| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 수소 저장 조성물 및 이것의 제조 방법 | KR1020067006906 | 2004-09-30 | KR1020060120033A | 2006-11-24 | 타운센드수잔홀트; 미니어윌리엄폴; 자오지-쳉; 레몬존; 브루어루크나타니알; 리즈쎈비크잡토마스 |
| Disclosed herein is a method for making a combinatorial library comprising disposing on a substrate comprising silicon, graphite, boron, boron carbide, boron nitride, aluminum, germanium, silicon nitride, silicon carbide or silicon boride at least one reactant, wherein the reactants are lithium, magnesium, sodium, potassium, calcium, aluminum or a combination comprising at least one of the foregoing reactants; heat treating the - substrate to create a diffusion multiple having at least two phases; contacting the diffusion multiple with hydrogen; detecting any absorption of hydrogen; and/or detecting any desorption of hydrogen. | ||||||
| 62 | 화학 조성물의 라이브러리 제조 방법 | KR1020020028737 | 2002-05-23 | KR1020020090154A | 2002-11-30 | 보건레오나르드에드워드2세; 린센마이클윌리암 |
| PURPOSE: A method of producing a library of chemical compositions is provided to produce libraries of chemical components in plural individual reaction zones, more effectively and economically. CONSTITUTION: A method for producing a library of chemical compositions(14) comprises steps of providing at least first and second reaction zones(12); admixing at least a first component of a chemical composition and a second component of a chemical composition in each of the reaction zones; and simultaneously subjecting each of the at least first and second reaction zones to a set of reaction conditions to produce a library of chemical compositions. Each of the reaction zones is distinct from and independently manipulated with respect to any other reaction zone. The first and second reaction zones each have associated therewith a plurality of corresponding reaction conditions, and one of the reaction conditions associated with any reaction zone is capable of being modified independently of the corresponding reaction condition associated with any other reaction zone. | ||||||
| 63 | 배합물 어레이 및 그의 용도 | KR1020017012730 | 2000-03-31 | KR1020020021783A | 2002-03-22 | 갈락카토스니콜라스; 랭거로버트에스; 풋남데이비드에이 |
| 건강보호제품, 소비자용제품, 농업용제품, 영양학제품, 수의학제품, 제조산업또는가공산업용제품, 군수품및 연구시약의성분으로서사용되거나이들의제조또는사용에서사용되는물질의하나이상의특성을개선시키기위해바람직하게는나노기술및 마이크로어레이와조합하여높은처리량조합배합기술을사용하는방법이개발되었다. 바람직한용도에서, 약물, 특히작은분자약제의생체이용률및 약동학은선택성또는잠재성을손상시키지않으면서수용액에서의용해도와같은하나이상의물리적특성또는화학적인특성을기준으로많은신규한배합물을제조하여이들배합물을선택함으로써최적화된다. 이러한기술을사용한시스템은원하는목적을위한최적의조성물을신속하고체계적이고저비용으로확인하도록설계된다. 하나의바람직한양태에서, 신규한배합물은승인되거나상업적으로시판되는배합물에대한생물학적동등성을위해제조되고시험된다. 다른양태에서, 배합물은초기에는약동학, 예를들면내장(경구배합물용), 피부(경피용도), 또는점막(코, 구강, 질또는직장배합물용)을통한흡수, 용해도, 세망내피계("RES") 내로의흡수에의한분해또는제거, 물질대사또는제거를위해생체외에서최적화되고이어서생체내에서시험된다. | ||||||
| 64 | 조합 분자빔 에피탁시(COMBE) 장치를 사용한라이브러리의 제조 방법 | KR1020007011552 | 1999-11-05 | KR1020010042805A | 2001-05-25 | 보조빅이반 |
| 본발명은기질의분자빔에피탁시에의한조합변수로서형성되는복합금속산화물의합성및 확인을위한장치및 방법, 그리고그러한합성의결과, 즉, 안정한또는준안정한복합산화물, 다층, 및초격자로이루어진샘플의조합어레이(또는라이브러리)에관한것이다. 열적으로불안정한구조를가지는복합산화물의위치-어드레스가능한조합라이브러리는다중-영역기질및, 기질영역에형성된, 식 (A)x(A)…(A)O(여기서, 원소성분 A의최소한하나가금속이고, x, y가 0을포함하는정수또는분수이고, n=2 내지 20 이다)를가지는열적으로안정한또는준안정한산화물을포함하고, 산화물의화학량론또는구조는한쌍의마주하는측면영역에서한 측면영역과다른측면영역사이에서진행함에따라, 최소한하나의원소성분에서체계적이고알고있는방식으로변한다. 또한원하는성질, 즉, 고온초전도성을가지는복합산화물을확인하기위한라이브러리의사용을개시하고있다. | ||||||
