J
Jukka T. Tanskanen
Researcher at University of Eastern Finland
Publications - 31
Citations - 1140
Jukka T. Tanskanen is an academic researcher from University of Eastern Finland. The author has contributed to research in topics: Atomic layer deposition & Thin film. The author has an hindex of 18, co-authored 31 publications receiving 1001 citations. Previous affiliations of Jukka T. Tanskanen include Stanford University.
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Journal ArticleDOI
Selective metal deposition at graphene line defects by atomic layer deposition
Kwanpyo Kim,Kwanpyo Kim,Han-Bo-Ram Lee,Han-Bo-Ram Lee,Richard W. Johnson,Jukka T. Tanskanen,Jukka T. Tanskanen,Nan Liu,Myung-Gil Kim,Myung-Gil Kim,Changhyun Pang,Changhyun Pang,Chiyui Ahn,Stacey F. Bent,Zhenan Bao +14 more
TL;DR: The selective functionalization of graphene defect sites, together with the nanowire morphology of deposited Pt, yields a superior platform for sensing applications and high-performance hydrogen gas sensors at room temperature are demonstrated.
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Probing the Structure of Methylalumoxane (MAO) by a Combined Chemical, Spectroscopic, Neutron Scattering, and Computational Approach
Manfred Bochmann,Fabio Ghiotto,Chrysoula Pateraki,Jukka T. Tanskanen,John Severn,Nicole Luehmann,André Kusmin,Joerg Stellbrink,Mikko Linnolahti +8 more
TL;DR: The composition of methylalumoxane (MAO) and its interaction with trimethylaluminum (TMA) have been investigated by a combination of chemical, spectroscopic, neutron scattering, and computational methods.
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Atomic Layer Deposition of CdS Films
TL;DR: In this article, a polycrystalline CdS deposited by atomic layer deposition (ALD) on Si(100) or glass using dimethyl cadmium and in situ generated H2S is investigated in detail.
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Molecular dynamics study of montmorillonite crystalline swelling: Roles of interlayer cation species and water content
TL;DR: In this article, molecular dynamic simulations are employed to study the crystalline swelling behavior of montmorillonites (MMTs) with different interlayer Na + and Ca 2+ ion compositions, and the effect of temperature and pressure on the swelling behavior.
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Improving Performance in Colloidal Quantum Dot Solar Cells by Tuning Band Alignment through Surface Dipole Moments
TL;DR: In this paper, the authors show that band engineering of PbS QDs is achievable by changing the dipole moment of the passivating ligand molecules surrounding the QD, which can be used to fabricate heterojunction solar cells in both unidirectional and bidirectional configurations.