about
Stimuli-responsive magnetic nanoparticles for tumor-targeted bimodal imaging and photodynamic/hyperthermia combination therapy.Detection of biomolecular interaction between biotin and streptavidin on a self-assembled monolayer using magnetic nanoparticles.Creation of highly functional thin films using electrochemical nanotechnology.Synthesis of magnetic nanoparticles and their application to bioassays.Lifetime of Ionic Vacancy Created in Redox Electrode Reaction Measured by Cyclotron MHD Electrode.Cytotoxicity evaluation of magnetite (Fe3O4) nanoparticles in mouse embryonic stem cells.Effect of surface charge of magnetite nanoparticles on their internalization into breast cancer and umbilical vein endothelial cells.Magnetically induced orientation of mesochannels in mesoporous silica films at 30 tesla.Li-rich Li-Si alloy as a lithium-containing negative electrode material towards high energy lithium-ion batteries.Field Effect Transistor Biosensor Using Antigen Binding Fragment for Detecting Tumor Marker in Human Serum.Attomolar detection of influenza A virus hemagglutinin human H1 and avian H5 using glycan-blotted field effect transistor biosensor.Enantioselective crystal growth of leucine on a self-assembled monolayer with covalently attached leucine molecules.Chiral discrimination between thalidomide enantiomers using a solid surface with two-dimensional chirality.Fabrication of amino silane-coated microchip for DNA extraction from whole blood.High efficiency electrochemical immuno sensors using 3D comb electrodes.Fabrication of free-standing albumin-nanosheets having heterosurfaces.Perpendicular mesoporous Pt thin films: electrodeposition from titania nanopillars and their electrochemical properties.Preparation of human immune effector T cells containing iron-oxide nanoparticles.Synthesis of Fe3O4 nanoparticles with various sizes and magnetic properties by controlled hydrolysis.Effect of surface coverage of gold(111) electrode with cysteine on the chiral discrimination of DOPA.Enantioselectivity of redox reaction of DOPA at the gold electrode modified with a self-assembled monolayer of homocysteine.Area-selective formation of macropore array by anisotropic electrochemical etching on an n-Si(100) surface in aqueous HF solution.On-chip fuel cell: micro direct methanol fuel cell of an air-breathing, membraneless, and monolithic design.Label-free detection of Cu(II) in a human serum sample by using a prion protein-immobilized FET sensor.Toxicity of hydrogen peroxide produced by electroplated coatings to pathogenic bacteria.A Lithium-Ion Sulfur Battery Based on a Carbon-Coated Lithium-Sulfide Cathode and an Electrodeposited Silicon-Based AnodeOptimized Sn/SnSb lithium storage materialsDevelopment of a microcalorimeter array for the Diffuse-Intergalactic Oxygen-Surveyor (DIOS) missionFabrication of multi-pixel TES microcalorimeters with an electrodeposited Sn absorber and Bi absorberHigh Sensitive X-ray Microcalorimeter Using Bi–Au Microabsorber for Imaging ApplicationsPerformance analyses