触杀剂相关的专利数据

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
81	Fluid receiving receptacle comprising biocide delivery system contacting outside of receptacle	US503017	1990-04-02	US5104390A	1992-04-14	Su I. Yum; Felix Theeuwes
A patient-care apparatus comprising a container for receiving a biological fluid, and a delivery device on the outside of the container, which device comprises a biocide that is released to the container for preventing the multiplication of and/or eliminating the presence of unwanted pathogens in the container.
82	Biocidal composition and method for treating water or surfaces in contact with water	US14774888	2014-03-13	US09420784B2	2016-08-23	Antoine Vanlaer; Jean Guezennec; Francois Ghillebaert
The present invention relates to a biocidal composition including at least one active biocidal compound and at least one nonionic or anionic exopolysaccharide (EPS), the active biocidal compound being selected from at least one triamine having the following formula I, R1NR2R3, formula I where R1 is an aminoalkyl radical comprising a straight or branched chain having 2 to 16 carbon atoms, R2 is a hydrogen atom or a straight or branched alkyl chain having 1 to 18 carbon atoms, and R3 is, independently from R1, an aminoalkyl radical comprising a straight or branched chain having 2 to 16 carbon atoms or a —CH2—CH2—CH2—NH—R4 radical, where R4 is a saturated or unsaturated fatty acid chain including 4 to 20 carbon atoms or a mixture of C4-C20 alkyl chains, characterized in that the biocidal composition includes, by weight and relative to the total weight of said biocidal composition, 0.5 to 90% of the biocidal compound and 0.1 to 10% of the exopolysaccharide.
83	Salicide field effect transistors with improved borderless contact structures and a method of fabrication	US10084082	2002-02-27	US06710413B2	2004-03-23	Kong-Beng Thei; Ming-Ta Lei; Shou-Gwo Wuu
An improved borderless contact structure for salicide field effect transistors (FETs) has been achieved. Salicide FETs are formed on device areas surrounded by a shallow trench isolation (STI) using a first rapid thermal anneal to form a metal silicide on the source/drain contacts and the gate electrodes. An interlevel dielectric (ILD) layer is deposited, and borderless contact openings, extending over the STI, are etched in the ILD to the source/drain areas. When the contact openings are etched, this results in over-etched regions in the STI at the source/drain-STI interface that result in source/drain-to-substrate shorts when metal plugs are formed in the contact openings. A contact opening implant is used to dope the junction profile in the source/drain contact around the STI over-etched region to prevent electrical shorts. The second RTA is then used to concurrently reduce the silicide sheet resistance and to electrically activate the contact opening implanted dopant.
84	Salicide field effect transistors with improved borderless contact structures and a method of fabrication	US09498981	2000-02-07	US06335249B1	2002-01-01	Kong-Beng Thei; Ming-Ta Lei; Shou-Gwo Wuu
A process for making improved borderless contact structure to salicide field effect transistors (FETs) has been achieved. Salicide FETs are formed on device areas surrounded by a shallow trench isolation (STI) using a first rapid thermal anneal (RTA-1) to form a metal silicide on the source/drain contacts and the gate electrodes, and a second rapid thermal anneal (RTA-2) is delayed until after forming a borderless contact opening structures to the source/drain areas of the FETs. An etch stop (Si3N4) layer and an interlevel dielectric (ILD) layer is deposited, and borderless contact openings, extending over the STI, are etched in the ILD and etch stop layers to the source/drain areas. The contact openings across the substrate must be over-etched to insure that all contacts are open. This results in over-etched region in the STI at the source/drain-STI interface that result in source/drain-to-substrate shorts when metal plugs are formed in the contact openings.
85	Salicide field effect transistors with improved borderless contact structures and a method of fabrication	US10084082	2002-02-27	US20020137295A1	2002-09-26	Kong-Beng Thei; Ming-Ta Lei; Shou-Gwo Wuu
A process for making improved borderless contact structure to salicide field effect transistors (FETs) has been achieved. Salicide FETs are formed on device areas surrounded by a shallow trench isolation (STI) using a first rapid thermal anneal (RTA-1) to form a metal silicide on the source/drain contacts and the gate electrodes, and a second rapid thermal anneal (RTA-2) is delayed until after forming a borderless contact opening structures to the source/drain areas of the FETs. An etch stop (Si3N4) layer and an interlevel dielectric (ILD) layer is deposited, and borderless contact openings, extending over the STI, are etched in the ILD and etch stop layers to the source/drain areas. The contact openings across the substrate must be overetched to insure that all contacts are open. This results in over-etched region in the STI at the source/drain-STI interface that result in source/drain-to-substrate shorts when metal plugs are formed in the contact openings. This invention uses a contact opening implant to dope and modified the junction profile in the source/drain contact around the STI over etched region to prevent electrical shorts. The second RTA (RTA-2) is then used to concurrently reduce the silicide sheet resistance and to electrically activate the contact opening implanted dopant. Metal plugs can now be formed without causing shorts.
86	VACCINATION WITH KILLED BUT METABOLICALLY ACTIVE (KBMA) PROTOZOANS WITH TOLL-LIKE RECEPTOR AGONISTS	PCT/US2008/071802	2008-07-31	WO2009018465A1	2009-02-05	CRAFT, Noah, A.; BRUHN, Kevin, W.; BIRNBAUM, Ron, A.
This invention provides compositions for inducing an immune response in a vertebrate host against a protozoan parasite. In certain embodiments the composition comprises a protozoan parasite comprising a psoralen-modified DNA, whereby said protozoan parasite is killed but metabolically active (KBMA); and optionally a Toll-like receptor agonist.
87	Bactericidal composition for disinfecting a contact lens or other similar products in an aqueous medium	EP84111380.6	1984-09-24	EP0175801B1	1992-05-20	Kessler, Jack, Dr.; Rosenbaum, Robert S., Dr.

