会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
首页 / 专利分类库 / 染料;涂料;抛光剂;天然树脂;黏合剂;其他类目不包含的组合物;其他类目不包含的材料的应用 / 有机染料或用于制造染料的有关化合物;媒染剂;色淀(发酵或用酶的方法合成的目标化合物入C12P) / 蒽环与1个或多个碳环稠合的染料
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
1 标记石油产品及其检测方法 CN200780050033.5 2007-11-12 CN101606069B 2014-12-03 P·弗勒斯; P·科藤斯特
揭示了标记产品(包括标记石油产品)及其检测方法。标记石油产品是用蒽紫标记的,例如,取代的蒽酮紫和/或异蒽酮紫,例如取代的异蒽酮紫。
2 电解阴极浮选炭粉和沥清焦油生产炭电极的方法 CN201010571495.5 2010-12-03 CN102011147A 2011-04-13 任必军; 魏应伟; 候飞瑞; 范岩峰; 王二体; 王占钦; 张玉辉; 王智辉; 崔永亮; 朱光
发明的用废阴极浮选后炭粉和沥清焦油生产炭电极的方法,涉及电解废料的回收利用,采用浮选后的废阴极炭粉作为粉料,配入量占总重的10~45%;添加电煅烟煤作为骨料,配入量占总重的30~60%,沥青煤焦油作为粘结剂,配入量占总重的15~30%;将电煅无烟煤和浮选后的废阴极炭粉在120~180℃温度下进行均匀混捏30~40分钟,加入沥青煤焦油继续混捏40~50分钟,将混捏好的糊料成型、冷却、焙烧、随炉冷却至常温,焙烧烟气送除尘器净化;本发明使这些废料利用率达到30%左右,在创造经济效益的同时实现良好的环境效益和社会效益。
3 可燃污染物或废物转变成洁净的能源和有用的产品的工艺过程和装置 CN88103704 1988-06-20 CN1022928C 1993-12-01 维莱里奥·托基尼兹奥
一种将可燃污染物或废物转变成洁净的能源和可利用的产物的工艺过程,其特征在于:在无空气气氛下对将要处理的物料在没有空气的气氛下在热喷管中进行处理,以使之完全分解并提取得到可燃气、不燃气和惰性气体;用冷却热分解产物并由水中分离出惰性产物,同时产生出蒸汽;把该蒸汽和所述被冷却的气体引入到一种加热了的含物质中,以便过滤该气体并部分地将它们转变以得到氢,化碳以及其它有用的气体产物;以及冷却所述的气体产物。
4 紫蒽类似物及其用途 CN200810037090.6 2008-05-08 CN101270064B 2012-02-29 朱为宏; 范多; 刘博; 马哨庆; 田禾
发明涉及一种紫蒽类似物及其用途。本发明的发明人对紫蒽酮进行适当的化学修饰后可得一种紫蒽酮类似物。经分析测试:该种紫蒽酮类似物的荧光发射波长约为716.5nm,且有良好的溶解性和稳定性,可作为近红外荧光染料
5 标记石油产品及其检测方法 CN200780050033.5 2007-11-12 CN101606069A 2009-12-16 P·弗勒斯; P·科藤斯特
揭示了标记产品(包括标记石油产品)及其检测方法。标记石油产品是用蒽紫标记的,例如,取代的蒽酮紫和/或异蒽酮紫,例如取代的异蒽酮紫。
6 紫蒽类似物及其用途 CN200810037090.6 2008-05-08 CN101270064A 2008-09-24 朱为宏; 范多; 刘博; 马哨庆; 田禾
发明涉及一种紫蒽类似物及其用途。本发明的发明人对紫蒽酮进行适当的化学修饰后可得一种紫蒽酮类似物。经分析测试:该种紫蒽酮类似物的荧光发射波长约为716.5nm,且有良好的溶解性和稳定性,可作为近红外荧光染料
7 一种采用金属锶炉渣制备酸锶盐的方法 CN200710025000.7 2007-07-17 CN101100308A 2008-01-09 梅小明; 诸天柏; 陶卫建; 刘小稻; 佟龙福; 王殊
发明公开了一种采用金属锶炉渣制备酸锶盐的方法,包括如下步骤:1)将金属锶炉渣用破碎机破碎,制得锶渣粉;2)将锶渣粉加入到沸中,边加锶渣粉边搅拌,使锶渣粉充分反应生成可溶性的氢化锶;3)通过离心分离机或过滤器对溶液进行分离,得到氢氧化锶溶液;4)向上述氢氧化锶溶液中添加碳酸盐或碳酸氢盐,边加碳酸盐或碳酸氢盐边搅拌,使反应充分进行;5)通过离心分离机或过滤器对溶液进行分离,得到碳酸锶沉淀物;6)对碳酸锶沉淀物烘干,即得到碳酸锶。本发明在溶解锶炉渣时使用沸水而非无机酸,克服了锶炉渣制备锶盐的成本高,无法获得经济效益的缺点,从而提供一种简单易行的锶炉渣制备锶盐的工艺方法。
8 一种采用金属锶炉渣制备酸锶盐的方法 CN200710025000.7 2007-07-17 CN100497178C 2009-06-10 梅小明; 诸天柏; 陶卫建; 刘小稻; 佟龙福; 王殊
发明公开了一种采用金属锶炉渣制备酸锶盐的方法,包括如下步骤:1)将金属锶炉渣用破碎机破碎,制得锶渣粉;2)将锶渣粉加入到沸中,边加锶渣粉边搅拌,使锶渣粉充分反应生成可溶性的氢化锶;3)通过离心分离机或过滤器对溶液进行分离,得到氢氧化锶溶液;4)向上述氢氧化锶溶液中添加碳酸盐或碳酸氢盐,边加碳酸盐或碳酸氢盐边搅拌,使反应充分进行;5)通过离心分离机或过滤器对溶液进行分离,得到碳酸锶沉淀物;6)对碳酸锶沉淀物烘干,即得到碳酸锶。发明在溶解锶炉渣时使用沸水而非无机酸,克服了锶炉渣制备锶盐的成本高,无法获得经济效益的缺点,从而提供一种简单易行的锶炉渣制备锶盐的工艺方法。
9 氯化紫蒽或氯化异紫蒽酮的制备 CN95102736.0 1995-02-11 CN1111663A 1995-11-15 U·伯格曼; G·谢弗; H·科瓦什
在稀释剂存在下用氯气与紫蒽或异紫蒽酮反应制备氯化紫蒽酮或氯化异紫蒽酮,为此目的使用脂族羧酸和/或脂族卤代羧酸作为稀释剂。
10 可燃污染物或废物转变成洁净的能源和有用的产品的工艺过程和装置 CN88103704 1988-06-20 CN1038830A 1990-01-17 维莱里奥·托基尼兹奥
一种将可燃污染物或废物转变成洁净的能源和可利用的产物的工艺过程,其特征在于:在无空气气氛下对将要处理的物料在没有空气的气氛下在热喷管中进行处理,以使之完全分解并提取得到可燃气、不燃气和惰性气体;用冷却热分解产物并由水中分离出惰性产物,同时产生出蒸汽;把该蒸汽和所述被冷却的气体引入到一种加热了的含物质中,以便过滤该气体并部分地将它们转变以得到氢,化碳以及其它有用的气体产物;以及冷却所述的气体产物。