| 65 | 정제 공급원료에 의해 유발된 파울링을 평가하는 공정 | KR1020077013430 | 2005-12-12 | KR1020070086189A | 2007-08-27 | 버틀러그레이엄; 쿠버즈존윌리엄; 그리너폴; 구드니콜라스존; 호지스마이클그레이엄 |
| The fouling caused by a refinery feedstock on one or more refinery processes, said process comprising: (i) providing a plurality of refinery feedstocks and/or a plurality of fractions of one or more refinery feedstocks, (ii) providing an array comprising a plurality of metal samples representative of metallurgy present in a refinery, (iii) contacting each of the plurality of metal samples with one or more of said (iv) refinery feedstocks or fractions under non-static conditions, and determining the fouling of said refinery feedstock or fraction thereof. Preferably, the metal samples are in the form of a microfabricated array and the testing is carried out in parallel using high throughput experimentation. | ||||||
| 66 | 신규한 물질의 조합 합성방법 | KR1019970702637 | 1995-10-18 | KR100407357B1 | 2004-05-31 | 피터지.슐쯔; 치아오동치앙; 아이시골드와셔 |
| Described is a method of screening inorganic materials for catalysis, the method comprising making an array of inorganic materials by delivering a first component of a first inorganic material and a first component of a second inorganic material to first and second regions on a substrate, delivering a second component of the first inorganic material and a second component of the second inorganic material to the first and second regions on the substrate, simultaneously reacting the components to form at least two inorganic materials, and screening the array of inorganic materials in parallel for a chemical property, the chemical property being catalysis. <IMAGE> | ||||||
| 67 | 촉매 시스템 테스트용 반응기 | KR1020037015946 | 2002-06-05 | KR1020040007655A | 2004-01-24 | 올베르트게르하르트; 마트케토르스텐; 쿠메르마티아스; 뤼흘토마스; 로소브스키프랑크 |
| 본 발명은 반응기의 내부 공간에서 서로 평행하게 배열되어 있으며, 단부가 튜브 평판에 용접되어 있는 다수의 촉매 튜브(12)를 보유하고, 또한 반응기의 각 단부에서 캡 공간(4)을 형성하는 캡(3)을 보유하며, 유체 반응 매질(5)이 하나의 캡 공간(4)을 경유하여 촉매 튜브(2) 내로 공급되어 촉매 튜브(2)를 통해 흘러 나머지 다른 하나의 캡 공간(4)을 경유하여 배출되고, 또한 열 교환 매질(6)이 반응기의 한 단부에서 공급되어 촉매 튜브(2) 사이의 중간 공간을 통해 흘러 반응기의 나머지 다른 한 단부에서 배출되는 열 교환 매질 회로를 보유하는, 촉매 시스템을 테스트하기 위한 반응기(1)로서, 상기 촉매 튜브(2)는 서로 열적으로 분리된 2개 이상의 촉매 튜브 영역(7)내에 배열되는 것인 반응기(1)에 관한 것이다. | ||||||
| 68 | 고처리율 분석방법 및 시스템 | KR1020020080542 | 2002-12-17 | KR1020030051354A | 2003-06-25 | 린센미카엘윌리엄; 스크미트에드워드알버트; 스쿠레마크리차드 |
| PURPOSE: Provided are a method and system for analyzing manufactures of catalysts and/or certain properties of catalysts by using a plurality of reaction zones, which perform a plurality of experiments under different reaction conditions rapidly and continuously. CONSTITUTION: The method comprises the steps of: (a) providing a first and a second reaction zone; (b) providing a first reactant and a first catalyst to the first reaction zone; (c) providing a second reactant and a second catalyst to the second reaction zone; (d) applying a set of reaction conditions to one of the reaction zones to produce a reaction product; and (e) analyzing the reaction product to determine one of the following as: at least one physical and chemical properties of the reaction product, performance properties of the reactants and catalysts, one effect of one or more reaction conditions on the physical or chemical properties of the reaction product, on the performance properties of the reactants and on the performance properties of the catalysts. | ||||||
