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284 results on '"Kauppinen, E."'

1. Quantum degeneracy in mesoscopic matter: Casimir effect and Bose-Einstein condensation

Author

Todoshchenko, I., Kamada, M., Kaikkonen, J. -P., Liao, Y., Savin, A., Kauppinen, E., Sergeicheva, E., and Hakonen, P. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The ground-state phonon pressure is an analogue to the famous Casimir pressure of vacuum produced by zero-point photons. The acoustic Casimir forces are, however, many orders of magnitude weaker than the electromagnetic Casimir forces, as the typical speed of sound is 100 000 times smaller than the speed of light. Because of its weakness, zero-point acoustic Casimir pressure was never observed, although the pressure of artificially introduced sound noise on a narrow aperture has been reported. However, the magnitude of Casimir pressure increases as $1/L^3$ with the decrease of the sample size $L$, and reaches picoNewtons in the sub-micron scales. We demonstrate and measure the acoustic Casimir pressure induced by zero-point phonons in solid helium adsorbed on a carbon nanotube. We have also observed Casimir-like "pushing out" thermal phonons with the decreasing temperature or the length. We also show that all thermodynamic quantities are size-dependent, and therefore in the mesoscopic range $L\lesssim\hbar{c}/(k_BT)$ quadruple points are possible on the phase diagram where four different phases coexist. Due to the smallness of solid helium sample, temperature of Bose-Einstein condensation (BEC) of vacancies is relatively high, $10-100$ mK. This allowed us to experimentally discover the BEC in a system of zero-point vacancies, predicted more than 50 years ago.

Published
2024

2. Intertube excitonic coupling in nanotube van der Waals heterostructures

Author

Burdanova, M. G., Liu, M., Staniforth, M., Zheng, Y., Xiang, R., Chiashi, S., Anisimov, A., Kauppinen, E. I., Maruyama, S., and Lloyd-Hughes, J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Excitons dominate the optics of atomically-thin transition metal dichalcogenides and 2D van der Waals heterostructures. Interlayer 2D excitons, with an electron and a hole residing in different layers, form rapidly in heterostructures either via direct charge transfer or via Coulomb interactions that exchange energy between layers. Here, we report prominent intertube excitonic effects in quasi-1D van der Waals heterostructures consisting of C/BN/MoS$_2$ core/shell/skin nanotubes. Remarkably, under pulsed infrared excitation of excitons in the semiconducting CNTs we observed a rapid (sub-picosecond) excitonic response in the visible range from the MoS$_2$ skin, which we attribute to intertube biexcitons mediated by dipole-dipole Coulomb interactions in the coherent regime. On longer ($>100$ps) timescales hole transfer from the CNT core to the MoS$_2$ skin further modified the MoS$_2$'s absorption. Our direct demonstration of intertube excitonic interactions and charge transfer in 1D van der Waals heterostructures suggests future applications in infrared and visible optoelectronics using these radial heterojunctions., Comment: 4 figures

Published
2021

4. Measurement of optical second-harmonic generation from an individual single-walled carbon nanotube

Author

Huttunen, M. J., Herranen, O., Johansson, A., Jiang, H., Mudimela, P. R., Myllyperkiö, P., Bautista, G., Nasibulin, A. G., Kauppinen, E. I., Ahlskog, M., Kauranen, M., and Pettersson, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We show that optical second-harmonic generation (SHG) can be observed from individual single-walled carbon nanotubes (SWCNTs) and, furthermore, allows imaging of individual tubes. Detailed analysis of our results suggests that the structural noncentrosymmetry, as required for SHG, arises from the non-zero chiral angle of the SWCNT. SHG thus has potential as a fast, non-destructive, and simple method for imaging of individual nanomolecules and for probing their chiral properties. Even more, it opens the possibility to optically determine the handedness of individual SWCNTs., Comment: 13 pages, 3 figures

Published
2013
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5. Single-walled carbon nanotube weak links: from Fabry-P\'{e}rot to Kondo regime

Author

Wu, F., Danneau, R., Queipo, P., Kauppinen, E., Tsuneta, T., and Hakonen, P. J.

Subjects
Condensed Matter - Superconductivity
Abstract

We have investigated proximity-induced supercurrents in single-walled carbon nanotubes in the Kondo regime and compared them with supercurrents obtained on the same tube with Fabry-P\'{e}rot resonances. Our data display a wide distribution of Kondo temperatures \emph{$T_K$} = 1 - 14 K, and the measured critical current $I_{CM}$ vs. \emph{$T_K$} displays two distinct branches; these branches, distinguished by zero-bias splitting of the normal-state Kondo conductance peak, differ by an order of magnitude at large values of $T_K$. Evidence for renormalization of Andreev levels in Kondo regime is also found., Comment: 4 pages, 4 figures

Published
2008

6. Shot Noise with Interaction Effects in Single Walled Carbon Nanotubes

Author

Wu, F., Queipo, P., Tsuneta, T., Wang, T. H., Kauppinen, E., and Hakonen, P. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have measured shot noise in single walled carbon nanotubes (SWNT) with good contacts at 4.2 K at low frequencies ($f=600 - 850$ MHz). We find a strong modulation of shot noise over the Fabry-Perot pattern; in terms of differential Fano factor the variation ranges over 0.4 - 1.2. The shot noise variation, in combination with differential conductance, is analyzed using two (spin-degenerate) modes with different, energy-dependent transmission coefficients. No power law dependence of shot noise, as expected for Luttinger liquids, was found in our measurements., Comment: 5 pages, 4 figures

Published
2007
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7. CHH Cement Composite

Author

Cwirzen, A., Habermehl-Cwirzen, K., Nasibulina, L. I., Shandakov, S. D., Nasibulin, A. G., Kauppinen, E. I., Mudimela, P. R., Penttala, V., Bittnar, Zdeněk, editor, Bartos, Peter J. M., editor, Němeček, Jiří, editor, Šmilauer, Vít, editor, and Zeman, Jan, editor

Published
2009
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10. Topologically-imposed vacancies and mobile solid 3He on carbon nanotube.

