「Development of Nanophotonic Bio/Chemical Sensors Based on Light-Matter Interactions」の関連論文
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Development of flexible sensors inspired by bionic structures and application to physical activity monitoring (本文)
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生体計測応用システムのための有機光ダイオード
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宇宙線ミュオンを用いた磁場測定システムの実用性に関する研究
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Modern Microscopic Approaches to Astrocytes
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Octopus, a computational framework for exploring light-driven phenomena and quantum dynamics in extended and finite systems
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Mass-Fabrication Scheme of Highly Sensitive Wireless Electrodeless MEMS QCM Biosensor with Antennas on Inner Walls of Microchannel
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Theoretical studies on effects of protein-ligand/protein-protein interactions on protein functions
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Biofunctional Chemistry Research Section -
Imaging Voltage with Microbial Rhodopsins
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In silico Statistical Mechanics of Protein Conformational Landscape
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Advanced Control of Reaction Selectivity via High-speed Micromixing Flow Processes : A Breakthrough Approach to Protein Functionalization
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Roadmap on photonic, electronic and atomic collision physics: I. Light–matter interaction
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Study of mechanical vibration in single-stranded DNA-wrapped single-walled carbon nanotubes
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Creation of supramolecular biomembrane by the bottom-up self-assembly: Where material science meets biophysics
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Laser-induced carbonization and graphitization of a transparent elastomer (本文)
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熱的/化学的に堅牢性な化学センサに関する基礎的研究
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Functional Materials Science and Engineering Research Section -
Studies on Nanostructure Formation via Self-assembly and Applications to Antireflective Coatings and Cell Culture Substrates
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Formation of Pt-rich AuPt Alloy Frame Nanorods with Semi-spherical End Caps Using Au Nanorods as Sacrificial Templates
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Development of Real-time Visual Observation and Spectrophotometric Measurement System for High-dose Gamma-ray Irradiation Effect
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Recent Advances in Carbon Dioxide Separation Membranes: A Review
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Development and Applications of Tip-Scan High-Speed Atomic Force Microscopy Combined with Substrate Stretching Device
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X-ray-Excited Optical Luminescence Imaging for On-Site Analysis of Alumina Scale
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Biomolecular nanotechnology-based approaches to investigate nucleic acid interactions
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Quantitative evaluation of human skin surface characteristics based on image processing (本文)
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Highly stretchable sensing array for independent detection of pressure and strain exploiting structural and resistive control
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Biofunctional Chemistry Research Section -
Studies on Electro-Mechano-Optical Transducer for Signal Detection of Nuclear Magnetic Resonance
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Optical control of cellular signaling pathways using animal opsins
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Potential-modulated electrochemiluminescence of a tris(2,2′-bipyridine) ruthenium(II) / lidocaine system under 430 kHz ultrasound irradiation
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Structural Energy Bioscience Research Section -
Structural Energy Bioscience Research Section -
ワイドバンドギャップ酸化物熱電変換材料の性能向上への指針
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Development of a Robotic Palpation Sensor System for Prostate Cancer Screening
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Development of fast-dissociating recombinant antibodies for high-density multiplexed IRIS super-resolution microscopy
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Application of boron doped diamond electrodes to electrochemical gas sensors (本文)
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The application of video and Image recognition technology with neural network to conservation biology
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Material Evaluation of Cellulosic Materials by Terahertz Time-domain Spectroscopy
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Improvement of acid resistance of Zn-doped dentin by newly generated chemical bonds
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Exploration and Development of Novel Functional MoS₂-based Nanomaterials [an abstract of entire text]
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Molecular Nanotechnology Research Section -
Enhanced luminescence efficiency in Eu-doped GaN superlattice structures revealed by terahertz emission spectroscopy
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Optimal deformation procedure for hybrid adaptive x-ray mirror based on mechanical and piezo-driven bending system
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Ultrafast Optomagnonics in Ferrimagnetic Multi-Sublattice Garnets
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Molecular Nanotechnology Research Section -
Research Activities of JWRI
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次世代吸着剤の表面形状及び表面エネルギーに関する研究
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Micro-architectures of Quantum Information Processor
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Determination of complex refractive index using prism composed of absorbing medium
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Nanoscale determination of interatomic distance by ptychography-EXAFS method using advanced Kirkpatrick-Baez mirror focusing optics