about
Templated dewetting: designing entirely self-organized platforms for photocatalysis.Extended self-ordering regime in hard anodization and its application to make asymmetric AAO membranes for large pitch-distance nanostructures.Stable Co-Catalyst-Free Photocatalytic H2 Evolution From Oxidized Titanium Nitride Nanopowders.Photoelectrochemical H2 Generation from Suboxide TiO2 Nanotubes: Visible-Light Absorption versus Conductivity.Enhanced Solar Water Splitting by Swift Charge Separation in Au/FeOOH Sandwiched Single-Crystalline Fe2 O3 Nanoflake Photoelectrodes.Spaced Titania Nanotube Arrays Allow the Construction of an Efficient N-Doped Hierarchical Structure for Visible-Light Harvesting.A Facile Surface Passivation of Hematite Photoanodes with Iron Titanate Cocatalyst for Enhanced Water Splitting.TiO2 nanotubes with laterally spaced ordering enable optimized hierarchical structures with significantly enhanced photocatalytic H2 generation.TiO2 Nanotubes: Nitrogen-Ion Implantation at Low Dose Provides Noble-Metal-Free Photocatalytic H2 -Evolution Activity.Strongly Enhanced Water Splitting Performance of Ta3 N5 Nanotube Photoanodes with Subnitrides.Enhanced Charge Transport in Tantalum Nitride Nanotube Photoanodes for Solar Water Splitting."Suspended" Pt nanoparticles over TiO₂ nanotubes for enhanced photocatalytic H₂ evolution.Highly Conducting Spaced TiO2 Nanotubes Enable Defined Conformal Coating with Nanocrystalline Nb2 O5 and High Performance Supercapacitor Applications.Nanoporous AuPt and AuPtAg alloy co-catalysts formed by dewetting–dealloying on an ordered TiO2 nanotube surface lead to significantly enhanced photocatalytic H2 generationPlasmon-enhanced photoelectrochemical water splitting using au nanoparticles decorated on hematite nanoflake arraysEfficient Photocatalytic H2 Evolution: Controlled Dewetting-Dealloying to Fabricate Site-Selective High-Activity Nanoporous Au Particles on Highly Ordered TiO2 Nanotube ArraysBlack Magic in Gray Titania: Noble-Metal-Free Photocatalytic H2 Evolution from Hydrogenated Anatase
P50
Q33744336-C3B17582-8431-42FC-8160-C51BFC671F2EQ45837128-341A927D-4117-4173-8E75-95F5A778CE2EQ46661045-E61B2699-11CA-40BD-9CBE-2624A5A07191Q47981911-68623332-42FC-48C4-A4CC-68F938928465Q48238926-D0B4B459-7714-4B18-8F43-60F34EDE1AF1Q49643228-2456B5E8-A597-45B2-A821-10A44F988625Q50792024-F5E4CBBB-FF71-41D1-B644-B30CA02989B0Q51142895-970F5712-3526-4184-B3D3-4A283F232561Q51521561-B297BE40-21D4-489B-90AE-329DA5EEB524Q51546459-EAB492B9-0528-49EE-8A7D-5567ABD42609Q53178526-0B0E9D66-4499-4401-9D69-BC7C659F61F0Q53503158-7FE9239C-FDF0-4B16-84A6-F34FDF0C84C7Q53666874-AFCE7430-9748-4D0A-ADDE-0ECF6B1B95F1Q60309766-F420A5F2-C063-4425-9E0F-59042FD5AB53Q86514565-DD59C515-CB0E-47B1-94BE-31CCA507E01FQ87112893-EB022420-AB98-42D2-95B9-F00F11F9EAE6Q88931710-DECE86CB-B78A-407D-BC35-F725976F2818
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Nhat Truong Nguyen
@ast
Nhat Truong Nguyen
@en
Nhat Truong Nguyen
@es
Nhat Truong Nguyen
@nl
Nhat Truong Nguyen
@sl
type
label
Nhat Truong Nguyen
@ast
Nhat Truong Nguyen
@en
Nhat Truong Nguyen
@es
Nhat Truong Nguyen
@nl
Nhat Truong Nguyen
@sl
prefLabel
Nhat Truong Nguyen
@ast
Nhat Truong Nguyen
@en
Nhat Truong Nguyen
@es
Nhat Truong Nguyen
@nl
Nhat Truong Nguyen
@sl
P1053
G-4234-2015
P106
P1153
56296851400
P31
P3829
P496
0000-0002-7651-3174
P569
2000-01-01T00:00:00Z