Correction to: A microfluidic platform for continuous monitoring of dopamine homeostasis in dopaminergic cells [0.03%]
Correction to:“一种用于连续监测多巴胺能细胞中多巴胺稳态的微流控平台”
Yue Yu,Richard P S de Campos,Seolim Hong et al.
Yue Yu et al.
[This corrects the article DOI: 10.1038/s41378-019-0049-2.].
Published Erratum
Microsystems & nanoengineering. 2019 Apr 22:5:19. DOI:10.1038/s41378-019-0058-1 2019
Erratum: Functional imaging of neuron-astrocyte interactions in a compartmentalized microfluidic device [0.03%]
erratum:微流控装置中的神经元-星形胶质细胞相互作用的功能影像学研究
Yandong Gao,Joey Broussard,Amranul Haque et al.
Yandong Gao et al.
[This corrects the article DOI: 10.1038/micronano.2015.45.].
Published Erratum
Microsystems & nanoengineering. 2016 Mar 24:2:16014. DOI:10.1038/micronano.2016.14 2016
Three dimensional printing of metamaterial embedded geometrical optics (MEGO) [0.03%]
用于超材料嵌入式几何光学器件的三维打印技术
Aydin Sadeqi,Hojatollah Rezaei Nejad,Rachel E Owyeung et al.
Aydin Sadeqi et al.
Three-dimensional printers have revolutionized many scientific fields with its low-cost, accessibility and ease of printing. In this paper, we show how stereolithography (SLA) based 3D printers can enable realization of innovative 3D optica...
Machine learning metrology of cell confinement in melt electrowritten three-dimensional biomaterial substrates [0.03%]
基于机器学习的熔融电写三维生物材料基质中细胞限制测量学研究
Filippos Tourlomousis,Chao Jia,Thrasyvoulos Karydis et al.
Filippos Tourlomousis et al.
Tuning cell shape by altering the biophysical properties of biomaterial substrates on which cells operate would provide a potential shape-driven pathway to control cell phenotype. However, there is an unexplored dimensional scale window of ...
Alexander Stange,Matthias Imboden,Josh Javor et al.
Alexander Stange et al.
The Casimir Effect is a physical manifestation of quantum fluctuations of the electromagnetic vacuum. When two metal plates are placed close together, typically much less than a micron, the long wavelength modes between them are frozen out,...
On-chip manufacturing of synthetic proteins for point-of-care therapeutics [0.03%]
用于现场护理治疗的合成蛋白质芯片内制造技术
Travis W Murphy,Jiayuan Sheng,Lynette B Naler et al.
Travis W Murphy et al.
Therapeutic proteins have recently received increasing attention because of their clinical potential. Currently, most therapeutic proteins are produced on a large scale using various cell culture systems. However, storing and transporting t...
Scalable fabrication of sub-10 nm polymer nanopores for DNA analysis [0.03%]
用于DNA分析的亚10纳米聚合物纳米孔的大规模制备技术
Junseo Choi,Charles C Lee,Sunggook Park
Junseo Choi
We present the first fabrication of sub-10 nm nanopores in freestanding polymer membranes via a simple, cost-effective, high-throughput but deterministic fabrication method. Nanopores in the range of 10 nm were initially produced via a sing...
Ion beam etching redeposition for 3D multimaterial nanostructure manufacturing [0.03%]
离子束蚀刻重新沉积在三维多材料纳米结构制造中的应用研究
B X E Desbiolles,A Bertsch,P Renaud
B X E Desbiolles
A novel fabrication method based on the local sputtering of photoresist sidewalls during ion beam etching is presented. This method allows for the manufacture of three-dimensional multimaterial nanostructures at the wafer scale in only four...
A microfluidic platform for continuous monitoring of dopamine homeostasis in dopaminergic cells [0.03%]
一种用于连续监测多巴胺能细胞中多巴胺稳态的微流体平台
Yue Yu,Richard P S de Campos,Seolim Hong et al.
Yue Yu et al.
Homeostasis of dopamine, a classical neurotransmitter, is a key indicator of neuronal health. Dysfunction in the regulation of dopamine is implicated in a long list of neurological disorders, including addiction, depression, and neurodegene...
Stretchable, self-healing, transient macromolecular elastomeric gel for wearable electronics [0.03%]
用于可穿戴电子产品的可拉伸、自愈和瞬态的高分子弹性凝胶
Mingming Hao,Lianhui Li,Shuqi Wang et al.
Mingming Hao et al.
Flexible and stretchable electronics are emerging in mainstream technologies and represent promising directions for future lifestyles. Multifunctional stretchable materials with a self-healing ability to resist mechanical damage are highly ...