Sentence examples for monitoring of analyte from inspiring English sources

In vivo electrochemical sensing is a well-established technique which offers real-time monitoring of analyte through implanted microelectrodes [52].

1.386 to 2.348 ng mL−1 and good relative standard deviations varied from 1.1% to 2.8% (n = 10) candidate this method for successful monitoring of analyte from various media.

For reductive sensing of hydrogen peroxide, however, analyte losses due to oxidation and catalytic decomposition on the counter electrode are significant, rendering such devices unsuitable for continuous monitoring of analyte concentration changes over time.

Biosensors may be further classified according to the analytes or reactions that they monitor: direct monitoring of analyte concentration or of reactions producing or consuming such analytes; alternatively, an indirect monitoring of inhibitor or activator of the biological recognition element (biochemical receptor) may be achieved.

Biosensors may be further classified according to the analytes or reactions that they monitor such as direct monitoring of analyte concentration or of reactions producing or consuming such analytes, respectively.

Chemosensors are molecules specifically designed for the qualitative and quantitative monitoring of analytes and are being researched in the areas of biological and analytical chemistry, medicine and environmental sciences (Bell and Hext 2004; Minkin et al. 2008).

This label free detection method provides accurate, in situ monitoring of analytes avoiding photo bleaching effect of the traditional colorimetric spectrochemical assays [7].

Chemically modified electrodes have been widely used to enhance electrochemical monitoring of analytes that are not easily detected using traditional base conductive materials.

A novel microfluidic chip is presented for continuous inline monitoring of analytes such as glucose with kinetic, enzymatic, fixed-time fluorescence detection.

Therefore, development of engineered cellular recognizable peptides and its 3D topological design for fabrication of cell chip will provide the synergetic effect on bio-affinity, sensitivity and accuracy for the in situ real-time monitoring of analytes.

Hence, it is important to project the latest SERS-based ultrasensitive detection research in a review, which will present a reference guideline to develop an optimal detection approach for specific detection or monitoring of analytes in highly diluted solutions.