有机合成(108) 离子液体(441) 催化(166) 离子液体制备(12) 离子液体物性数据(10) 纳米(30) 分离过程(14) 综述(5) 电化学(57) 离子液体纯化(1) 气体处理(17) 荧光(4) 脱硫(1) 催化制氢(1) 太阳能电池(1) 离子液体性能研究(20) 变焦透镜(6) 纤维素溶解(6) 离子液体理论研究(4) 润滑(10) 添加剂(4) 溶剂(38) 气体压缩(1) 功能材料(42) 脱酸工艺(1) 产业化(30) 物化性质研究(2) 新能源(9) 新型离子液体(11) 会议(18) 分析检测(3) 电池(29) 空间技术(9) 高极性色谱柱(1) 离子液体市场分析(1) 电子技术(6) 生物相容性(9) 分析测试(16) 缩微实验室(1)
您当前的位置:首页 > TAG信息列表 > 离子液体
- Salt-based CO2 sensor could help better protect divers
- 更新时间:2015-06-10;信息类型:国外研究进展
- An innovative CO2 sensor based on polymers consisting of a type of salt could help monitor air-quality for scuba divers or mountaineers.
- 链接地址:http://www.ionike.com/research/2015-11-04/414.html
- Ionic liquid SPME: Polycarbazole support for aromatic esters
- 更新时间:2015-06-08;信息类型:国外研究进展
- Improving SPMESolid-phase microextraction (SPME) is an established technique for removing target compounds from gases and liquids in preparation for analysis
- 链接地址:http://www.ionike.com/research/2015-11-03/388.html
- Knitted supercapacitors could store power in your pants
- 更新时间:2015-06-05;信息类型:国外研究进展
- We’ve all gotten used to carrying smart devices around in our pockets, but what if your pockets themselves were smart? Scientists have been working on smart clothing for years — and flexible circuits, sensors, and screens already exist, but what about power? Clipping a chunky lithium-ion battery to your smart pants rather defeats the purpose, doesn’t it? That’s why engineers at Drexel University and the US Naval Academy have devised a way to create knitted fabric that can store power.
- 链接地址:http://www.ionike.com/research/2015-11-04/404.html
- New Research Says That a New BioEconomy May Be Driven By 3D Printed Cellulose Materials
- 更新时间:2015-06-04;信息类型:国外研究进展
- A team of researchers are hard at work developing new bio-material applications for cellulose-based compounds for 3D printing applications to replace fossil derived raw materials.
- 链接地址:http://www.ionike.com/research/2015-11-04/410.html
- Physicists Look at Chemicals in the Environment
- 更新时间:2015-06-03;信息类型:国外研究进展
- Researchers are looking more closely at molecular mechanisms in commercial chemicals that lead to potentially damaging effects on the human body and the environment. Two of these investigations — one on the artificial sweetener sucralose, the other on a class of fluids called ionic liquids — were highlighted at the APS March Meeting 2015 in San Antonio, Texas.
- 链接地址:http://www.ionike.com/research/2015-11-03/390.html
- ZIF-8 disrupts ionic liquid deep freeze
- 更新时间:2015-05-27;信息类型:国外研究进展
- Ionic liquid conductivity decreases at low temperature. To overcome this, a team of researchers from across Japan have combined an ionic liquid with a metal–organic framework (MOF) to produce an unusual material that retains its conductivity below –20°C. This low-temperature conductivity, together with the attractive ionic liquid properties of non-flammability and negligible volatility, could open up the potential for safe battery and capacitor materials for use in extremely cold conditions.
- 链接地址:http://www.ionike.com/research/2015-11-03/387.html
- 新硬件时代
- 更新时间:2015-05-18;信息类型:国外研究进展
- 该设计包括一个二氧化钒薄膜,上面做一个门,由一滴离子液体和带离子的 盐,二者模糊分界,形成液体,而不是固体。当电压施加到液态门上,正负电荷向液滴的对边移动。
- 链接地址:http://www.ionike.com/research/2015-11-02/376.html
- Espresso maker brews up tasty extraction
- 更新时间:2015-05-13;信息类型:国外研究进展
- Coffee machines could become essential pieces of lab kit for natural product chemists, for reasons beyond the power of a caffeine buzz. Researchers in Australia have used an unmodified household espresso maker to get nearly pure shikimic acid – a raw material for Roche’s antiviral drug Tamiflu – from the spice star anise.
- 链接地址:http://www.ionike.com/research/2015-11-04/402.html
- Separating rare earth metals with UV light
- 更新时间:2015-05-11;信息类型:国外研究进展
- Researchers from the KU Leuven Department of Chemical Engineering have discovered a method to separate two rare earth elements - europium and yttrium - with UV light instead of with traditional solvents. Their findings, which were published in Green Chemistry, offer new opportunities for the recycling of fluorescent lamps and low-energy light bulbs.
- 链接地址:http://www.ionike.com/research/2015-11-04/412.html
- Researchers explore longer life cycle for batteries
- 更新时间:2015-05-06;信息类型:国外研究进展
- Lithium-ion batteries are common in consumer electronics. They are one of the most popular types of rechargeable batteries for portable electronics, with a high energy density, no memory effect and only a slow loss of charge when not in use. Beyond consumer electronics, lithium-ion batteries have also grown in popularity for military, electric vehicle and aerospace applications.
- 链接地址:http://www.ionike.com/research/2015-11-04/415.html