of TES microcalorimeters with mushroom shaped X-ray absorbers made of Sn or BiPrototype of the high sensitive X-ray microcalorimeter for X-ray imagingTES microcalorimeter development for future Japanese X-ray astronomy missionsA via hole based superconducting wiring method for enhanced X-ray image sensorsPrototype of the multi-pixel X-ray microcalorimeterMultipixel readout of TES calorimetersPresent performance of a single pixel Ti/Au bilayer TES calorimeterSulfated zirconia nanoparticles as a proton conductor for fuel cell electrodesDetection of C-Si covalent bond in CH3 adsorbate formed by chemical reaction of CH3MgBr and H:Si(111)Control of Pythium root rot on hydroponically grown cucumbers with silver-coated cloth
P50
Q31100414-5471D71E-25BD-485A-BADC-F5F287FF079BQ33207074-E9651337-380B-482C-87EF-FDFFDB364CB9Q36058553-4D9E57FC-8218-434E-8A73-B1C141C04337Q36364481-6F136B50-F4C3-4748-A3F1-FEF017E872CDQ36500475-14DDA0F6-4221-4DA3-9680-3793494277E4Q39345704-B903752C-2C09-4627-B7E0-902E2754622CQ39861718-1C34B508-2DBD-4DA6-A297-4F7229BF9FC2Q40163518-B6833FDB-582E-4EF1-A3F5-6DF458D892A5Q41869192-38D90052-C003-42FC-A764-8CFE362DCA4FQ42157790-91DCEC23-A448-4758-8E89-40A9F1590777Q42263042-7B0A7BF2-220B-491B-87F9-C77F2DC2D5CEQ44726236-0911DE4B-4BAF-4FD2-A6B2-B65D12A33E46Q44967714-9E7B5058-1FD6-4836-B0B6-D31E729A6D8FQ45233412-6370E679-1746-4B6F-ACE8-BAD4F6CB95D8Q46409967-2C983D4E-4FAF-4A14-AD4D-8EEADE4008DFQ46630570-504A6090-B3BA-4357-89AE-759C0590C896Q47625212-358C1455-EE51-46E8-A294-EE67E523FD16Q47627126-E691FA2A-9C33-4779-A74E-0210FDF4DF14Q50980015-3773F028-161E-42FB-9142-78FEEF4A2A7AQ51053286-97E5C0C4-D21A-4215-8E07-B0973FF83012Q51121417-4C3AA1A1-E6BC-42DF-BAB8-E78F344CF8B4Q51160968-7152C7D9-CF75-42FC-8FF7-CE9D94E3C29DQ51572080-F3B0252C-CEEF-4AB7-8006-6DC28CB717C2Q51802802-3E5D6AEB-61A8-44E1-B3C6-00C6FBA61684Q54128761-81533123-465B-46EC-94DC-B4C9DF3715DEQ57959542-176E2006-9288-493A-963B-3DB12EB8E425Q57965125-C25AAD5D-8C99-430A-B37D-5ADFB815A287Q58919749-2937E763-D369-46E4-A3D5-F201E6200A84Q58919751-58249DCA-FD35-4985-9578-92DD5EB17C32Q58919756-682287F8-822B-4D85-B791-6984790445A7Q58919760-37D4DCD2-F39D-42DD-AE73-8D5ECC168185Q58919766-166424E1-7B91-43CB-9555-72377BD7F253Q58919768-60FDFB75-BD02-4D55-98CA-77449036E555Q58919770-07EC52C5-C19F-4469-BFBF-93BB0A787931Q58919772-D2420DEF-4775-4CC1-9D56-24B1444F02FDQ58919783-4228E5E3-445E-4FA3-AAFD-99D2623329E9Q58919787-E394BFE8-6561-4A33-A1B8-5755C5902602Q60316114-D2E2EA03-9E28-4818-BD20-6403A302B82BQ73566212-DAA61C40-57D8-4939-9E00-5BF73BF029F1Q74179922-59E7030D-58CF-42D3-94C5-8026CE5C26D8
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Tetsuya Osaka
@ast
Tetsuya Osaka
@en
Tetsuya Osaka
@es
Tetsuya Osaka
@nl
Tetsuya Osaka
@sl
type
label
Tetsuya Osaka
@ast
Tetsuya Osaka
@en
Tetsuya Osaka
@es
Tetsuya Osaka
@nl
Tetsuya Osaka
@sl
prefLabel
Tetsuya Osaka
@ast
Tetsuya Osaka
@en
Tetsuya Osaka
@es
Tetsuya Osaka
@nl
Tetsuya Osaka
@sl
P1006
P214
P1006
P106
P1153
35412156300
P21
P214
P31
P496
0000-0001-8307-132X
P569
2000-01-01T00:00:00Z
P735
P7859
lccn-n88245208