| 69 | 코팅된 재료의 어레이 생성 시스템 및 코팅된 재료의어레이 생성 방법 | KR1020037004133 | 2001-06-14 | KR1020030038760A | 2003-05-16 | 선시아오-동 |
| 높은 처리량 제조 및 코팅된 재료의 어레이 분석에 관한 시스템 및 방법에 관한 것이다. 이 방법은 다수의 사전정의된 영역(22)을 가진 기판(18)의 표면(16)에 다수의 재료(14) 중 적어도 하나를 선택적으로 전달하는 단계를 포함한다. 재료의 선택적 전달에 있어서, 다수의 재료 각각은 기판에 동시에 전달되도록 배치된다. 시스템(10)은 다수의 사전정의된 영역(22)을 갖는 표면(16)을 구비한 기판(18)을 포함하되, 기판을 코팅하기 위해 다수의 재료가 제공된다. 다수의 재료와 연관된 전달 메카니즘(12)은 다수의 재료 각각을 기판의 표면에 동시에 전달하도록 배치된다. 또한, 다수의 재료 각각을 선택적으로 전달하도록 전달 메카니즘을 제어하기 위해 제어기가 사용되어 기판의 다수의 사전정의된 영역 각각이 사전정의된 코팅(30)을 갖는다. | ||||||
| 70 | 조합 화학적 합성 | KR1020027013384 | 2001-04-03 | KR1020030029522A | 2003-04-14 | 비시앙신; 쿠마수짓; 호니크레이크알; 모소로날드제이; 가드너제임스티; 치루볼루시프쿠마; 림승엠 |
| Combinational synthesis methods obtain a plurality of compositions having materially different characteristics using an apparatus having a plurality of collectors. A first quantity of fluid reactants are reacted to form a first quantity of production composition. Following completion of the collection of the first quantity of product composition, a second quantity of fluid reactants are reacted to form a second quantity of product composition materially different from the first quantity of product composition. An apparatus includes a nozzle (130) connected to a reactant source (120) and a plurality of collectors (236). The nozzle and plurality of collectors move relative to each other such that a collector can be selectively placed to receive a fluid stream emanating from the nozzle. The plurality of product compositions can be evaluated to determine their suitability for various applications. | ||||||
| 71 | 촉매의 질량 스펙트럼 스크리닝 | KR1020017009205 | 2000-01-24 | KR1020010093267A | 2001-10-27 | 첸피터; 힌데르링크리스티안 |
| 본발명은촉매사이클중에서촉매작용의생성물, 특히촉매에결합된중간생성물의질량분광분석을사용하여촉매를확인하거나또는개선된촉매를확인하는스크리닝방법을제공한다. 본발명의방법은, 특히촉매작용에대한유기금속화합물의스크리닝에적용할수 있다. 더욱이, 본발명의방법은, 특히중합반응용촉매를스크리닝하는데 적용할수 있다. 보다구체적으로, 본발명의방법은제1 단계의이온화에서형성되어촉매성능과연관되는이온을선택한후, 탠덤질량분광법을이용하여선택된이온과회합된촉매를제2 단계에서확인하는 2 단계(또는 2 단) 질량분광검출방법을이용한다. 구체예에서, 촉매(또는촉매의일부)가생성물에부착되어있어서촉매의실체가생성물분자질량(전형적으로중간생성물)에내재되어있기때문에, 본발명의스크리닝방법은분명한암호화를피한다. | ||||||
| 72 | 촉매 평가용 촉매 라이브러리의 방사선 활성화와 스크리닝및 그 반응장치 | KR1020007003828 | 1998-10-08 | KR1020010031021A | 2001-04-16 | 아트킨스마틴필립; 센칸셀림메흐멧 |
| 주소지정가능한테스트사이트를가지는촉매라이브러리의활동성과선택성을위한신속한스크리닝은주소지정가능한테스트사이트에서생성물플룸을형성하는반응물스트림과테스트사이트에서의포텐셜촉매를접촉시킴으로써성취된다. 생성물플룸은개별적으로주소지정가능한테스트사이트에근접하여본래미소전극수집에의해검출되는특정광이온과광전자의형성을증진시키도록하는에너지레벨의방사선빔을통과시킴으로써성취된다. 생성물플룸은열 대열 단위로스크리닝될수 있거나, 전체촉매라이브러리로부터촉진되는모든생성물플룸이동시에스크리닝될수 있다. 방사선스크리닝을위한적절한반응장치와미소반응장치가개시된다. | ||||||
| 73 | Distillate fuel and / or lubricant base oil range of hydrocarbon Fischer - how to optimize Tropsch synthesis | JP2002514073 | 2001-07-13 | JP4963772B2 | 2012-06-27 | キビー、チャールズ、エル |
| Methods for converting of syngas to higher molecular weight products using Fischer-Tropsch synthesis, and methods for optimizing the catalyst systems in the synthesis, are disclosed. In one embodiment, the methods use cobalt/ruthenium Fischer-Tropsch catalysts in combination with an olefin isomerization catalyst, which isomerizes double bonds in C4+ olefins as they are formed. In another embodiment, the methods use Fischer-Tropsch catalysts that may or may not be cobalt/ruthenium catalysts, in combination with olefin isomerization catalysts which are acidic enough to