88	포식성 응애 및 진균 감소제와 접촉된 고정화된 먹이를 포함하는 응애 조성물 및 상기 조성물의 사용과 관련된 방법 및 용도	KR1020147021658	2012-10-23	KR1020140113709A	2014-09-24	볼크만스,카렐,조제프,플로렌트; 반하우텐,이본,마리아; 반바알,아델마르,엠마뉴엘; 티머,라드바우트; 모렐,다미엔마르크
본 발명은 일반적으로 포식성 응애의 사용에 의한 생물학적 작물 보호의 분야에 관한 것이다. 보다 특히, 본 발명은 포식성 응애 및 먹이를 포함하는 응애 조성물에 관한 것이다. 그러한 응애 조성물은 포식성 응애를 사육하기 위해 및/또는 포식성 응애를 사용한 작물 보호를 위해 적합하다. 조성물 내의 먹이는 적어도 하나의 아스티그마티드( Astigmatid ) 응애 종의 개체를 포함하며, 여기서 적어도 아스티그마티드 개체의 일부는 고정화된다. 조성물은 고정화된 아스티그마티드 개체가 진균 감소제와 접촉되는 것을 특징으로 한다.
89	VACCINATION WITH KILLED BUT METABOLICALLY ACTIVE (KBMA) PROTOZOANS WITH TOLL-LIKE RECEPTOR AGONISTS	US12671184	2008-07-31	US20100310606A1	2010-12-09	Noah A. Craft; Kevin W. Bruhn; Ron A. Birnbaum
This invention provides compositions for inducing an immune response in a vertebrate host against a protozoan parasite. In certain embodiments the composition comprises a protozoan parasite comprising a psoralen-modified DNA, whereby said protozoan parasite is killed but metabolically active (KBMA); and optionally a Toll-like receptor agonist.
90	奈米光觸媒劑(TIO2)與捕蟲燈之紫外線結合應用於殺菌、消毒及捕蟲之方法	TW092125121	2003-09-10	TW200509789A	2005-03-16	王文
一種奈米光觸媒劑(TiO2)與捕蟲燈之紫外線結合應用於殺菌、消毒及捕蟲之方法，其主要係將奈米光觸媒劑(TiO2)噴覆於捕蟲燈主體之外殼及護欄上，利用捕蟲燈原有燈具點亮時，其燈光具特殊波長之紫外線之照射，而激發周圍空氣中之水蒸氣分子產生初生態氧及氫氧自由基，此初生態氧及氫氧自由基即能周空氣中之細菌與病毒消滅，達到兼備殺菌、消毒及捕捉有害昆蟲之效果者。
91	Controlling soil nematodes by contact with non-phytotoxic nematocidal amounts of certain n-aryl thioureas	US56740866	1966-07-25	US3365360A	1968-01-23	TAYLOR HAROLD M

