Synthetic neuronal circuits: Optically active semiconductor microtubes as remotely accessible sensors for action potentials

机译：合成神经元电路：光学有源半导体微管，可作为动作电位的远程传感器

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In this work an advanced method of optical readout of action-potentials using optically active semiconductor microtubes (MTs) as resonators and potential tool for optogenetic circuits and 3D environment is presented. The microtubes are fabricated using a well-established method of lattice mismatched layers. GaAs quantum wells (QW) embedded in the multilayers act as optically active sensors for action potentials.

机译：在这项工作中，提出了一种先进的光学读取动作电位的方法，该方法使用光学有源半导体微管（MTs）作为谐振器和用于光遗传学电路和3D环境的电位工具。使用成熟的晶格失配层方法制造微管。嵌入多层中的GaAs量子阱（QW）充当用于动作电位的光学有源传感器。

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《International IEEE/EMBS Conference on Neural Engineering》|2015年|514-516|共3页
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Koitmae Aune; Harberts Jann; Loers Gabriele; Muller Manuel; Sonnenberg David; Heyn Christian; Hansen Wolfgang; Blick Robert H.;
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1. Approaching Integrated Hybrid Neural Circuits: Axon Guiding on Optically Active Semiconductor Microtube Arrays [J] . Aune Koitm?e, Jann Harberts, Gabriele Loers, Advanced materials interfaces . 2016,第24期

机译：接近集成混合神经电路：轴突在光学有源半导体微管阵列上的指导。
2. Approaching Integrated Hybrid Neural Circuits: Axon Guiding on Optically Active Semiconductor Microtube Arrays [J] . Aune Koitm?e, Jann Harberts, Gabriele Loers, Advanced materials interfaces . 2016,第24期

机译：接近集成混合神经电路：在光学活性半导体MicroTube阵列上引导轴突
3. The Efficacy, Feasibility And Acceptability Of A Remotely Accessible Use Of CIRCuiTS, A Computerized Cognitive Remediation Therapy Program For Schizophrenia: A Pilot Study [J] . Davide Palumbo, Armida Mucci, Giulia Maria Giordano, Neuropsychiatric Disease and Treatment . 2019,第1期

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4. Synthetic neuronal circuits: Optically active semiconductor microtubes as remotely accessible sensors for action potentials [C] . Koitmae Aune, Harberts Jann, Loers Gabriele, International IEEE/EMBS Conference on Neural Engineering . 2015

机译：合成神经元电路：光学活性半导体微管，作为用于动作电位的远程可访问传感器
5. Active microdisk resonant devices and semiconductor optical equalizers as building blocks for future photonic circuitry. [D] . Djordjev, Kostadin Dimitrov. 2002

机译：有源微盘谐振设备和半导体光学均衡器是未来光子电路的基础。
6. Toward Intelligent Synthetic Neural Circuits: Directing and Accelerating Neuron Cell Growth by Self-Rolled-Up Silicon Nitride Microtube Array [O] . Paul Froeter, ∇, Yu Huang, -1

机译：迈向智能合成神经电路：通过自卷起的氮化硅微管阵列指导和加速神经元细胞的生长
7. Optical Microresonators: Approaching Integrated Hybrid Neural Circuits: Axon Guiding on Optically Active Semiconductor Microtube Arrays (Adv. Mater. Interfaces 24/2016) [O] . Aune Koitmäe, Jann Harberts, Gabriele Loers, 2016

机译：光学微生物：接近集成的混合神经电路：光学活性半导体Microtube阵列上引导轴轴（ADV。母体。接口24/2016）
8. Optically Controlled PMOS (P- Metal Oxide Semiconductors) Circuits [R] . Kosonocky, W. F. 1972

机译：光控pmOs（p-金属氧化物半导体）电路

Synthetic neuronal circuits: Optically active semiconductor microtubes as remotely accessible sensors for action potentials

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