子分类:
| 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 | Signal active decontamination coating | JP2008529018 | 2006-06-21 | JP2009507999A | 2009-02-26 | キンレン,パトリック・ジェイ; ディン,イーウェイ; バシュキン,ジェイムズ・ケイ; ホウ,シーフィング |
| 信号に応答して汚染物質用の汚染除去剤を生成するコーティングを表面に施すことにより汚染物質による汚染の影響を受けやすい表面を汚染除去し、電気活性コーティングを信号発生源に接続し、表面が汚染されたときに、信号を電気活性コーティングに印加し、それにより汚染物質を中和または破壊する1つまたは複数の汚染除去剤を生成する方法が提示される。 この方法を実施するためのコーティングおよび新規性のあるコーティングにより保護されている物品も、提示される。 | ||||||
| 62 | Steam sterilizing device and sterilizing method using inorganic hydrogen peroxide complex | JP2007251955 | 2007-09-27 | JP2008073534A | 2008-04-03 | JACOBS PAUL T; LIN SZU-MIN; CHEN XIAOLAN |
| <P>PROBLEM TO BE SOLVED: To provide a hydrogen peroxide steam sterilizing method and a device of a medical instrument and a similar device, using hydrogen peroxide steam discharged from an inorganic hydrogen peroxide complex. <P>SOLUTION: The hydrogen peroxide steam can be discharged at the room temperature under atmospheric pressure. However, for easily discharging the hydrogen peroxide steam, its pressure can be set less than 50 torr, and the temperature can be set to the higher temperature than 86. A heating speed can be set to 5 °C/min or more. Plasma can be used together with the steam in case. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 63 | Hydrogen peroxide vapor decontamination method and system reinforced with ozone | JP2006543791 | 2004-07-16 | JP2007518954A | 2007-07-12 | センタンニ、ミヒャエル、エイ |
| 規定された領域を汚染除去する蒸気汚染除去システムである。 システムは領域を規定するチャンバ24と、過酸化水素溶液と水から過酸化水素蒸気を生成する生成器32と、オゾンを導入する装置34とで構成される。 過酸化水素蒸気とオゾンを領域に供給するため閉鎖環状循環システムが設けられる。 破壊装置94は過酸化水素蒸気を分解する。 オゾンを所望の濃度に維持するため、オゾンを導入する装置34を制御する制御装置132とセンサ36が設けられる。
【選択図】図1 |
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| 64 | Active oxygen-generating material | JP2001192376 | 2001-06-26 | JP3903167B2 | 2007-04-11 | 野浪 亨 |
| The present invention provides a new active oxygen generating material and a manufacturing method thereof. The present invention relates to an active oxygen generating agent containing polyaniline compounded or mixed with calcium phosphate that is made by forming a porous calcium phosphate coating on at least part of the surface of polyaniline particles; to a method for manufacturing an active oxygen generating agent component wherein calcium phosphate is precipitated onto the surface of polyaniline by immersing the polyaniline in a pseudo-fluid comprising calcium ions and phosphate ions; to a method for generating active oxygen by bringing a liquid that contains dissolved oxygen in contact with the above-mentioned active oxygen generating agent; and a composition for an environmental clarification. |
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| 65 | Apparatus and process for vapor sterilization using non-aqueous source of hydrogen peroxide | JP2006047106 | 2006-02-23 | JP2006233216A | 2006-09-07 | LIN SZU-MIN; SWANZY JAMES ARCHIE; JACOBS PAUL T |
| <P>PROBLEM TO BE SOLVED: To provide an apparatus and process for hydrogen peroxide vapor sterilization of medical instruments and similar devices making use of hydrogen peroxide vapor released from a substantially non-aqueous organic hydrogen peroxide complex, such as a urea-peroxide complex. <P>SOLUTION: Optionally, a plasma can be used in conjunction with the vapor. A method for preparing substantially non-aqueous hydrogen peroxide complexes is also provided. These complexes are useful as a source of peroxide vapor in hydrogen peroxide vapor sterilizers and as a component of self-sterilizing packaging materials. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 66 | Apparatus for implementing the method and said method for obtaining the gas phase from the liquid medium | JP2004544205 | 2003-10-14 | JP2006502846A | 2006-01-26 | ランゲ デ オリヴェイラ アルミン; クレム エリアス; フォン モルシュタイン オーラフ; マルコヴツ ゲオルク; グロス シュテファン; シルマイスター シュテフェン; アルブレヒト ヨハネス; エールリッヒ ヨハネス; シュッテ リューディガー |
