Bottom‐Gate Approach for All Basic Logic Gates Implementation by a Single‐Type IGZO‐Based MOS Transistor with Reduced Footprint
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Remo Proietti Zaccaria | Peiqin Chen | Shaocheng Qi | Mingzhi Dai | Joao Cunha | Tian-Long Guo | R. Proietti Zaccaria | M. Dai | Shaocheng Qi | J. Cunha | Peiqin Chen | T. Guo
[1] Hideo Hosono,et al. Trap densities in amorphous-InGaZnO4 thin-film transistors , 2008 .
[2] Timothy K Lu,et al. Synthetic circuits integrating logic and memory in living cells , 2013, Nature Biotechnology.
[3] Yuan Taur,et al. Comprehensive Analysis of Short-Channel Effects in Ultrathin SOI MOSFETs , 2013, IEEE Transactions on Electron Devices.
[4] T. Fujii,et al. High-resolution mapping of bifurcations in nonlinear biochemical circuits. , 2016, Nature chemistry.
[5] Yong-Hoon Kim,et al. Thread‐Like CMOS Logic Circuits Enabled by Reel‐Processed Single‐Walled Carbon Nanotube Transistors via Selective Doping , 2017, Advanced materials.
[6] Yung-Hui Yeh,et al. P‐11: Amorphous In2O3‐Ga2O3‐ZnO Thin Film Transistors and Integrated Circuits on Flexible and Colorless Polyimide Substrates , 2008 .
[7] K. Ni,et al. Dipolar exchange quantum logic gate with polar molecules , 2018, Chemical science.
[8] M. Kovalenko,et al. An All‐Solution‐Based Hybrid CMOS‐Like Quantum Dot/Carbon Nanotube Inverter , 2017, Advanced materials.
[9] H.-S. Philip Wong,et al. Carbon nanotube computer , 2013, Nature.
[10] Keith A. Jenkins,et al. Flexible CMOS integrated circuits based on carbon nanotubes with sub-10 ns stage delays , 2018 .
[11] Yang Hui Liu,et al. Flexible Metal Oxide/Graphene Oxide Hybrid Neuromorphic Transistors on Flexible Conducting Graphene Substrates , 2016, Advanced materials.
[12] David-Wei Zhang,et al. A MoS2/PTCDA Hybrid Heterojunction Synapse with Efficient Photoelectric Dual Modulation and Versatility , 2018, Advances in Materials.
[13] Zhong Lin Wang,et al. Tunable Tribotronic Dual‐Gate Logic Devices Based on 2D MoS2 and Black Phosphorus , 2018, Advanced materials.
[14] Benjamín Iñíguez,et al. 2-D Physics-Based Compact DC Modeling of Double-Gate Tunnel-FETs , 2019, IEEE Transactions on Electron Devices.
[15] Drew Endy,et al. Amplifying Genetic Logic Gates , 2013, Science.
[16] Tso-Ping Ma,et al. Making silicon nitride film a viable gate dielectric , 1998 .
[17] D. Choi,et al. A transparent diode with high rectifying ratio using amorphous indium-gallium-zinc oxide/SiNx coupled junction , 2015 .
[18] Y. Liu,et al. Synaptic Learning and Memory Functions Achieved Using Oxygen Ion Migration/Diffusion in an Amorphous InGaZnO Memristor , 2012 .
[19] Christopher A. Voigt,et al. Genetic programs constructed from layered logic gates in single cells , 2012, Nature.
[20] Jin Jang,et al. Low temperature characteristics in amorphous indium-gallium-zinc-oxide thin-film transistors down to 10 K , 2013 .
[21] Stephanie Thalberg,et al. Fundamentals Of Modern Vlsi Devices , 2016 .
[22] Optical-reconfigurable carbon nanotube and indium-tin-oxide complementary thin-film transistor logic gates. , 2018, Nanoscale.
[23] Sneh Saurabh,et al. Realizing Logic Functions Using Single Double-Gate Tunnel FETs: A Simulation Study , 2018, IEEE Electron Device Letters.
[24] Xu Gao,et al. Synapse‐Like Organic Thin Film Memristors , 2018 .
[25] Ning Liu,et al. Energy-Efficient Artificial Synapses Based on Flexible IGZO Electric-Double-Layer Transistors , 2015, IEEE Electron Device Letters.
[26] Yong-Young Noh,et al. Flexible metal-oxide devices made by room-temperature photochemical activation of sol–gel films , 2012, Nature.
