【摘 要】
:
I entered my first job virtually when microreaction technology was born(1994).Yet,very few,isolated chemistry-driven research in(micro-)capillaries has been
【机 构】
:
EindhovenUniversityofTechnology,MicroFlowChemistryandProcessTechnology,Eindhoven,theNetherlands
【出 处】
:
The 14th International Conference on Microreactivity Technol
论文部分内容阅读
I entered my first job virtually when microreaction technology was born(1994).Yet,very few,isolated chemistry-driven research in(micro-)capillaries has been made already in the 50s(Brennecke,Kobe,Ind.Eng.Chem.1956)and later in the 70s and 80s(Metzger,J.Angew.Chem.1978).In the course of the 80s a powerful micro system technology was established at many research centers throughout the world.Diverse respective applications were subsumed by the term miniaturised Mikro-Total-Analysis-Systems(μTAS),which are today coined Lab-on-a-Chip.A new engineering field was set in place which is microfluidics.
其他文献
Photoredox catalysis is emerging as a new and powerful tool in synthetic organic chemistry to facilitate such photochemical reactions by means of visible li
The direct electron transfer at electrode surfaces is one of the prototypical green technologies of the future and the use of microreactors further advances
Pharmaceutical manufacturing is conventionally divided into two parts-primary manufacturing,which involves making the drug substance(i.e.the Active Pharmace
ZnO 基材料具有大的激子束缚能(约60 meV)和优异的光电特性,因此被认为是实现高效紫外发光和低阈值紫外激光的理想材料.同时,ZnO 基材料还具有超强的抗辐射性能以及高的
电磁场(光场)激发下,金属表面自由电子的集体振荡形成空间上高度局域的电子振荡波—表面等离激元(SPs)。这种空间上高度局域的独特优势恰恰切合了现代科技对器件高度集成
This contribution focuses on two facets of microreaction technology(i)automated screening and optimization of chemical reaction in microsystems and(ii)integ
在传统阶跃波导和包层光子晶体结构的基础上,提出了一种具有不完全禁带特性的阶跃折射率分布的光子晶体波导。波导的芯层是由两种均匀、各向同性的电介质材料周期性排列形
In 2005 we proposed the concept of flash chemistry.1 Flash chemistry is a field of chemical synthesis where extremely fast reactions are conducted in a high