| 液体案内プレートに形成された平行な微細通路を備えていて化学的な反応のためであって、蒸発器としては用いられないモジュール構造の反応器は公知である。 本発明に基づくモジュール構造の下降膜型蒸発器は、一群の互いに平行な微細通路を有するプレート状の蒸発器モジュールと間隙状の蒸発器室とを交互に配置されて成るスタックを含んでおり、この場合に、蒸発器室は上方及び/又は下方をモジュールの全幅にわたって開けられており、スタックは容器内に配置されている。 該下降膜型蒸発器は、液状の媒体から気相を産業規模の量で獲得するプロセスに用いられる。 該下降膜型蒸発器は、非耐熱性の物質を濃縮するため、並びにガス流を迅速に調節可能に形成するために適している。 | ||||||
| 67 | Apparatus for supplying hydrogen peroxide to the process unit of the industrial equipment | JP52605396 | 1996-02-14 | JPH11500996A | 1999-01-26 | レドン、アンリー |
| (57)【要約】 操業濃度で過酸化水素を製造するために、プロセスユニット(12)に取付けられた主装置(14)と、主装置(14)の破損時に、プロセスユニット(12)に供給するバックアップ装置(16)とを備えている装置(10)。 バックアップ装置は、操業濃度よりも高い貯溜濃度の過酸化水素を供給する供給部(18)、及び供給部(18)とプロセスユニット(12)の間に接続され、貯溜された過酸化水素濃度を希釈して、貯溜された過酸化水素の濃度を操業濃度に下げる手段(20)とを具備している。 | ||||||
| 68 | Polymer-hydrogen peroxide complex | JP26351997 | 1997-09-29 | JPH10110103A | 1998-04-28 | BREITENBACH JOERG DR; FUSSNEGGER BERNHARD DR; LANG SIEGFRIED DR; REICH HANS-BERND |
| PROBLEM TO BE SOLVED: To obtain the subject complex capable of releasing hydrogen peroxide from a complex and controlling decomposition of the complex and having wide acting spectrum by carrying out binding among hydrogen peroxide, a polymer suitable for formation of the complex with the hydrogen peroxide and a metal colloid. SOLUTION: This complex contains (A) hydrogen peroxide, (B) a polymer suitable for formation of a complex with the component A and (C) a metal colloid or a metal salt (preferably silver colloid or a silver salt) as main components. A polymer comprising 35-80wt.% N-vinyl lactam and 20-65wt.% comonomer is preferably used as the component B. N-Vinylpiperidone, N- vinylcaprolactam, etc., is preferably used as the N-vinyllactam. N- Vinylheterocyclic compound such as vinylimidazole is preferably used as the comonomer. Furthermore, the complex preferably contains 6-15wt.% component A, 83-94wt.% component B and 0.01-2wt.% component C. | ||||||
| 69 | Method for producing a Jiperukarubon acid complex - monoperoxy carboxylic acid complex and c ▲ under 4 ▼ ~c ▲ under 18 ▼ - hydrogen peroxide complex, c ▲ under 1 ▼ ~c ▲ under 4 ▼ by fluidized bed system | JP51714395 | 1994-12-10 | JPH09506877A | 1997-07-08 | ザナー アクセル; ブライテンバッハ イェルク; グラボフスキー スヴェン |
| (57)【要約】 流動層の内部または外部で水またはカルボン酸中の過酸化水素、C 1 〜C 4 −モノペルカルボン酸、C 4 〜C 18 −ジペルカルボン酸またはこれからなる混合物の溶液を粉末状または予備粒状化したマトリックスに被覆し、同時にまたは引き続き流動層で乾燥することにより流動層方式で過酸化水素錯体、C 1 〜C 4 −モノペルカルボン酸錯体およびC 4 〜C 18 −ジペルカルボン酸錯体を製造する方法において、マトリックスとしてA)N−ビニルカプロラクタムホモポリマー、B)N−ビニルカプロラクタムとコモノマーの重量比20:1〜1:20の、コモノマーとしてN−ビニルピロリドン、N−ビニルイミダゾール、アクリル−またはメタクリルアミドプロピル−3−スルホン酸、アクリルまたはメタクリル酸またはこれからなる混合物を有するN−ビニルカプロラクタムコポリマー、C)N−ビニルピロリドンとコモノマーの重量比20:1〜1:20の、コモノマーとしてN−ビニルイミダゾール、アクリルまたはメタクリル酸またはこれからなる混合物を有するN−ビニルピロリドンコポリマー、D)複素環で3個までのC 1 〜C 4 −アルキル基により置換されていてもよく、C 1 〜C 4 −アルキル基によりN−四級化した形で存在してもよいN−ビニルイミダゾールホモポリマー、E)重量比1:99〜90;10の、単糖類、オリゴ糖、多糖類またはこの誘導体とポリマーA〜Dとの混合物、F)重量比1:99〜90:10の、単糖類、オリゴ糖、澱粉、澱粉分解生成物またはこの誘導体とN−ビニルピロリドンホモポリマーとの混合物、G)重量比1:99〜100:0の、トレハロース、サッカロース、グルコース、α−,β−またはγ−シクロデキストリンまたはこのシクロデキストリンの誘導体またはこれからなる混合物とポリマーA〜DまたはN−ビニルピロリドンホモポリマーとの混合物またはH)C 1 〜C 4 −モノペルカルボン酸錯体およびC 4 〜C 18 −ジペルカルボン酸錯体の場合はN−ビニルピロリドンホモポリマーを使用する。 | ||||||
| 70 | Vapor sterilization device using nonaqueous hydrogen peroxide source and method therefor | JP12556295 | 1995-04-27 | JPH0838583A | 1996-02-13 | SUZUUMIN RIN; JIEEMUZU AACHII SUWANZUI; POORU TEIRAA JIYAKOBUSU |
