Publications Lars Kloo

The latest publications available at KTH Publication Data Base DiVA

[2]
W. Yang et al., "Carrier Dynamics of Dye Sensitized-TiO2 in Contact with Different Cobalt Complexes in the Presence of Tri(p-anisyl)amine Intermediates," The Journal of Physical Chemistry C, vol. 122, no. 26, pp. 14345-14354, 2018.
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[7]
U. B. Cappel et al., "Electronic Structure Characterization of Cross-Linked Sulfur Polymers," ChemPhysChem, vol. 19, no. 9, pp. 1041-1047, 2018.
[8]
D. Phuyal et al., "Electronic Structure of Two-Dimensional Lead(II) Iodide Perovskites : An Experimental and Theoretical Study," Chemistry of Materials, vol. 30, no. 15, pp. 4959-4967, 2018.
[9]
J. Gao et al., "Light-Induced Interfacial Dynamics Dramatically Improve the Photocurrent in Dye-Sensitized Solar Cells : An Electrolyte Effect," ACS Applied Materials and Interfaces, vol. 10, no. 31, pp. 26241-26247, 2018.
[12]
L. Tian et al., "Solid state p-type dye sensitized NiO-dye-TiO2 core-shell solar cells," Chemical Communications, vol. 54, no. 30, pp. 3739-3742, 2018.
[16]
[17]
C. Chen et al., "Cu(II) Complexes as p-Type Dopants in Efficient Perovskite Solar Cells," ACS ENERGY LETTERS, vol. 2, no. 2, pp. 497-503, 2017.
[22]
Z. Shen et al., "High performance solid-state dye-sensitized solar cells based on organic blue-colored dyes," Journal of Materials Chemistry A, vol. 5, no. 3, pp. 1242-1247, 2017.
[24]
M. Safdari et al., "Impact of synthetic routes on the structural and physical properties of butyl-1,4-diammonium lead iodide semiconductors," Journal of Materials Chemistry A, vol. 5, no. 23, pp. 11730-11738, 2017.
[26]
X. Li et al., "Molecular engineering of D-A-pi-A sensitizers for highly efficient solid-state dye-sensitized solar cells," Journal of Materials Chemistry A, vol. 5, no. 7, pp. 3157-3166, 2017.
[28]
P. Liu et al., "Novel and Stable D-A-π-A Dyes for Efficient Solid-state Dye-sensitized Solar Cells," ACS Omega, vol. 2, no. 5, pp. 1812-1819, 2017.
[29]
M. Bhagavathiachari et al., "Polymer-doped molten salt mixtures as a new concept for electrolyte systems in dye-sensitized solar cells," ACS Omega, vol. 2, no. 10, pp. 6570-6575, 2017.
[31]
S. Chen et al., "Study of Arylamine-Substituted Porphyrins as Hole-Transporting Materials in High-Performance Perovskite Solar Cells," ACS Applied Materials and Interfaces, vol. 9, no. 15, pp. 13231-13239, 2017.
[34]
E. Sheibani et al., "A study of oligothiophene-acceptor dyes in p-type dye-sensitized solar cells," RSC Advances, vol. 6, no. 22, pp. 18165-18177, 2016.
[37]
J. Halldin Stenlid et al., "Aqueous Solvation and Surface Oxidation of the Cu7 Nanoparticle : Insights from Theoretical Modeling," The Journal of Physical Chemistry C, vol. 120, no. 3, pp. 1977-1988, 2016.
[38]
Y.-L. Wang et al., "Atomistic Insight into Tetraalkylphosphonium Bis(oxalato)borate Ionic Liquid/Water Mixtures. 2. Volumetric and Dynamic Properties," Journal of Physical Chemistry B, vol. 120, no. 30, pp. 7446-7455, 2016.
[39]
J. Cong et al., "Bis(1,1-bis(2-pyridyl)ethane)copper(i/II) as an efficient redox couple for liquid dye-sensitized solar cells," Journal of Materials Chemistry A, vol. 4, no. 38, pp. 14550-14554, 2016.
[41]
A. M. El-Zohry et al., "Ferrocene as a rapid charge regenerator in dye-sensitized solar cells," Dyes and pigments, vol. 132, pp. 360-368, 2016.
[44]
M. Safdari et al., "Investigation of cobalt redox mediators and effects of TiO2 film topology in dye-sensitized solar cells," RSC Advances, vol. 6, no. 61, pp. 56580-56588, 2016.
[45]
M. Safdari et al., "Layered 2D alkyldiammonium lead iodide perovskites : synthesis, characterization, and use in solar cells," Journal of Materials Chemistry A, vol. 4, no. 40, pp. 15638-15646, 2016.
[47]
Y.-L. Wang et al., "Solvation structures of water in trihexyltetradecylphosphonium-orthoborate ionic liquids," Journal of Chemical Physics, vol. 145, no. 6, 2016.
[50]
M. Cheng et al., "A novel phenoxazine-based hole transport material for efficient perovskite solar cell," Journal of Energy Challenges and Mechanics, vol. 24, no. 6, pp. 698-706, 2015.
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