powers";"hesitates to be explicit on so ticklish a matter"; "a touchy subject" (同)ticklish, touchy
exquisitely fine and subtle and pleasing; susceptible to injury; "a delicate violin passage"; "delicate china"; "a delicate flavor"; "the delicate wing of a butterfly"
marked by great skill especially in meticulous technique; "a surgeons delicate touch"

PrepTutorEJDIC

繊細に;微妙に / きゃしゃに / 敏感に
(形状・感触などが)『繊細な』,精巧な,きめの細かい / (におい・色などが)『柔らかい』,うすい / (ガラス器具などが)『壊れやすい』 / (身体が)『か弱い』(frail),きゃしゃな / (門題などの取扱いが)『微妙な』,むずかしい / (技術などが)精密な,高度の;(形器などが)敏感な / (対人的に)神経の細かい

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1. 硬性気管支鏡：挿管手技 rigid bronchoscopy intubation techniques
2. 鉄のバランス調節 regulation of iron balance
3. 急性骨髄性白血病の分類 classification of acute myeloid leukemia
4. スピッツ母斑様色素細胞性腫瘍：スピッツ母斑および異型スピッツ腫瘍：臨床的特徴、診断および管理 spitzoid melanocytic neoplasms spitz nevus and atypical spitz tumors

English Journal

Ultraporous interweaving electrospun microfibers from PCL-PEO binary blends and their inflammatory responses.

Li YF1, Rubert M, Aslan H, Yu Y, Howard KA, Dong M, Besenbacher F, Chen M.Author information 1Interdisciplinary Nanoscience Center (iNANO), Aarhus University, DK-8000 Aarhus C, Denmark. menglin@inano.au.dk.AbstractProduction of one dimensional nanomaterials with secondary morphology exhibiting unique functions is challenging. Here we report for the first time that a nanoscale immiscible polymer blend solution electrojet can assemble into ultraporous interweaving microfibers. This intriguingly novel morphology originated from a blend of polycaprolactone (PCL) and polyethylene oxide (PEO) in a DCM-DMF mixed solution when the ratio between each component reached a threshold and when the electrospinning parameters were delicately controlled. The morphology, crystallinity, surface chemistry and wettabilities were characterized to understand the mechanism of formation. The interplay of the two semi-crystalline polymers and the pair of solvents/non-solvents with the electrospinning processing parameters was found to be critical for the formation of the unique structure. Furthermore, the interesting combination of biocompatible, biodegradable PCL with protein-resistant PEO motivated us to assess its inflammation responses on the RAW 264.7 macrophage cell line. All fibers were found to be biocompatible with low inflammation potential upon incubation, while compared with pure PCL nanofibers; the unique interweaving microfibers induced a slightly higher inflammatory reaction.
Nanoscale.Nanoscale.2014 Mar 21;6(6):3392-402. doi: 10.1039/c3nr06197c. Epub 2014 Feb 14.
Production of one dimensional nanomaterials with secondary morphology exhibiting unique functions is challenging. Here we report for the first time that a nanoscale immiscible polymer blend solution electrojet can assemble into ultraporous interweaving microfibers. This intriguingly novel morphology
PMID 24531205

Single-molecule magnet engineering: building-block approaches.

Pedersen KS1, Bendix J, Clérac R.Author information 1CNRS, CRPP, UPR 8641, F-33600 Pessac, France. clerac@crpp-bordeaux.cnrs.fr.AbstractTailoring the specific magnetic properties of any material relies on the topological control of the constituent metal ion building blocks. Although this general approach does not seem to be easily applied to traditional inorganic bulk magnets, coordination chemistry offers a unique tool to delicately tune, for instance, the properties of molecules that behave as "magnets", the so-called single-molecule magnets (SMMs). Although many interesting SMMs have been prepared by a more or less serendipitous approach, the assembly of predesigned, isolatable molecular entities into higher nuclearity complexes constitutes an elegant and fascinating strategy. This Feature article focuses on the use of building blocks or modules (both terms being used indiscriminately) to direct the structure, and therefore also the magnetic properties, of metal ion complexes exhibiting SMM behaviour.
Chemical communications (Cambridge, England).Chem Commun (Camb).2014 Mar 14. [Epub ahead of print]
Tailoring the specific magnetic properties of any material relies on the topological control of the constituent metal ion building blocks. Although this general approach does not seem to be easily applied to traditional inorganic bulk magnets, coordination chemistry offers a unique tool to delicatel
PMID 24626635

Nanostructured energetic composites: synthesis, ignition/combustion modeling, and applications.