| PURPOSE: To sterilize using nonaqueous hydrogen peroxide vapor source by positioning nonaqueous hydrogen peroxide vapor source within a container to hold a product to be sterilized and arranging for vapor from the hydrogen peroxide vapor source to come into contact with the product. CONSTITUTION: On a shelf 14 within a chamber 10 a product 12 for sterilization is placed. Nonaqueous hydrogen peroxide source 18 is arranged over a heater 20 within the chamber 10. The heater 20 is controlled by a controller 22. The concentration of the hydrogen peroxide is monitored by a monitor 24. The inside of the chamber 10 can be ventilated through a pump 26. The chamber 10 may be a sterilization chamber, or a container or a room with an atmospheric pressure will do. The hydrogen peroxide source contains nonaqueous organic hydrogen peroxide composition (composition). The composition may be, for example, urea-hydrogen peroxide composition. COPYRIGHT: (C)1996,JPO | ||||||
| 71 | JPH06505765A - | JP50908192 | 1992-03-23 | JPH06505765A | 1994-06-30 | |
| 72 | Peroxide compound containing isotope 17o | JP2364988 | 1988-02-03 | JPS63225501A | 1988-09-20 | JIYANNPIEERU SHIRUMANNU; JIYANNJIYATSUKU BARIYU |
| 73 | POLISHING COMPOSITION, METHOD FOR PRODUCING SAME, AND POLISHING METHOD | US15579844 | 2016-05-06 | US20180355212A1 | 2018-12-13 | Yoshihiro NOJIMA; Mitsuhito TAKAHASHI |
| The present invention is a polishing composition, containing zirconium oxide as abrasive grains, the polishing composition having pH of 11.0 or more and less than 12.5, the zirconium oxide having element concentrations of sodium, magnesium, aluminum, potassium, calcium, titanium, chromium, iron, manganese, nickel, copper, zinc, lead, and cobalt of less than 1 ppm each. There can be provided a polishing composition that enables semiconductor substrates having high flatness not only in the inner circumferential portion but also in the outer circumferential portion with little contamination due to metal impurities to be obtained at high productivity. | ||||||
| 74 | PROCESS FOR PREPARING 3-METHYLCYCLOPENTADECANE-1,5-DIONE | US15578959 | 2016-06-02 | US20180179136A1 | 2018-06-28 | Miriam BRU ROIG; Stefan RÜDENAUER |
| The present invention relates to a process for producing 3-methylcyclopentadecane-1,5-dione of formula (I), which comprises the oxidation of 14-methyl-bicyclo[10.3.0]pentadecen[1 (12)] of formula (II) with an oxidizing agent, where the oxidation is performed by using a mixture of formic acid with H2O2 as sole oxidizing agent in the presence of water and where the amount of H2O2 is at least 1.1 mol H2O2 per mol of the compound of formula (II). | ||||||
| 75 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD | US15688281 | 2017-08-28 | US20180056470A1 | 2018-03-01 | Masayoshi IMAI; Katsuhiko TOKUSHIGE; Suguru OGURA; Katsuhide WATANABE; Junji KUNISAWA; Takeshi IIZUMI; Mitsuru MIYAZAKI |
| A substrate processing apparatus includes a polisher configured to polish a substrate using a polishing liquid, a first cleaner configured to clean the substrate polished by the polisher using sulfuric acid and hydrogen peroxide water, a second cleaner configured to clean the substrate cleaned by the first cleaner using a basic chemical liquid and hydrogen peroxide water, and a drier configured to dry the substrate cleaned by the second cleaner. | ||||||
| 76 | HYDROGEN PEROXIDE COMPOSITIONS FOR THE DELIGNIFICATION OF PLANT MATTER, AND USES THEREOF | US15110277 | 2015-01-09 | US20160326694A1 | 2016-11-10 | Jérôme BLANC; Markus BRANDHORST |
