坚果海外加速器_坚果VP加速器-nuts坚果国外加速2 页

坚果海外加速器_坚果VP加速器-nuts坚果国外加速2 页

坚果海外加速器_坚果VP加速器-nuts坚果国外加速2 页

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We developed DNA origami in 2006. The process has the potential to influence a variety of applications from drug delivery to the construction of nanoscale computers.

Paul W. Rothemund
Research Professor of Bioengineering, Computing and Mathematical Sciences, and Computation and Neural Systems

Read about the Rothemund Group’s research here

Paul W. Rothemund

坚果海外加速器_坚果VP加速器-nuts坚果国外加速2 页

The Kavli Nanoscience Institute at Caltech is an intellectual hub and facilitator of nanoscale research at the frontiers of electronics, photonics, quantum matter and technology, medical engineering, bioengineering, and sustainability.

Our multi-user laboratories and cleanrooms are located in the Steele Laboratory at the California Institute of Technology in Pasadena, California. Specially designed for nanostructure synthesis, fabrication, and characterization, our facilities are available to researchers within Caltech and across academia, government, and industry.

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I build devices based on the fundamentals of light–matter interaction. They are all fabricated in the KNI. All this work would be impossible without it. I also bounce ideas off of KNI faculty - they are as good as it gets.

Andrei Faraon
2016 KNI-Wheatley Scholar | Professor of Applied Physics & Electrical Engineering

如何检测伕理ip是否高匿-变极ip修改器:2021-6-15 · 如果使用的高级匿名伕理IP,网页显示的内容就只有伕理IP的地址了,将自己真是的IP 完全隐藏。 相关资讯 如何保护手机安全? 手机安全有多少人重视呢?如今就连公共的手机充电桩都可能有网络病毒,照片也可能骗过人脸识别系统进行支付 ...

坚果海外加速器_坚果VP加速器-nuts坚果国外加速2 页

Julia R. Greer
高匿名ip伕理
Ruben F. and Donna Mettler Professor of Materials Science, Mechanics and Medical Engineering
Fletcher Jones Foundation Director of the Kavli Nanoscience Institute

Greer’s research focuses on creating and characterizing classes of materials with multi-scale microstructural hierarchy, which combine three-dimensional (3D) architectures with nanoscale-induced material properties. Her group develops fabrication and syntheses of micro- and nano-architected materials using 3D lithography, nanofabrication, and additive manufacturing (AM) techniques, and investigate – among others - their mechanical, biochemical, electrochemical, electromechanical, and thermal properties as a function of architecture, constituent materials, and microstructural detail. We strive to uncover the synergy between the internal atomic-level microstructure and the nano-sized external dimensionality, where competing material- and structure-induced size effects drive overall response and govern these properties. Specific topics include chemical and biological devices, ultra-lightweight energy storage systems, damage-tolerant fabrics, additive manufacturing, shape memory polymers, hydrogels, and smart, multi-functional materials.

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