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价格:¥2704元
生产地:西班牙品牌:
移动电话:13761090949公司传真:86-21-60852363
更新时间:2018-07-04
公司介绍:
上海巨纳科技有限公司是一个集科、工、贸为一体的现代化高科技企业,下属多家生产工厂和贸易公司,主要从事太阳能、光通信、生物化学、国际贸易、耗材配件等业务。公司分有光通信事业部、太阳能事业部、科学仪器事业部、生化仪器事业部、国际贸易事业部和耗材配件事业部。
主营产品:
1.公司生化仪器事业部前身是一个集开发设计、生产、销售、服务为一体的专业性生化仪器工厂,拥有雄厚的技术力量、先进的生产设备和工艺、完善的管理体系及优质的售后服务。自成立二十多年以来,注重吸收德国先进技术,不断采用新科技、新材料、新工艺、研制开发出了旋转蒸发器、低温槽、真空泵、超级恒温槽、冷冻干燥机、培养箱、振荡器、搅拌器、离心机、水浴锅等各种系列的一百多个产品。产品畅销全国高等院校、医院、化工、生化、防疫、环保等科研单位,并大量出口到德国、巴基斯坦、印度尼西亚、西班牙、英国、巴西、台湾等国家和地区。 2.光通信事业部,根据《低噪声指数增益钳制掺铒光纤放大器》和《光纤光栅增强的L波段双通掺铒光纤放大器》等技术,开发一系列适用于科学研究、实际光通信系统使用的高质量低成本掺铒光纤放大器(EDFA),技术达到国际先进水平。同时,做为著名光通信公司日本Santec株式会社在中国的光通信系列产品的代理商。3.太阳能事业部,主要从事太阳能电池,太阳能光伏,太阳能组件相关产品的研制、开发、生产、销售、施工和服务。同时,以振兴中国绿色能源为己任,与国外公司合作,把世界的太阳能设备带给中国用户。4.公司国际贸易部,作为多家世界高科技仪器公司在中国市场的总代理,与他们保持着全方位的合作关系。德国Nanofocus白光共焦表面形貌显微系统(光学轮廓仪)、3D激光轮廓仪;瑞士Lyncee Tec SA公司的数字全息显微镜;美国CRAIC公司紫外,可见,红外显微分光光度系统;加拿大ZABE(精密线性定位器、电机驱动反射镜座,集成的微定位系统,电机驱动微位移平台);瑞士NOVASIN的压差计和相对温湿度计,法国Sofraser公司在线粘度计;德国BOECO实验室仪器(分光光度计、各种搅拌器、离心机、PH仪, 电导计, 电极缓冲液、摇床、混合器、天平、实验玻璃器材等),为国内的客户提供优质的产品和服务。
金属有机骨架材料(MOFs)是近十年来发展迅速的一种配位聚合物,具有三维的孔结构,一般以金属离子为连接点,有机配体位支撑构成空间3D延伸,系沸石和碳纳米管之外的又一类重要的新型多孔材料,在催化,储能和分离中都有广泛应用。
metaL ORGANIC frameWORKS
REF.
Product
Family
Others
Quantity
B100000
ZIF-8, 2-Methylimidazole zinc salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (116 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 604,9
1 g
B100000
ZIF-8, 2-Methylimidazole zinc salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (116 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 604,9
10 g
B100000
ZIF-8, 2-Methylimidazole zinc salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (11.6 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 227,6
100 g
B100001
ZIF-67, 2-Methylimidazole cobalt salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (11.6 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 227,6
1 g
B100001
ZIF-67, 2-Methylimidazole cobalt salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (11.6 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 227,6
10 g
B100001
ZIF-67, 2-Methylimidazole cobalt salt
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Large cavities (11.6 Amstrongs) connected by small windows (3.4 Amstrongs), Specific surface: 1600 m2/g, Empirical Formula C8H10N4Zn, Mw: 227,6
100 g
B100002
HKUST-1, copper(II)-BENZENE-1,3,5-tricarboxylate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Synonyms: Cu3(BTC), Cu-BTC MOF, Basolite C 300 (Basf registere). Square-shaped pores of 9 amstrong, Specific surface: 1500 m2/g, Empirical Formula C18H6O12Cu3, Mw: 604,9
1 g
B100002
HKUST-1, copper(II)-BENZENE-1,3,5-tricarboxylate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Synonyms: Cu3(BTC), Cu-BTC MOF, Basolite C 300 (Basf registere). Square-shaped pores of 9 amstrong, Specific surface: 1500 m2/g, Empirical Formula C18H6O12Cu3, Mw: 604,9
10 g
B100002
HKUST-1, copper(II)-BENZENE-1,3,5-tricarboxylate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Synonyms: Cu3(BTC), Cu-BTC MOF, Basolite C 300 (Basf registere). Square-shaped pores of 9 amstrong, Specific surface: 1500 m2/g, Empirical Formula C18H6O12Cu3, Mw: 604,9
100 g
B100003
ALF, aluminium fumarate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Robust-shaped pores 5.7 x 6 Amstrongs, Specific surface: 1000 m2/g, Empirical Formula C4H3O5Al Mw: 158
1 g
B100003
ALF, aluminium fumarate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Robust-shaped pores 5.7 x 6 Amstrongs, Specific surface: 1000 m2/g, Empirical Formula C4H3O5Al Mw: 158
10 g
B100003
ALF, aluminium fumarate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Robust-shaped pores 5.7 x 6 Amstrongs, Specific surface: 1000 m2/g, Empirical Formula C4H3O5Al Mw: 158
100 g
B100004
MAF, magnesium formate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Narrow one-dimensional zig-zag channels of approximately 4.9 amstrong, Specific surface: 500 m2/g, Empirical Formula C6H6O12Mg3Mw: 342,9
1 g
B100004
MAF, magnesium formate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Narrow one-dimensional zig-zag channels of approximately 4.9 amstrong, Specific surface: 500 m2/g, Empirical Formula C6H6O12Mg3Mw: 342,9
10 g
B100004
MAF, magnesium formate
metal Organic frameworks
MOFs are crystalline compounds consisting of metal ions coordinated to organic molecules to form porous three-dimensional structures. Possible applications include storage of gases such as H2 and CO2, gas purification / separation, in catalysis and as sensors. Narrow one-dimensional zig-zag channels of approximately 4.9 amstrong, Specific surface: 500 m2/g, Empirical Formula C6H6O12Mg3Mw: 342,9
100 g
