Temporal response of biochemical and biological sensors with bimodal surface adsorption from a finite sample [0.03%]
具有来自有限样品的表面双模吸附的生化和生物传感器的瞬态响应
Ivana Jokić,Olga Jakšić,Miloš Frantlović et al.
Ivana Jokić et al.
The importance of adsorption-based biochemical/biological sensors in biochemistry and biophysics is paramount. Their temporal response gives information about the presence of a biochemical/biological analyte, its concentration and its inter...
Parametric study of 3D printed microneedle (MN) holders for interstitial fluid (ISF) extraction [0.03%]
用于间质液提取的3D打印微针固定器的参数研究
Robert M Taylor,Dilendra Maharjan,Fernando Moreu et al.
Robert M Taylor et al.
The need for novel, minimally invasive diagnostic, prognostic, and therapeutic biomedical devices has garnered increased interest in recent years. Microneedle (MN) technology has stood out as a promising new method for drug delivery, as wel...
An optimised silicon piezoresistive microcantilever sensor for surface stress studies [0.03%]
一种优化的硅压阻式微力传感器及其表面应力研究
Mohd Zahid Ansari,Chongdu Cho
Mohd Zahid Ansari
Surface stress is a versatile and efficient means to study various physical, chemical, biochemical and biological processes. This work focuses on developing high sensitive piezoresistive microcantilever designs to study surface stress. The ...
Arrays of High-Aspect Ratio Microchannels for High-Throughput Isolation of Circulating Tumor Cells (CTCs) [0.03%]
高通量分离循环肿瘤细胞(CTCs)的高宽深比微通道阵列
Mateusz L Hupert,Joshua M Jackson,Hong Wang et al.
Mateusz L Hupert et al.
Microsystem-based technologies are providing new opportunities in the area of in vitro diagnostics due to their ability to provide process automation enabling point-of-care operation. As an example, microsystems used for the isolation and a...
Jonghyun Oh,Kewei Liu,Tim Medina et al.
Jonghyun Oh et al.
We present a microfabricated 10 by 10 array of microneedles for the treatment of a neurological disease called communicating hydrocephalus. Together with the previously reported microvalve array, the current implantable microneedle array co...
A microacoustic analysis including viscosity and thermal conductivity to model the effect of the protective cap on the acoustic response of a MEMS microphone [0.03%]
一种包括黏度和热导率的微声学分析方法建立保护帽对MEMS麦克风声学响应影响的模型
D Homentcovschi,R N Miles,P V Loeppert et al.
D Homentcovschi et al.
An analysis is presented of the effect of the protective cover on the acoustic response of a miniature silicon microphone. The microphone diaphragm is contained within a small rectangular enclosure and the sound enters through a small hole ...