TRANSPARENT ELECTRONICS Neelam Ec:3rd Rool:1206531909

WELCOME

TRANSPARENT ELECTRONICS

OUTLINE INTRODUCTION COMBINING OPTICAL TRANSPARENCY WITH ELECTRICAL CONDUCTIVITY BURSTEIN-MOSS SHIFT FACTORS CAUSING ADVERSE EFFECT SCHEMATIC BAND STRUCTURE OF T.C.O HOST ELECTRICAL PROPERTIES OF T.C.O CARRIER GENERATION IN T.C.O SUBSTITUTIONAL DOPING OXYGEN REDUCTION TRANSPARENT ELECTRONIC DEVICES TTFCs AND TTFTs APPLICATIONS FUTURE SCOPE CONCLUSION AND REMARK REFERENCES

INTRODUCTION ELECTRONICS INVISIBLE Transparent Electronics Based on Transfer Printed Aligned Carbon Nanotubes on Rigid and Flexible Substrates TRANSPARENT CONDUCTING OXIDE(T.C.O) (In2o3, Sno2, Cdo, Zno) DRAMATICAL CHANGE IN THE LOOK AND USE OF ELECTRONIC DEVICES

COMBINING OPTICAL TRANSPARENCY WITH ELECTRICAL CONDUCTIVITY DEGENERATE DOPING BURSTEIN- MOSS (BM) SHIFT

BURSTEIN – MOSS (BM) SHIFT

FACTORS CAUSING ADVERSE EFFECT INTER-BAND AND INTRA-BAND TRANSITION PLASMA OSCILLATIONS IONIZED IMPURITY SCATTERING

SCHEMATIC BAND STRUCTURE OF TCO HOST

ELECTRICAL PROPERTIES OF TCO SIMILAR CHEMICAL, STRUCTURAL AND ELECTRONIC PRORERTIES IONIZED IMPURITY SCATTERING INTERACTION BETWEEN THE S ORBIT OF METALS AND P ORBIT OF OXYGEN

CARRIER GENERATION IN T.C.O TWO METHODS:- SUBSTITUTIONAL DOPING OXYGEN REDUCTION

SUBSTITUTIONAL DOPING DOPING WITH ALIOVALENT IONS DOPING WITH III,IV AND VII GROUP ELEMENTS ELECTRON VELOCITY AND DENSITY AT FERMI LEVEL RESULT IN THE TREND In>Y>Sc> Ga

OXYGEN REDUCTION REMOVAL OF OXYGEN FROM A METAL OXIDE RELATIVELY UNIFORM CHARGE DENSITYIES FORMATION OF F-CENTER IN LIGHT METAL OXIDES

TRANSPARENT ELECTRONIC DEVICES SELECTION, DESIGN, SIMULATION, FABRICATION, INTEGRATION, CHARACTERIZATION AND OPTIMIZATION. PASSIVE, LINEAR DEVICES. TWO TERMINAL ELECTRONIC DEVICES TRANSPARENT THIN- FILM TRANSISTORS (TTFTs)

TRANSPARENT THIN FILM - CAPACITOR FIG .shows capacitor internal work Fig. fabrication of capacitor and inductor at transparent sheet. Fig. transparent capacitor and inductor .

TRANSPARENT THIN FILM- TRANSISTORS (TTFTs) Fig. shows the TTFTs Fig. fabrication of TTFTs at nano scale

APPLICATIONS INTERNET ACCESSIBLE CONTACT LENS TRANSPARENT WASHER TRANSPARENT L.E.D WRITING BOARD TRANSPARENT IMAGE SENSOR PLEXIGLASS- CAR

FUTURE SCOPE SOLAR WINDOWS IMPROVING STABILITY OF TRANSPARENT SOLAR CELLS TECHNOLOGICAL ADVANCES

CONCLUSION AND REMARKS GREAT IMPACT ON HUMAN MACHINE INTERACTION LEAD TO NEW APPLICATIONS CAUSE ENVIORNMENTAL CHALLENGES AS CURRENTLY USING E.C DEVICES

REFERENCES [1] Nanopatentsandinnovations.blogspot.com , issue 14,march,2013. [2] www.sciencemag.org , issue 10,march,2013. [3] www.wiley.com , issue 11,march,2013. [4] www.wikipedia.org ,issue 11,march,2013. [5] Transparent Electronics ’, Springer publications, D. A. Keszler, R. E. Presley, issue 12 march 2013 [6] Transparent electronics: from synthesis to applications’, Wiley publications: Antonio Facchetti, Tobin J. Marks. issue 12 march 2013.

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