92	Effects of bactericide (peracetic acid-hydrogen peroxide-water combination) to agricultural chemicals in bacteria control when they are in contact with one another	US09690781	2000-10-17	US06716457B1	2004-04-06	Karen L. Eagles; Donald W. Edson; Kevin Park; John G. Rogers; John W. Brandriff; Stephen C. Slahck
The present invention relates to a process for inhibiting or eliminating the growth of microorganisms in pesticide suspensions. More particularly, the process of the present invention includes the addition of a combination of peracetic acid, hydrogen peroxide, and water to the pesticide suspension. Further, the process of the present invention includes the application of the peracetic acid, hydrogen peroxide, and water combination to the interior surface of the vessel in which the pesticide suspension is contained. Still further, the process of the present invention includes the application of the peracetic acid, hydrogen peroxide, and water combination to a surface in which the pesticide suspension is in contact.
93	EFFECTS OF BACTERICIDE (PERACETIC ACID-HYDROGEN PEROXIDE-WATER COMBINATION) TO AGRICULTURAL CHEMICALS IN BACTERIA CONTROL WHEN THEY ARE IN CONTACT WITH ONE ANOTHER	PCT/US2001/032272	2001-10-16	WO02032228A2	2002-04-25
The present invention relates to a process for inhibiting or eliminating the growth of microorganisms in pesticide suspensions. More particularly, the process of the present invention includes the addition of a combination of peracetic acid, hydrogen peroxide, and water to the pesticide suspension. Further, the process of the present invention includes the application of the peracetic acid, hydrogen peroxide, and water combination to the interior surface of the vessel in which the pesticide suspension is contained. Still further, the process of the present invention includes the application of the peracetic acid, hydrogen peroxide, and water combination to a surface in which the pesticide suspension is in contact.
94	태양 전지의 금속 접점용 씨앗층을 형성하는 광-유도 갈바닉 펄스 증착 방법, 상기 씨앗층 또는 상기 금속 접점의 연속 강화방법 및 상기 방법을 실행하기 위한 장치	KR1020127013037	2010-10-22	KR1020120110101A	2012-10-09	래드키,발렌틴; 베이,노르베르트; 알레만,모니카
본 발명은 광-유도 갈바닉 펄스 증착 방법(light-induced galvanic pulse deposition method)을 기술하며, 제1 금속 접점 및 보조 전극 사이의 전위차는 미리 정의된 전압-시간 특성에 따른 시간의 함수로서 변하며 태양 전지로 조사되는 빛 방사선은 빛 방사선-시간 특성에 따라 변한다.
95	Toilet seat with local cleaning function, floor washer, cooling tower, air washing system, wastewater treatment system, contact lens washer, shower device, dialyzer, medical instrument washing apparatus, affusion and sprinkling system for agricultural use, bactericidal mask, dish washer, washing/sterilizing device for meat or the like, washing system, defecation device deodorization system, food sterilizing/cleaning system, and bathroom/pool bactericidal system	JP2010277471	2010-12-13	JP2011136333A	2011-07-14	ARAI MASAAKI