Zhou X1, Torabi M, Lu J, Shen R, Zhang K.Author information 1Department of Mechanical and Biomedical Engineering, City University of Hong Kong , 83 Tat Chee Avenue, Kowloon, Hong Kong.AbstractNanotechnology has stimulated revolutionary advances in many scientific and industrial fields, particularly in energetic materials. Powder mixing is the simplest and most traditional method to prepare nanoenergetic composites, and preliminary findings have shown that these composites perform more effectively than their micro- or macro-sized counterparts in terms of energy release, ignition, and combustion. Powder mixing technology represents only the minimum capability of nanotechnology to boost the development of energetic material research, and it has intrinsic limitations, namely, random distribution of fuel and oxidizer particles, inevitable fuel pre-oxidation, and non-intimate contact between reactants. As an alternative, nanostructured energetic composites can be prepared through a delicately designed process. These composites outperform powder-mixed nanocomposites in numerous ways; therefore, we comprehensively discuss the preparation strategies adopted for nanostructured energetic composites and the research achievements thus far in this review. The latest ignition and reaction models are briefly introduced. Finally, the broad promising applications of nanostructured energetic composites are highlighted.
ACS applied materials & interfaces.ACS Appl Mater Interfaces.2014 Mar 12;6(5):3058-74. doi: 10.1021/am4058138. Epub 2014 Feb 28.
Nanotechnology has stimulated revolutionary advances in many scientific and industrial fields, particularly in energetic materials. Powder mixing is the simplest and most traditional method to prepare nanoenergetic composites, and preliminary findings have shown that these composites perform more ef
PMID 24552204

Japanese Journal

A case of intracystic apocrine papillary tumor: Diagnostic pitfalls for malignancy

Hayashi Hiroko,Ohtani Hiroshi,Yamaguchi Junzo,Shimokawa Isao
Pathology - Research and Practice 209(12), 808-811, 2013-12
… Although the dense proliferation of apocrine cells mimicked a cribriform pattern, detailed examination identified a delicately intermingled interstitium in the cribriform-like growth area in the present case. …
NAID 120005398104

日本十進分類法を用いた類似読者発見手法

常川真央,松村敦,宇陀則彦
情報メディア研究 12(1), 42-51, 2013
近年，ウェブ上で読書状況を公開し，他人と感想などを伝え合う読書支援ウェブサービスが盛んになっている．読書支援ウェブサービスでは，読者同士のコミュニケーションを支援するために，興味が類似したユーザとの出会いを支援する機能が不可欠である．そこで本研究では，類似の読書傾向を持つ読者を発見する手法として"NDC ツリープロファイリング"を提案する．NDC ツリープロファイリングは，日本十進分類法 (NDC …
NAID 130003383551

携帯端末向けFocus+Glue+Contextマップにおけるブリック入力を用いたマップ操作方式の実現(情報検出と提示,ビッグデータとソーシャルコンピューティング,及び一般)

細井純太,山本大介,高橋直久
電子情報通信学会技術研究報告. DE, データ工学 112(346), 125-130, 2012-12-05
Focus+Glue+Contextマップにおいて,ブリック入力によって,Focus,Glue,Context領域を操作する機能を提案し,その実現方法について述べる.この機能により,携帯端末のような小さな画面におけるタッチ操作でも,各領域の縮尺や大きさを微妙に変化させることが容易になる.また,提案する機能を実装したAndroid端末用マップシステムのプロトタイプについて述べる.
NAID 110009667183

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