Seulgi So
Seulgi So
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TitelZitiert vonJahr
Ultrafast Growth of Highly Ordered Anodic TiO2 Nanotubes in Lactic Acid Electrolytes
S So, K Lee, P Schmuki
Journal of the American Chemical Society 134 (28), 11316-11318, 2012
Hierarchical DSSC structures based on “single walled” TiO 2 nanotube arrays reach a back-side illumination solar light conversion efficiency of 8%
S So, I Hwang, P Schmuki
Energy & Environmental Science 8 (3), 849-854, 2015
Aligned metal oxide nanotube arrays: key-aspects of anodic TiO 2 nanotube formation and properties
F Riboni, NT Nguyen, S So, P Schmuki
Nanoscale Horizons 1 (6), 445-466, 2016
Water annealing and other low temperature treatments of anodic TiO2 nanotubes: A comparison of properties and efficiencies in dye sensitized solar cells and for water splitting
N Liu, SP Albu, K Lee, S So, P Schmuki
Electrochimica acta 82, 98-102, 2012
Enhanced performance of dye-sensitized solar cells based on TiO 2 nanotube membranes using an optimized annealing profile
F Mohammadpour, M Moradi, K Lee, G Cha, S So, A Kahnt, DM Guldi, ...
Chemical Communications 51 (9), 1631-1634, 2015
High‐Aspect‐Ratio Dye‐Sensitized Solar Cells Based on Robust, Fast‐Growing TiO2 Nanotubes
S So, K Lee, P Schmuki
Chemistry–A European Journal 19 (9), 2966-2970, 2013
Fast electron transport and high surface area: potential application of porous anatase single crystals in solar cells
S So, P Schmuki
Angewandte Chemie International Edition 52 (31), 7933-7935, 2013
Bipolar anodization enables the fabrication of controlled arrays of TiO 2 nanotube gradients
G Loget, S So, R Hahn, P Schmuki
Journal of Materials Chemistry A 2 (42), 17740-17745, 2014
Ru‐doped TiO2 nanotubes: Improved performance in dye‐sensitized solar cells
S So, K Lee, P Schmuki
physica status solidi (RRL)–Rapid Research Letters 6 (4), 169-171, 2012
Nitrates: A new class of electrolytes for the rapid anodic growth of self‐ordered oxide nanopore layers on Ti and Ta
W Wei, R Kirchgeorg, K Lee, S So, P Schmuki
physica status solidi (RRL)–Rapid Research Letters 5 (10‐11), 394-396, 2011
High-temperature annealing of TiO2 nanotube membranes for efficient dye-sensitized solar cells
F Mohammadpour, M Altomare, S So, K Lee, M Mokhtar, A Alshehri, ...
Semiconductor Science and Technology 31 (1), 014010, 2015
NH 3 treatment of TiO 2 nanotubes: from N-doping to semimetallic conductivity
SA Al-Thabaiti, R Hahn, N Liu, R Kirchgeorg, S So, P Schmuki, ...
Chemical Communications 50 (59), 7960-7963, 2014
Comparison of anodic TiO2‐nanotube membranes used for frontside‐illuminated dye‐sensitized solar cells
F Mohammadpour, M Moradi, G Cha, S So, K Lee, M Altomare, P Schmuki
ChemElectroChem 2 (2), 204-207, 2015
The double-walled nature of TiO2 nanotubes and formation of tube-in-tube structures–a characterization of different tube morphologies
S So, F Riboni, I Hwang, D Paul, J Hammond, O Tomanec, R Zboril, ...
Electrochimica Acta 231, 721-731, 2017
Single‐Walled TiO2 Nanotubes: Enhanced Carrier‐Transport Properties by TiCl4 Treatment
I Hwang, S So, M Mokhtar, A Alshehri, SA Al‐Thabaiti, A Mazare, ...
Chemistry–A European Journal 21 (25), 9204-9208, 2015
Conical-shaped titania nanotubes for optimized light management in DSSCs reach back-side illumination efficiencies> 8%
S So, A Kriesch, U Peschel, P Schmuki
Journal of Materials Chemistry A 3 (24), 12603-12608, 2015
Robust free standing flow-through TiO2 nanotube membranes of pure anatase
S So, I Hwang, F Riboni, JE Yoo, P Schmuki
Electrochemistry Communications 71, 73-78, 2016
Inducing a Nanotwinned Grain Structure within the TiO2 Nanotubes Provides Enhanced Electron Transport and DSSC Efficiencies >10%
S So, I Hwang, JE Yoo, S Mohajernia, M Mačković, E Spiecker, G Cha, ...
Advanced Energy Materials 8 (33), 1800981, 2018
Open top anodic Ta3N5 nanotubes for higher solar water splitting efficiency
S Grigorescu, S So, JE Yoo, A Mazare, R Hahn, P Schmuki
Electrochimica Acta 182, 803-808, 2015
Synthesis of free-standing Ta 3 N 5 nanotube membranes and flow-through visible light photocatalytic applications
L Wang, A Mazare, I Hwang, S So, NT Nguyen, P Schmuki
Chemical Communications 53 (86), 11763-11766, 2017
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