Difference between revisions of "OFET fabrication and characterization"

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<td style="text-align: center; width: 33%">[[Main_Page#Synthesis_and_Fabrication|Return to Research Tool Menu]]</td>
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===Background===
===Background===
The organic field effect transistor has a layered construction. A voltage applied to the gate causes the polymer layer to become a semiconductor and allows current flow between the source and drain contact.
The organic field effect transistor has a layered construction. A voltage applied to the gate causes the polymer layer to become a semiconductor and allows current flow between the source and drain contact.


===Significance===
===Significance===
<swf width=500 height=400>images/0/04/Ofet_roll_short.swf</swf>
All parts of an OFET can be made from plastics or thin flexible metals so that this could be used for flexible or printed electronics.
All parts of an OFET can be made from plastics or thin flexible metals so that this could be used for flexible or printed electronics.


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[[Image:Transfer_curve.png|thumb|400px|right| The OFET transfer curve showing source drain current in black and the squareroot of the source drain current in blue, plotted against the gate voltage. ]]
[[Image:Transfer_curve.png|thumb|400px|right| The OFET transfer curve showing source drain current in black and the squareroot of the source drain current in blue, plotted against the gate voltage. ]]
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===Operation===
===Operation===
 
{{#ev:youtube|PE8Att1iiFA}}


===Links===
===Links===
see [[Organic_Field_Effect_Transistors]]
see [[Organic_Field_Effect_Transistors]]

Latest revision as of 09:43, 11 October 2011

Return to Research Tool Menu

Background

The organic field effect transistor has a layered construction. A voltage applied to the gate causes the polymer layer to become a semiconductor and allows current flow between the source and drain contact.

Significance

<swf width=500 height=400>images/0/04/Ofet_roll_short.swf</swf>

All parts of an OFET can be made from plastics or thin flexible metals so that this could be used for flexible or printed electronics.

Solution processed and thermally evaporated OFET Device structures
The OFET transfer curve showing source drain current in black and the squareroot of the source drain current in blue, plotted against the gate voltage.


Operation

Links

see Organic_Field_Effect_Transistors