isomerize the C4+ olefins but not too acidic to cause rapid coking. A benefit of using the relatively less acidic zeolites is that the ratio of iso-paraffins to aromatics is increased relative to when more acidic zeolites are used. Also, the relatively less acidic zeolites do not coke as readily as the relatively more acidic zeolites. The methods can advantageously be optimized using combinatorial chemistry, in which a database of combinations of catalyst systems and, optionally, reaction conditions, which provide various product streams, are generated. As market conditions vary and/or product requirements change, conditions suitable for forming desired products can be identified with little or no downtime. | ||||||
| 74 | The method of testing a plurality of materials for electrochemical use | JP2006500195 | 2004-01-09 | JP4469366B2 | 2010-05-26 | オーエン、ジョン・ロバート; バートレット、フィリップ・ナイジェル; ハイデン、ブライアン・エリオット; ブレース、カレン・マリー; ラッセル、アンドリア・エリザベス |
| 75 | Reactor for testing catalyst systems | JP2003501585 | 2002-06-05 | JP4386719B2 | 2009-12-16 | オルベルト ゲルハルト; マトケ トーステン; リュール トーマス; ロゾフスキー フランク; クマー マティアス |
| 76 | Catalyst research for the test unit in the short contact time reaction between the catalyst and the reagent | JP2003545399 | 2002-11-15 | JP4303114B2 | 2009-07-29 | アベリノ・コルマ・カノス; フランシスコ・ベ・メロ・ファウス; ラウレント・エリェ・ア・サウバナウド |
| 77 | Combined synthesis method of novel material | JP2008278792 | 2008-10-29 | JP2009155633A | 2009-07-16 | SCHULTZ PETER G; XIANG XIAO-DONG; GOLDWASSER ISY; BRICENO GABRIEL; SUN XIAO-DONG; WANG KAI-AN |
| <P>PROBLEM TO BE SOLVED: To provide an apparatus for producing a giant magnetoresistive cobalt compound by combined synthesis. <P>SOLUTION: Components are delivered to predetermined regions on a support body, and the components are simultaneously reacted to form at least two materials. Combined synthesis is thereby carried out by using the support body that prepares an array of different materials. Other materials that can be prepared using these methods are covalent network solids, ionic solids and molecular solids. Examples are inorganic, organometallic, intermetallic, ceramic, organic polymeric and composite materials. Once prepared, these materials can be screened for useful properties, thus providing parallel synthesis and decomposition of novel materials having useful properties such as magnetoresistance. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 78 | Evaluation method of attachment generated by the refinery feed stock | JP2007546170 | 2005-12-12 | JP2008524572A | 2008-07-10 | クーブス,ジョン,ウィリアム; グッディー,ニコラス,ジョン; グリーノ,ポール; バトラー,グレアム; ホッジス,マイケル,グレアム |
| 1又はそれ以上の精製工程における製油所フィードストックによって発生する付着であり、前記方法は(i)複数の製油所フィードストック、及び/又は1若しくは複数の製油所フィードストックの複数の留分を生成し、(ii)製油所内部に存在する冶金の代表的要素である複数の金属サンプルで構成されるアレイを生成し、(iii)複数の金属サンプルの各々と、1若しくはそれ以上の前記製油所フィードストック又は留分とを非静止条件下において接触させ、及び(iv)製油所フィードストック又はその留分の付着を判定することから構成される。 金属サンプルが微細加工アレイの形状であること、また試験がハイスループット実験を用いて同時並行的に実施されることが好ましい。 | ||||||
| 79 | Catalyst performance evaluation apparatus | JP37672398 | 1998-12-25 | JP3959459B2 | 2007-08-15 | 厚 上田; 哲彦 小林; 裕介 山田 |
| 80 | Method and apparatus for detecting the catalytic activity of solid materials | JP51302298 | 1997-09-26 | JP3936745B2 | 2007-06-27 | ヴィントハープ,ノルベルト; ホッペ,ハンス―ウルリヒ; ミクルカ,クリスティアン |
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