about
Differentiating Grotthuss proton conduction mechanisms by nuclear magnetic resonance spectroscopic analysis of frozen samples.Rapid proton conduction through unfreezable and bound water in a wholly aromatic pore-filling electrolyte membrane.Regulation of cell adhesion using a signal-responsive membrane substrate.Effect of length of molecular recognition moiety on enzymatic activity switching.Development of a molecular recognition ion gating membrane and estimation of its pore size control.Non-humidified proton conduction between a Lewis acid-base pair.Development of a regenerable cell culture system that senses and releases dead cells.Control of Target Molecular Recognition in a Small Pore Space with Biomolecule-Recognition Gating Membrane.Immobilization of hydroquinone through a spacer to polymer grafted on carbon black for a high-surface-area biofuel cell electrode.Nonlinear self-excited oscillation of a synthetic ion-channel-inspired membrane.Controlled release of model drugs through a molecular recognition ion gating membrane in response to a specific ion signal.Study of SPG membrane emulsification processes for the preparation of monodisperse core-shell microcapsules.Graphene Oxide Sheathed ZIF-8 Microcrystals: Engineered Precursors of Nitrogen-Doped Porous Carbon for Efficient Oxygen Reduction Reaction (ORR) Electrocatalysis.Ether cleavage-triggered degradation of benzyl alkylammonium cations for polyethersulfone anion exchange membranes.Beneficial Role of Copper in the Enhancement of Durability of Ordered Intermetallic PtFeCu Catalyst for Electrocatalytic Oxygen Reduction.Effect of a Sulfonated Benzothiadiazole Unit on the Morphology and Ion Conduction Behavior of a Polymer Electrolyte MembraneRefined Structural Analysis of Connected Platinum–Iron Nanoparticle Catalysts with Enhanced Oxygen Reduction ActivityCorrelation between the carbon structures and their tolerance to carbon corrosion as catalyst supports for polymer electrolyte fuel cellsDevelopment of a novel durable aromatic anion exchange membrane using a thermally convertible precursorCorrelation between Activity and Molecular Structure around the Active Center of Cytochrome P450cam ConjugatesQuantum chemical approach for highly durable anion exchange groups in solid-state alkaline fuel cellsAniosotropically Organized LDH on PVDF: A Geometrically Templated Electrospun Substrate for Advanced Anion Conducting MembranesMicrostructural pore analysis of the catalyst layer in a polymer electrolyte membrane fuel cell: A combination of resin pore-filling and FIB/SEMZIF-8 membranes prepared at miscible and immiscible liquid–liquid interfacesAmino acid inspired microscale organization of metallic nanocrystalsMolecular recognition moiety and its target biomolecule interact in switching enzyme activityBiomolecule-Recognition Gating Membrane Using Biomolecular Cross-Linking and Polymer Phase TransitionPhysical Re-Examination of Parameters on a Molecular Collisions-Based Diffusion Model for Diffusivity Prediction in PolymersOptimum preparation conditions of amidoxime hollow fiber synthesized by radiation-induced graftingFlow-Based Immunosensing Using the Pore Channel of a Porous Membrane As a Reaction Space
P50
Q30848196-20CD7EA1-0F85-4283-9C40-CE11462A8615Q39994624-AB0CFA31-DEB1-4A87-AAAE-7F5E3E2EF004Q40423049-16DEE3FC-E983-483A-85D8-1BD2E28F8571Q43511714-A5790BA7-6893-467D-A7E4-9A61BEC7D1BDQ44041280-3429819E-E7D0-4A7E-BF5B-E1EE4F558CA9Q46120043-BD7859E0-6605-4AA6-B407-C304B34B6B24Q46442022-8B7C2120-1483-4B60-AC71-703015769684Q47217060-B68D17A6-23BC-4A02-B060-750B5107AFB7Q50940382-C4DD1FDC-1B8E-4593-9E85-1AF6D4469F73Q51158630-821D9600-C405-41FF-AAD9-093FCE729DD8Q51235091-07153F08-D09D-475F-8EA0-49781382F852Q51834832-7A0536F5-7320-4D32-9190-FABA41FD2B22Q52839184-03252AE3-FF88-4060-AEEA-F26CAEB3C080Q52875708-5DC46AE8-B346-47CE-B9BC-FD5422BB3C5AQ54024394-CDD1CD05-4914-4CB7-A9D3-B27336AC86C1Q57610569-F80EDF41-4746-474F-AAD9-60BC64AADD86Q57610572-4F52C7D1-9619-4ADF-8D97-AF02724855C6Q57610573-D7E10F54-A70E-4A42-87D9-D2D6CB134E14Q57610576-894661AA-918E-4575-B7BE-49CBEED3C119Q57610606-D06A0112-0F9A-4BE5-B9DC-90963110CEF4Q57610621-D6CCEA08-91D9-4CF6-B8F3-C4E5D4C1CC2DQ57610624-5CC609E3-0547-49F2-9E43-BF779AE0A60BQ57610635-50836DE6-D40C-4CED-852D-C9CA74F284E7Q57610637-D49E2D0A-34AD-4BC2-96CA-C7E6473352ABQ57610639-58DE7363-4959-4947-A88E-610AEEC959BAQ57610683-AD13A84F-E5E0-473D-8A02-0D220E3339EEQ57610697-E80870D8-5DEE-4629-AEA1-B914CF138BDDQ57610702-0FC25E03-7039-45F0-96E2-DBF234C93987Q57610843-36339634-4777-44F4-82DD-0C3461114E74Q90710193-26B1C88F-ED43-47CE-94F3-3713C9FED54D
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Takeo Yamaguchi
@ast
Takeo Yamaguchi
@en
Takeo Yamaguchi
@es
Takeo Yamaguchi
@nl
Takeo Yamaguchi
@sl
type
label
Takeo Yamaguchi
@ast
Takeo Yamaguchi
@en
Takeo Yamaguchi
@es
Takeo Yamaguchi
@nl
Takeo Yamaguchi
@sl
prefLabel
Takeo Yamaguchi
@ast
Takeo Yamaguchi
@en
Takeo Yamaguchi
@es
Takeo Yamaguchi
@nl
Takeo Yamaguchi
@sl
P106
P31
P496
0000-0001-9043-4408