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Three-dimensional integrated hybrid complementary circuits for large-area electronics

Saravanan Yuvaraja, Mohamad Insan Nugraha, Qiao He, Leo Raj Solay, Patsy A. Miranda Cortez, Na Xiao, Martin Heeney, Thomas D. Anthopoulos, Xiaohang Li

2025Nature Electronics8 citationsDOIOpen Access PDF

Abstract

Abstract The development of low-power computing sectors requires compact, power-efficient and high-performance integrated circuits. Hybrid technology that combines n-type metal oxide thin-film transistors and p-type organic thin-film transistors offers a potential solution. However, increasing the transistor density of these systems through vertical stacking is challenging due to issues related to thermal budget and interface roughness. Here we report a six-stack hybrid complementary transistor technology that has 41 layers and uses n-type indium oxide (In 2 O 3 ) and a p-type organic semiconductor (C16IDT-BT) as channel materials. We test 600 transistors and show that n-type oxide devices and p-type organic devices exhibit comparable field-effect mobilities and saturation currents. We also create 300 hybrid inverters by integrating the oxide and organic transistors; the circuits exhibit a gain of 94.84 V V −1 and a power consumption of 0.47 µW. We also fabricate NAND and NOR gates comprising transistors from four stacks. Thermal stability analysis shows that device characteristics begin to degrade above 50 °C, a known limitation of low-thermal-budget processes. Such performance is sufficient for many large-area electronics applications, but further thermal optimization will be necessary to extend operational robustness towards standard industrial conditions.

Topics & Concepts

TransistorNAND gateElectronicsIntegrated circuitElectronic circuitMaterials scienceStackingCMOSElectronic engineeringElectrical engineeringRobustness (evolution)Logic gateIndiumOxidePower semiconductor deviceOptoelectronicsNMOS logicOrganic semiconductorNAND logicComputer scienceNOR gatePower electronicsNanoelectronicsFlexible electronicsThermalField-effect transistorMOSFETOrganic electronicsNanotechnologyThin-film transistorSemiconductor materials and devicesAdvanced Memory and Neural ComputingNanowire Synthesis and Applications