Manufacturing Processes of Implantable Microelectrode Array for In Vivo Neural Electrophysiological Recordings and Stimulation: A State-Of-the-Art Review [0.03%]
植入式微电极阵列的加工工艺用于在体神经电信号记录和刺激:现状及展望综述
Dongyang Yi,Yao Yao,Yi Wang et al.
Dongyang Yi et al.
Electrophysiological recording and stimulation of neuron activities are important for us to understand the function and dysfunction of the nervous system. To record/stimulate neuron activities as voltage fluctuation extracellularly, microel...
Physical Modification of Hybrid Hydrogels to Fabricate Full-Scale Construct Using Three-Dimensional Bio-Printing Process [0.03%]
通过三维生物打印过程对混合水凝胶进行物理改性以制作全尺寸结构物
Cartwright Nelson,Slesha Tuladhar,Ahasan Habib
Cartwright Nelson
Bioprinting for regenerative medicine has been gaining a lot of popularity in today's world. Despite being one of the rigorously studied fields, there are still several challenges yet to be solved. Geometric fidelity and mechanical complexi...
A Roadmap to Fabricate Geometrically Accurate Three-Dimensional Scaffolds CO-Printed by Natural and Synthetic Polymers [0.03%]
天然和合成聚合物共打印的几何精准三维支架制造路线图
Connor Quigley,Slesha Tuladhar,Ahasan Habib
Connor Quigley
Three-dimensional bioprinting is a promising field in regenerating patient-specific tissues and organs due to its inherent capability of releasing biocompatible materials encapsulating living cells in a predefined location. Due to the diver...
Laser Sharpening of Carbon Fiber Microelectrode Arrays for Brain Recording [0.03%]
用于脑记录的碳纤维微电极阵列的激光修整技术
Tianshu Dong,Lei Chen,Albert Shih
Tianshu Dong
Microwire microelectrode arrays (MEAs) are implanted in the brain for recording neuron activities to study the brain function. Among various microwire materials, carbon fiber stands out due to its small diameter (5-10 μm), relatively high ...
Method for Attaining Dimensionally Accurate Conditions for High-Resolution Three-Dimensional Printing Ceramic Composite Structures Using MicroCLIP Process [0.03%]
一种用于高分辨率三维打印陶瓷基复合结构的MicroCLIP工艺尺寸精度控制方法
Henry Oliver T Ware,Cheng Sun
Henry Oliver T Ware
Continuous liquid interface production (CLIP) utilizes projection ultraviolet (UV) light and oxygen inhibition to transform the sequential layered three-dimensional (3D) manufacturing into a continuous fabrication flow with tremendous impro...
Jingang Li,Linhan Lin,Yuji Inoue et al.
Jingang Li et al.
Opto-thermophoretic manipulation is an emerging field, which exploits the thermophoretic migration of particles and colloidal species under a light-controlled temperature gradient field. The entropically favorable photon-phonon conversion a...