<P>PROBLEM TO BE SOLVED: To provide an application invention suitable for an electrolytic water production device which can efficiently produce weakly acidic/weakly alkaline electrolytic water. <P>SOLUTION: The electrolytic water production device 10 includes: an anode chamber 20 provided with an anode electrode 22; a cathode chamber 30 provided with a cathode electrode 32; an intermediate chamber 40 provided between the anode chamber 20 and the cathode chamber 30 and storing an aqueous electrolyte solution; an anion exchange membrane 24 separating the anode chamber 20 and the intermediate chamber 40; and a cation exchange membrane 34 separating the cathode chamber 30 and the intermediate chamber 40. The anode chamber 20 and the cathode chamber 30 are communicated with a communication hole 52 provided at a diaphragm 50. The electrolytic water production device 10 is preferably applied to an apparatus requiring bacteria elimination such as a water purifier. <P>COPYRIGHT: (C)2011,JPO&INPIT
96	一种增效多杀霉素悬浮剂	PCT/CN2021/123969	2021-10-15	WO2023056660A1	2023-04-13	唐兴敏; 刘立拴; 崔晓红; 贾成国
提供一种增效多杀霉素悬浮剂，属于农药悬浮剂技术领域，所述悬浮剂的活性成分包括多杀霉素和增效剂，所述多杀霉素和增效剂的总质量为悬浮剂总质量的 5～25％。采用全氟烷基聚氧乙烯醚与多杀霉素复配，能够有效提高多杀霉素防治刺吸式害虫梨木虱的作用效果，增强渗透性，可快速破解梨木虱分泌的粘液，能够使药液充分接触虫体，起到快速溶解、快速杀虫的作用，提高了药剂的速效性；多杀霉素及其制剂在光照条件下易分解，全氟烷基聚氧乙烯醚与多杀霉素复配制备成悬浮剂，能够起到抗光解的作用，提高了药剂稳定性，延长了药剂使用的持效期
97	触杀型杀虫软膏	CN02117760.0	2002-05-16	CN1457637A	2003-11-26	李晔; 李超; 张海军
本发明涉及一种杀灭有害生物的药品剂型及杀虫方法，具体的说是一种专门杀灭蟑螂、蚂蚁等爬行类有害生物的杀虫剂型及杀虫方法。本发明的触杀型杀虫软膏成份为氨基甲酸酯或菊酯类杀虫剂，助剂为凡士林或石蜡或工业黄油或食用黄油。本发明的触杀型杀虫软膏在常温下暴露在空气中能保持膏体的湿润、不干涸，将本发明的触杀型杀虫软膏对有害生物爬行路径予以封闭性涂抹，药效滞留持久。蟑螂、蚂蚁等爬行类有害生物以任何方式触及本发明的触杀型杀虫软膏后均触膏死亡。本发明的触杀型杀虫软膏是一种杀灭有害生物的新剂型。
98	衣物处理剂盒及衣物处理设备	PCT/CN2022/126659	2022-10-21	WO2023082968A1	2023-05-19	赵志强; 许升; 吕佩师
提供一种衣物处理剂盒及衣物处理设备，衣物处理剂盒包括衣物处理剂盒本体（1），衣物处理剂盒本体（1）内部设置有第一腔室（11），第一腔室（11）内部固定设置有消毒杀菌装置（111），第一腔室(11)内还设置有第一水流通道（112），消毒杀菌装置（111）包括壳体（1111），壳体（1111）上还设置有使水流与消毒杀菌装置（111）中的药剂（1112）接触的缓释交换孔（11111）。该衣物处理剂盒在满足对衣物及衣物处理设备起到消毒杀菌效果的同时，使得药剂能够缓慢溶解至洗涤水中，从而延长消毒杀菌装置的使用寿命。解决了现有的衣物处理剂盒所存在的无法通过在洗涤水从衣物处理剂盒流向衣物处理设备的过程中实现对衣物处理设备内部消毒杀菌的问题。
99	一种预防禽流感的杀菌消毒剂及其制备方法	CN201911040254.5	2019-10-29	CN110754482A	2020-02-07	韦良; 李胜; 杜国健
本发明公开了一种预防禽流感的杀菌消毒剂，包括复合酚菌毒敌杀菌消毒剂、四级铵盐杀菌消毒剂、纳米TiO2光触媒杀菌消毒剂，按质量配比组成：复合酚菌毒敌杀菌消毒剂10％-20％、四级铵盐杀菌消毒剂20％-30％、纳米TiO2光触媒杀菌消毒剂50％-70％；本发明的复合酚菌毒敌杀菌消毒剂制备设备简单，工艺要求低方便日常配比使用抑菌，杀菌，杀灭病毒等多种细菌，起到很好的灭杀效果；四级铵盐杀菌消毒剂制备成本低廉，在生产过程中对环境污染小；纳米TiO2光触媒杀菌消毒剂能够降解有机污染物，化学性质稳定，无二次污染，且对人体无毒，成本低，所以广泛应用于污水治理、空气净化，杀菌消毒光催化剂中TiO2的化学性质稳定、较强的氧化还原和抗光阴极腐蚀性、成本低，方便规模化生产。
100	熏烟杀虫剂及其熏烟方法	CN87107278	1987-12-07	CN87107278A	1988-11-09	胜田纯郎
本发明涉及熏烟杀虫剂及其熏烟方法。本发明的熏烟杀虫剂，其特征在于将含有二氯苯醚菊酯、抗氧化剂和有机发泡剂的熏烟剂装入用缓燃性材料制成的点火具接触时只在其接触部分开孔的树脂膜制成的袋子中，而其熏烟方法的特征在于将上述熏烟杀虫剂放入一容器中，用缓燃性材料制成的点火具接触该杀虫剂。本发明的熏烟杀虫剂具有高经时稳定性和杀虫成分的有效挥散率，而且其熏烟方法简单而又安全。

1 2 3 4 5 6 7 8 9 10

IPRDB

热门服务

关于我们

友情链接

联系方式