Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics

Research article (ACS Applied Materials & Interfaces, 2022) · cited 42× · AI/ML
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Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics

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Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics is a scholarly article[1].

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APA 4ort.xyz Knowledge Graph. (2026). Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics. Retrieved May 24, 2026, from https://4ort.xyz/entity/artificial-tactile-recognition-enabled-by-flexible-low-voltage-organic-transistors-and-low-power-synaptic-electronics
MLA “Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics.” 4ort.xyz Knowledge Graph, 4ort.xyz, 24 May. 2026, https://4ort.xyz/entity/artificial-tactile-recognition-enabled-by-flexible-low-voltage-organic-transistors-and-low-power-synaptic-electronics.
BibTeX @misc{4ortxyz_artificial-tactile-recognition-enabled-by-flexible-low-voltage-organic-transistors-and-low-power-synaptic-electronics_2026, author = {{4ort.xyz Knowledge Graph}}, title = {{Artificial Tactile Recognition Enabled by Flexible Low-Voltage Organic Transistors and Low-Power Synaptic Electronics}}, year = {2026}, url = {https://4ort.xyz/entity/artificial-tactile-recognition-enabled-by-flexible-low-voltage-organic-transistors-and-low-power-synaptic-electronics}, note = {Accessed: 2026-05-24}}
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