M
Maria Kim
Researcher at Aalto University
Publications - 9
Citations - 269
Maria Kim is an academic researcher from Aalto University. The author has contributed to research in topics: Graphene & Flexible electronics. The author has an hindex of 5, co-authored 9 publications receiving 212 citations. Previous affiliations of Maria Kim include Ioffe Institute & Russian Academy of Sciences.
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III–V nanowires on black silicon and low-temperature growth of self-catalyzed rectangular InAs NWs
TL;DR: The use of black silicon (bSi) as a growth platform for III–V nanowires (NWs) enables low reflectance over a broad wavelength range as well as fabrication of optoelectronic devices by metalorganic vapor phase epitaxy and a new isolated growth regime for self-catalyzed InAs NWs at record-low temperatures.
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Crystal quality of two-dimensional gallium telluride and gallium selenide using Raman fingerprint
TL;DR: In this article, the authors established Raman fingerprint of GaTe and GaSe to investigate their crystal quality, and showed that X-ray photoelectron spectroscopy (XPS) analysis shows a good agreement with Raman analysis.
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Direct transfer of Wafer-scale graphene films
Maria Kim,Ali Shah,Changfeng Li,Petri Mustonen,Jannatul Susoma,Farshid Manoocheri,Juha Riikonen,Harri Lipsanen +7 more
TL;DR: In this article, a direct transfer method of 6-inch monolayer CVD graphene onto transparent and flexible substrate based on direct vapor phase deposition of conformal parylene on as-grown graphene/copper (Cu) film is presented.
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Trends in Carbon, Oxygen, and Nitrogen Core in the X-ray Absorption Spectroscopy of Carbon Nanomaterials: A Guide for the Perplexed
Sami Sainio,Sami Sainio,Niklas Wester,Anja Aarva,Charles J. Titus,Dennis Nordlund,Esko I. Kauppinen,Elli Leppänen,Tommi Palomäki,Jessica E. Koehne,Olli Pitkänen,Krisztian Kordas,Maria Kim,Maria Kim,Harri Lipsanen,Miran Mozetič,Miguel A. Caro,Meyya Meyyappan,Jari Koskinen,Tomi Laurila +19 more
TL;DR: In this article, the success of carbon nanomaterials in many applications, such as sensing, energy storage, and catalysis, relies on the selection, synthesis, and tailoring of the surface properties.
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Nanowire encapsulation with polymer for electrical isolation and enhanced optical properties
Tuomas Haggren,Ali Shah,Anton Autere,J. P. Kakko,Veer Dhaka,Maria Kim,Teppo Huhtio,Zhipei Sun,Harri Lipsanen +8 more
TL;DR: In this article, a cost-effective technique, based on vapor phase deposition of parylene-C and subsequent annealing, that provides conformal encapsulation, anti-reflective coating, improved optical properties, and electrical insulation for GaAs nanowires was presented.