[27] Antonio Cerdeira,et al. Temperature dependence of the electrical characteristics up to 370 K of amorphous In-Ga-ZnO thin film transistors , 2016, Microelectron. Reliab..
[28] A Retzker,et al. Trapped-Ion Quantum Logic with Global Radiation Fields. , 2016, Physical review letters.
[29] Yang Hui Liu,et al. Freestanding Artificial Synapses Based on Laterally Proton‐Coupled Transistors on Chitosan Membranes , 2015, Advanced materials.
[30] Adrian M. Ionescu,et al. Tunnel field-effect transistors as energy-efficient electronic switches , 2011, Nature.
[31] G. Cuniberti,et al. Unimolecular Logic Gate with Classical Input by Single Gold Atoms. , 2017, ACS nano.
[32] W. Fix,et al. Fast polymer integrated circuits , 2002 .
[33] Mingzhi Dai,et al. Logic circuit function realization by one transistor. , 2012, Nano letters.
[34] Dmitri B Strukov,et al. Flexible three-dimensional artificial synapse networks with correlated learning and trainable memory capability , 2017, Nature Communications.
[35] Yogesh Singh Chauhan,et al. FinFET modeling for IC simulation and design , 2015 .
[36] Barry A Badeau,et al. Engineered modular biomaterial logic gates for environmentally triggered therapeutic delivery , 2017, Nature chemistry.
[37] Sigurd Wagner,et al. Self-Aligned Amorphous Silicon Thin-Film Transistors Fabricated on Clear Plastic at 300 $^{\circ}\hbox{C}$ , 2010, IEEE Transactions on Electron Devices.
[38] H. Ohta,et al. Room-temperature fabrication of transparent flexible thin-film transistors using amorphous oxide semiconductors , 2004, Nature.
[39] J. P. Dehollain,et al. A two-qubit logic gate in silicon , 2014, Nature.
[40] Baojun Wang,et al. Engineering modular and orthogonal genetic logic gates for robust digital-like synthetic biology , 2011, Nature communications.
[41] S. Im,et al. Coupling Two-Dimensional MoTe2 and InGaZnO Thin-Film Materials for Hybrid PN Junction and CMOS Inverters. , 2017, ACS applied materials & interfaces.
[42] Qing Wan,et al. Indium-Zinc-Oxide Neuron Thin Film Transistors Laterally Coupled by Sodium Alginate Electrolytes , 2016, IEEE Transactions on Electron Devices.
[43] Hua Zhang,et al. Two-dimensional semiconductors for transistors , 2016 .
[44] Chongwu Zhou,et al. Fully Printed All-Solid-State Organic Flexible Artificial Synapse for Neuromorphic Computing. , 2019, ACS applied materials & interfaces.
[45] Andrew Steane,et al. Fast quantum logic gates with trapped-ion qubits , 2017, Nature.
[46] N. Linke,et al. High-Fidelity Quantum Logic Gates Using Trapped-Ion Hyperfine Qubits. , 2015, Physical review letters.
[47] Suk Hee Han,et al. Magnetic-field-controlled reconfigurable semiconductor logic , 2013, Nature.
[48] Mazyar Mirrahimi,et al. Extending the lifetime of a quantum bit with error correction in superconducting circuits , 2016, Nature.
[49] M. Rashidi,et al. Binary atomic silicon logic , 2017, Nature Electronics.
[50] Francky Catthoor,et al. Doping-Free Complementary Logic Gates Enabled by Two-Dimensional Polarity-Controllable Transistors. , 2018, ACS nano.
[51] Youn Sang Kim,et al. Direct electron injection into an oxide insulator using a cathode buffer layer , 2015, Nature Communications.
[52] R. Bowler,et al. Multi-element logic gates for trapped-ion qubits , 2015, Nature.
[53] Meng He,et al. Artificial Synapses Emulated by an Electrolyte‐Gated Tungsten‐Oxide Transistor , 2018, Advanced materials.
[54] E. Fortunato,et al. Oxide Semiconductor Thin‐Film Transistors: A Review of Recent Advances , 2012, Advanced materials.
[55] Youn Sang Kim,et al. Investigation of Vertical Current Phenomena in the Insulator/Oxide Semiconductor Heterojunction Using XPS Analysis and an Atmospheric-Pressure Plasma Treatment System , 2019, ACS Applied Electronic Materials.
[56] Yu Huang,et al. Vertically stacked multi-heterostructures of layered materials for logic transistors and complementary inverters , 2012, Nature materials.