Stimulation/control system for TFT array biosensor — Application to dielectrophoresis

“…The mounted device is connected to a control card, which has been built to control the 2D matrix of microelectrodes on the TFT devices and which is described hereafter [32]. That card allows the selection of the microelectrodes to which the signals will be applied, among a maximum of 28 × 28 microelectrodes.…”

“…The first series was performed to demonstrate the possibility to perform DEP with TFT devices on microbeads and cells (yeast cells) [34]. The second series was performed to show the possibility to control in 2D the TFT device surface to create programmed patterns, with microbeads [32]. The third series was performed to demonstrate the possibility of applying this technique to mammal cells, with the aim, in the future, of cells patterning on a TFT device.…”

“…The purpose of the second series of experiments was to develop the possibility of a 2D control and programming of the microelectrodes and apply it to the creation of patterns by DEP [32]. Here, the control card described in Section 5 was used.…”

2D Dielectrophoresis using an active matrix array made by thin‐film‐transistor technology

“…The mounted device is connected to a control card, which has been built to control the 2D matrix of microelectrodes on the TFT devices and which is described hereafter [32]. That card allows the selection of the microelectrodes to which the signals will be applied, among a maximum of 28 × 28 microelectrodes.…”

“…The first series was performed to demonstrate the possibility to perform DEP with TFT devices on microbeads and cells (yeast cells) [34]. The second series was performed to show the possibility to control in 2D the TFT device surface to create programmed patterns, with microbeads [32]. The third series was performed to demonstrate the possibility of applying this technique to mammal cells, with the aim, in the future, of cells patterning on a TFT device.…”

“…The purpose of the second series of experiments was to develop the possibility of a 2D control and programming of the microelectrodes and apply it to the creation of patterns by DEP [32]. Here, the control card described in Section 5 was used.…”

2D Dielectrophoresis using an active matrix array made by thin‐film‐transistor technology