Creating Gold Nanoparticle Dimers with nanogap by DNA Origami Sacrificial Method
To realize a single-molecule detection device for surface-enhanced Raman scattering measurements (SERS), a new approach […]
To realize a single-molecule detection device for surface-enhanced Raman scattering measurements (SERS), a new approach […]
DNA nanotechnology is expected to play an important role to bridge the gap between the nanoscale components and the mic […]
Inspection light of retinal observation is warped by distortion of eyeball. So deformable mirrors (DMs) to correct wave […]
To clarify the characteristic of SWCNT including its variability, high yield bridged assembly method of single SWCNT was […]
In this research, we explore on-chip size-separation process of DNA origami nanostructures and utilize it into rapid mol […]
Torsion mirror is a scanning device that scans a laser beam by reflecting it. The device is used for various applicatio […]
DNA origami nanotubes are utilized as structural platforms for the fabrication of various micro/nanosystems for drug del […]
DNA origami is a method to create nanoscale structures by DNA. Toward the realization of large scale 2D-array of DNA ori […]
Deformable mirror is used for compensating aberrations caused by eye distortion. We propose and develop new type of DM, […]
Body-on-a-Chip have emerged as a promising drug screening technologies. We fabricated a new microfluidic device for Body […]
A microelectromechanical system (MEMS) is being developed for controlled fracture of a silicon micro-beam, a promising m […]
半導体微細加工技術を用いて作製した単結晶シリコンMEMSデバイスの梁構造に(111)面でへき開破壊を用いて数μm角の均一でかつ原子レベルで平滑なナノギャップ構造を作製する技術を確立,電気伝導特性を測定してナノギャップ間の電子放出を確認した. […]