11 NOVEL PHOTOSENSITISING MOLECULES DERIVED FROM 9,10-DICYANOANTHRACENE, METHOD FOR PREPARING SAME AND USES THEREOF PCT/FR2009050213 2009-02-11 WO2009106779A3 2009-12-23 SOUMILLION JEAN-PHILIPPE; LACOMBE SYLVIE; PIGOT THIERRY; CANTAU CHRISTOPHE; EL KADIB ABDELKRIM
The invention relates to novel photosensitising compounds derived from DCA, and to methods using the same.
12 NOVEL CARBOPYRONINE FLUORESCENCE DYES PCT/EP2000/003568 2000-04-19 WO00064986A1 2000-11-02
The invention relates to the use of carbopyronine compounds of general formula (I) as marker groups in methods for detecting analytes. The invention also relates to novel carbopyronine compounds and to a method for producing same.
13 Organic transistor JP2007044001 2007-02-23 JP2008210865A 2008-09-11 FUJIYAMA TAKAHIRO; TOTANI YOSHIYUKI; NAKATSUKA MASAKATSU
<P>PROBLEM TO BE SOLVED: To provide an organic transistor having high mobility, a large current on/off ratio, and excellent storage stability. <P>SOLUTION: In the organic transistor having an organic semiconductor layer, at least one benz [5,6] indeno [1,2,3-cd] indeno [1,2,3-lm] perylene derivative is contained in the organic semiconductor layer. <P>COPYRIGHT: (C)2008,JPO&INPIT
14 Oral hygiene methods and tools therefor JP2003530169 2002-09-09 JP2005503422A 2005-02-03 ウォルフガング,ニューバーガー
【課題】セルフケアで使用してほぼ安全であり、細菌、ウイルス及び他の生物に顕著な殺滅作用を有する家庭用の衛生口腔清浄方法及び用具の提供。
【解決手段】可視波長で広い吸収スペクトルを有ししかも適度の量での消費には安全な感光剤;口腔内の血清、唾液または他の体液の有害な作用から感光剤を保護するための化合物を含む口腔衛生組成物。
【選択図】図1
15 DIMERIZATION OF FUSED POLYCYCLIC AROMATIC COMPOUND JP7385796 1996-03-28 JPH09194746A 1997-07-29 SAKAMOTO TAKAAKI; YONEHARA YOSHITOMO; BOKU SHIYOUSHIN
PROBLEM TO BE SOLVED: To provide a method for dimerizing a fused polycyclic aromatic compound, in detail, directly dimerizing the fused polycyclic aromatic compound in a single-stage process, to produce a poerylene series compound, an indantrene series compound, etc., which is important as a dye, a pigment or an electronic material. SOLUTION: This method for dimerizing a fused polycyclic aromatic compound comprises dimerizing (C) the fused polycyclic aromatic compound, e.g. 1-8-naththalic acid imide, in a reaction system using both of (A) an alkyli metal hydroxide and/or an alkyli metal alkoxide, e.g. potassium tert-butoxide, and (B) an organic base having an azabicyclic ring, etc., 1,5-diazabicylclo[4.3.0]-5- nonene (DBN), preferably in an organic solvent. This method enables direct dimerization of the fused polycylic aromatic compound in a single-stage process without passing through a leuco compound, etc., as an intermediate in a high yield. The dimerized fused polycyclic aromatic compound, e.g. perylene-3,4,9,10- tetracarbonic acid diimide, is therefore easily obtained.