| A system for the delignification of plant matter impregnated with a solution of organic acid selected from acetic acid, formic acid, propionic acid, butanoic acid, or a mixture of said acids, containing said plant matter and a hydrogen peroxide composition including hydrogen peroxide and at least one phosphorus-bearing additive, the phosphorus content in the composition being higher than, or equal to, 40 ppm, expressed in weight of elemental phosphorus in relation to the total weight of the composition, for the delignification of plant matter impregnated with a solution of organic acid, said plant matter being selected from straw and/or wood or a lignocellulosic paste originating from straw and/or wood, the mass ratio of the organic acid solution, expressed in weight of solution, to the plant matter, expressed in weight of dry matter, being between 1.5:1 and 10:1. | ||||||
| 77 | Process for in-situ electrochemical oxidative generation and conversion of organosulfur compounds | US13559864 | 2012-07-27 | US08871951B2 | 2014-10-28 | Emad Naji Al-Shafei |
| Hydrocarbon feedstocks are desulfurized by conversion of organosulfur compounds in a mixture of hydrocarbons into sulfoxides and/or sulfones. The oxidant used to promote oxidation of organosulfur-compounds is electrosynthesized in-situ. | ||||||
| 78 | Aqueous hydrogen peroxide solution, process for its preparation and use thereof | US12593958 | 2008-03-20 | US08558020B2 | 2013-10-15 | Armin T. Liebens; Jean-Pierre Ganhy; Jean-Pierre Catinat; Koen Vermeiren |
| The present invention refers to an aqueous hydrogen peroxide solution having a hydrogen peroxide concentration [H2O2] expressed as % by weight of the solution and an apparent pH of from pHmin to pHmax, such that pHmin=3.45−0.0377×[H2O2], and pHmax=3.76−0.0379×[H2O2]. The present invention also relates to a process for the preparation of said hydrogen peroxide solution and the use of said solution in a process for the epoxidation of olefins. | ||||||
| 79 | HYDROGEN PEROXIDE GAS GENERATOR | US13632311 | 2012-10-01 | US20130084215A1 | 2013-04-04 | Shinji FUKUI; Yasuhiko YOKOI; Jirou OHNISHI; Akifumi IWAMA |
| A hydrogen-peroxide-gas generator includes: an atomizing unit to atomize hydrogen-peroxide solution stored in a storage portion by applying ultrasonic vibration; a heater provided above the atomizing unit, the heater configured to heat and gasify the hydrogen-peroxide solution atomized in the atomizing unit; an internal cylindrical portion, made of metal, whose internal space has the heater arranged therein, the internal cylindrical portion configured to guide upward the hydrogen-peroxide solution atomized in the atomizing unit flowing together with a carrier gas; and an external cylindrical portion, double-pipe constructed, whose internal space has the internal cylindrical portion arranged therein, having a gas-flow path for the carrier gas flowing downward toward the storage portion formed between the external cylindrical portion and the internal cylindrical portion, the carrier gas flowing through the gas-flow path caused to contact the internal cylindrical portion heated by the heater, the heated carrier gas introduced to the storage portion. | ||||||
| 80 | Process for In-Situ Electrochemical Oxidative Generation and Conversion of Organosulfur Compounds | US13559864 | 2012-07-27 | US20130053578A1 | 2013-02-28 | Emad Naji Al-Shafei |
| Hydrocarbon feedstocks are desulfurized by conversion of organosulfur compounds in a mixture of hydrocarbons into sulfoxides and/or sulfones. The oxidant used to promote oxidation of organosulfur-compounds is electrosynthesized in-situ. | ||||||
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