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Organic Electronics Presented By: Mehrdad Najibi Class Presentation for Advanced VLSI Course.

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1 Organic Electronics Presented By: Mehrdad Najibi Class Presentation for Advanced VLSI Course

2 Outlines Introduction to Organic Electronics Introduction to Organic Electronics Applications Applications Organic Thin-Film-Transistors (OTFTs) Organic Thin-Film-Transistors (OTFTs) Organic Materials Organic Materials Recent Advances Recent Advances Summary Summary

3 What and why an organic transistor? First Organic Transistor - 1986 First Organic Transistor - 1986 Using organic molecules (Polymers) rather than silicon for their active material. Using organic molecules (Polymers) rather than silicon for their active material. Semiconductor Semiconductor Advantages Advantages Less Complex & Lower-cost Fabrication Less Complex & Lower-cost Fabrication Solution Processing  Photolithographic patterning Solution Processing  Photolithographic patterning lower temperature manufacturing (60-120° C) lower temperature manufacturing (60-120° C) Print-able Organic Transistors Print-able Organic Transistors Mechanical flexibility Mechanical flexibility compatibility with plastic substances: foldable & light weight compatibility with plastic substances: foldable & light weight Strong Optical Absorption and Efficient Emission

4 Applications Flexible low-weight large- Area Displays Flexible low-weight large- Area Displays OLED + OTFT OLED + OTFT Optical recording (optical absorption) Electronic circuits printed on paper Electronic circuits printed on paper Electronic Papers Electronic Papers Ultra Low-Cost Low- Performance Applications Ultra Low-Cost Low- Performance Applications Smart cards Smart cards Low-heat dissipation circuits Low-heat dissipation circuits

5 Organic Thin Film Transistors (OTFT) Very Similar to MOSFETs Very Similar to MOSFETs 3-Terminal Device 3-Terminal Device Voltage Controled Switch Differences Differences Carrier Transport Discrete Energy Levels Hopping Organic Active Layer Depletion Devices Figure1 [1]

6 Organic Thin Film Transistors (OTFT) Current Flow Mode Current Flow Mode V th is not Constant Smaller die-electric Constant Smaller die-electric Constant Velocity Saturation Velocity Saturation Due to hopping Due to hopping Is more likely to occur Is more likely to occur Figure2 [2]

7 Organic Thin Film Transistors (OTFT) Key Parameters Key Parameters Mobility (µ ≈ 1-10 cm 2 /vs) Mobility (µ ≈ 1-10 cm 2 /vs) Much Lower than Si Much Lower than Si On-Off Ratio On-Off Ratio Suitable (10 6 ) Suitable (10 6 ) MaterialMobility a-Si 0.1 cm 2 /Vs Organics 1-10 cm 2 /Vs Si 200 cm 2 /Vs Figure3 [4]

8 New Organic Materials Challenging factors Challenging factors Performance Electrical Parameters Process-ability Solubility Long-Term Stability Regular Structure Facilitate Hopping Process Purify-ability Impurity  charge traps Figure4 [1]

9 Progress in performance of OTFTs from 1986 to the present Figure5 [4]

10 Summary organic electronics is ready to meet the requirements for product realization Compatibility with a huge variety of substrates (web-coated polyester, paper). Reliability readouts according to product requirements (shelf and operational lifetimes). Yield enabling profitable manufacturing. Proof of concept for simple and cheap manufacturing methods. Realization of supply voltages down to 1 V

11 References [1] Colin Reese, Mark Roberts, Mang-mang Ling, and Zhenan Bao. “ Organic Thin Film Transistors”, Material Study, September 2004., IEEE Spectrum, Vol. 37 No. 8, 2000 [2] S. Forrest, P. Burrows, M. Thompson. “ The dawn of organic electronics”, IEEE Spectrum, Vol. 37 No. 8, 2000 [3] G. Paasch (1,2), S. Scheinert (1), R. Tecklenburg (2). “Theory and modeling of organic field effect transistors” [4] C. D. Dimitrakopoulos, D. J. Mascaro. “ Organic thin-film transistors: A review of recent advances”, IBM Journal Of Research & Developmenmt, Volum 45, 2001

12 Future Outlook: Time to Start Reviewing those Chemistry Books OTFTs for active-matrix (LDC) displays OTFTs for active-matrix (LDC) displays Flexible view screens (or anything…) Flexible view screens (or anything…) New generations of smart cards New generations of smart cards Organic smart pixels with OLEDs Organic smart pixels with OLEDs Large-area display electronics Large-area display electronics Organic semiconductor advances in mobility, switching time, and manufacturing may lead to many possibilities Organic semiconductor advances in mobility, switching time, and manufacturing may lead to many possibilities

13

14 Mobilities of organic semiconductors have improved by five orders of magnitude over the past 15 years. Large research efforts using materials such as these led to some of this increase.

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