16 IMAGE READ DEVICE JP1666994 1994-02-10 JPH0774333A 1995-03-17 SHIGETA KUNIO; NOMORI HIROYUKI; OTSUKA MASAO; OGUCHI MASANOBU
PURPOSE:To obtain an image read device which is high in photosensitivity, light response speed, and hardly deteriorated due to fatigue caused by a continuous use by a method wherein a photoconductive layer is made to contain photoconductive material formed of condensation polycyclic aromatic quinone. CONSTITUTION:Condensation polycyclic aromatic quinone represented by a formula I is vacuum-evaporated as thick as 1.8mum on an ITO transparent electrode 9 which is formed through such a manner that indium tin oxide is vacuum- evaporated on a glass plate 8. Then, gold is evaporated on all the surface of the photoconductive layer 6 to form a counter electrode 5. The photoconductive layer 6 is of an N-type in the dark and displays an excellent photoelectric conversion characteristics when it is irradiated with light rays. Therefore, the photoconductive layer 6 is very small in dark current, large in photocurrent, high in photosensitivity and light responsive properties, excellent in a signal to noise ratio, and less deteriorated due to fatigue caused by high frequencies of use. In the figure, Y denotes Br.
17 JP3208193 1993-06-15 JPH076247U 1995-01-27
18 MELTING OF RAW MATERIAL IN APPARATUS FOR TREATMENT OF WASTE PLASTIC JP18940193 1993-06-30 JPH0718114A 1995-01-20 TAKEUCHI TAKAHARU; TANAKA MASAHIDE; FUNAHASHI EIJI; MIKATA NOBUYUKI
PURPOSE:To melt a raw material (waste plastic) without using a primary melting machine such as an extruder or without occurrence of a hydrochloric acid corrosion damage due to condensation of gaseous hydrogen chloride generated by decomposition of vinyl chloride in the raw material when converting waste plastic materials to low-molecular carbonized compounds according to the fusion- decomposition method. CONSTITUTION:Crushed waste plastic (A) is fed through a feeder equipped with an external heater to a raw material mixing tank 2 while being preheated a <= the starting temperature (<= about 150 deg.C) of dehydrochlorination of vinyl chloride contained in the waste plastic and >= the temperature (about 100 deg.C) free from condensation of gaseous hydrogen chloride generated in the raw material mixing tank 2 in the coexistence of water.
19 MANUFACTURE OF 1,4-DIAMINOANTHRAQUINONE JP7263986 1986-04-01 JPS61246155A 1986-11-01 RUDORUFU BURATSUTONAA
20 CATIONIC DYE AND USE JP3819882 1982-03-12 JPS57162759A 1982-10-06 MANFUREETO PATSUCHIYU; MANFUREETO RUSUKE; ERUBUIN HAAN

IPRDB

最新中国发明专利 最新美国发明专利 技术领域 专利库 专利分类库 国际专利分类库

热门服务

会员版试用 API 数据接口 找代理 知嘟嘟专利交易 排行榜 大学排行榜 专利百科

关于我们

平台介绍 战略合作 网站地图

友情链接

知嘟嘟专利交易 国家知识产权局 中国商标网

联系方式


©2019-2023 上海吉码数字技术有限公司 版权所有,并保留所有权利 沪ICP备20016256号-6 沪公网安备31011702005475号