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iChip01:24

iChip

The cultivation of environmental microorganisms has long been hindered by the inability to replicate complex native conditions in vitro. The isolation chip (iChip) addresses this limitation by facilitating the growth of previously uncultivable microorganisms through in situ incubation. Designed for high-throughput microbial cultivation, the iChip comprises hundreds of microchambers, each capable of housing a single microbial cell. These microchambers are loaded with a mixture of molten agar and...
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Microarrays are high-throughput and relatively inexpensive assays that can be automated to analyze large quantities of data at a time. They are used in genome-wide studies to compare gene or protein expression under two varied conditions, such as healthy and diseased states. Microarrays consist of glass or silica slides on which probe molecules are covalently attached through surface functionalization. Most commonly, the slides are prepared through the chemisorption of silanes to silica...

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A Microfluidic Chip for the Versatile Chemical Analysis of Single Cells
15:41

A Microfluidic Chip for the Versatile Chemical Analysis of Single Cells

Published on: October 15, 2013

On-chip detection of cellular activity.

R Almog1, R Daniel, S Vernick

  • 1Department of Physical Electronics, School of Electrical Engineering, Faculty of Engineering, Tel-Aviv University, Tel-Aviv, 69978, Israel, almogr@tx.technion.ac.il.

Advances in Biochemical Engineering/Biotechnology
|June 23, 2009
PubMed
Summary
This summary is machine-generated.

On-chip cellular activity monitoring offers a promising approach for biological and chemical sensing. This technology enables miniature, portable, and cost-effective screening devices for various applications.

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Area of Science:

  • Biotechnology
  • Microelectronic Engineering
  • Biosensing

Background:

  • On-chip cellular activity monitoring leverages microelectronics for biological and chemical sensing.
  • Miniaturization enables the development of fast, low-cost, and portable screening devices.
  • This technology has broad applications in environmental, medical, and pharmaceutical fields.

Purpose of the Study:

  • To survey and review various on-chip cellular activity detection technologies.
  • To highlight the potential of cell-on-chip platforms for advanced biosensing.
  • To cover both prokaryotic and eukaryotic cell-on-chip systems.

Main Methods:

  • Electrochemical detection methods for cellular activity.
  • Bio-impedance sensing techniques on-chip.
  • Optical detection strategies for cellular monitoring.

Main Results:

  • Review of diverse on-chip technologies for cellular activity detection.
  • Inclusion of both prokaryotic and eukaryotic cell-on-chip systems.
  • Demonstration of the versatility of on-chip sensing platforms.

Conclusions:

  • On-chip cellular activity monitoring is a rapidly advancing field with significant potential.
  • The surveyed technologies offer new horizons for miniature, fast, and portable biosensing.
  • Cell-on-chip platforms are crucial for future environmental, medical, and pharmaceutical innovations.