Author

Todoshchenko, I., Kamada, M., Kaikkonen, J.-P., Liao, Y., Savin, A., Will, M., Sergeicheva, E., Abhilash, T. S., Kauppinen, E., and Hakonen, P. J.

Subjects
QUANTUM phase transitions, SOLIDS, CARBON nanotubes, PHENOMENOLOGICAL theory (Physics), FERMI liquids
Abstract

Low dimensional fermionic quantum systems are exceptionally interesting because they reveal distinctive physical phenomena, including among others, topologically protected excitations, edge states, frustration, and fractionalization. Our aim was to confine 3He on a suspended carbon nanotube to form 2-dimensional Fermi-system. Here we report our measurements of the mechanical resonance of the nanotube with adsorbed sub-monolayer down to 10 mK. At intermediate coverages we have observed the famous 1/3 commensurate solid. However, at larger monolayer densities we have observed a quantum phase transition from 1/3 solid to an unknown, soft, and mobile solid phase. We interpret this mobile solid phase as a bosonic commensurate crystal consisting of helium dimers with topologically-induced zero-point vacancies which are delocalized at low temperatures. We thus demonstrate that 3He on a nanotube merges both fermionic and bosonic phenomena, with a quantum phase transition between fermionic solid 1/3 phase and the observed bosonic dimer solid. Probing fundamental quantum systems and their phase change is interesting. Here the authors demonstrate the existence of mobile quantum solid phase composed of dimerized 3He atoms and topology-induced vacancies using 3He adsorbed on carbon nanotube. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Trends in carbon, oxygen, and nitrogen core in the x-ray absorption spectroscopy of carbon nanomaterials:a guide for the perplexed

Author

Sainio, S. (Sami), Wester, N. (Niklas), Aarva, A. (Anja), Titus, C. J. (Charles J.), Nordlund, D. (Dennis), Kauppinen, E. I. (Esko I.), Leppänen, E. (Elli), Palomäki, T. (Tommi), Koehne, J. E. (Jessica E.), Pitkänen, O. (Olli), Kordas, K. (Krisztian), Kim, M. (Maria), Lipsanen, H. (Harri), Mozetič, M. (Miran), Caro, M. A. (Miguel A.), Meyyappan, M. (M.), Koskinen, J. (Jari), Laurila, T. (Tomi), Sainio, S. (Sami), Wester, N. (Niklas), Aarva, A. (Anja), Titus, C. J. (Charles J.), Nordlund, D. (Dennis), Kauppinen, E. I. (Esko I.), Leppänen, E. (Elli), Palomäki, T. (Tommi), Koehne, J. E. (Jessica E.), Pitkänen, O. (Olli), Kordas, K. (Krisztian), Kim, M. (Maria), Lipsanen, H. (Harri), Mozetič, M. (Miran), Caro, M. A. (Miguel A.), Meyyappan, M. (M.), Koskinen, J. (Jari), and Laurila, T. (Tomi)

Abstract

Successful deployment of carbon nanomaterials in many applications, such as sensing, energy storage, and catalysis, relies on the selection, synthesis, and tailoring of the surface properties. Predictive analysis of the behavior is difficult without detailed knowledge of the differences between various carbon nanomaterials and their surface functionalization, thus leaving the selection process to traditional trial-and-error work. The present characterization fills this knowledge gap for carbon nanomaterial surface properties with respect to chemical states and functionalization. We present an overview of the chemical trends that can be extracted from soft X-ray absorption spectroscopy (XAS) spectra on an extended set of nonideal carbon nanomaterials as a function of sp2 bonded carbon and bond ordering. In particular, the surface chemical state, the presence of long-range order in the carbon matrix, and a qualitative estimation of the amount of oxygen and nitrogen and their respective functional group formation on the material surface, together with the detailed material fabrication parameters, are reported. The results expand our understanding of carbon nanomaterial functionalization, which can support material selection in practice, provided that the specifications of the application are known.

Published
2021

30. Charge transport mechanisms in macro-scale CNT films

Author

Zhukova, E S, primary, Gorshunov, B P, additional, Tsapenko, A P, additional, Grebenko, A K, additional, Bubis, A V, additional, Zhukov, S S, additional, Simchuk, E A, additional, Tsebro, V I, additional, Tonkikh, A A, additional, Rybkovskiy, D V, additional, Kauppinen, E I, additional, Nasibulin, A G, additional, and Obraztsova, E D, additional

Published
2018
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32. Infrared properties of randomly oriented silver nanowires.

Author

Larciprete, M. C., Albertoni, A., Belardini, A., Leahu, G., Li Voti, R., Mura, F., Sibilia, C., Nefedov, I., Anoshkin, I. V., Kauppinen, E. I., and Nasibulin, A. G.

Subjects
INFRARED radiation, NANOWIRES, SILVER, SUBSTRATES (Materials science), THERMOCOUPLES, PERMITTIVITY, EMISSIVITY
Abstract

We experimentally investigated the infrared properties of a set of randomly oriented silver nanowires films deposited onto glass substrate. Infrared emission of the obtained films was characterized in the long infrared range, i.e., 8-12 μm, by observing their temperature evolution under heating regime with a focal plane array infrared camera as well as a thermocouple. The obtained experimental results showed that the infrared emission from a mesh composed of silver nanowires might be tailored by opportunely assessing preparation condition, such as the metal filling factor. From the theoretical point of view, the real and imaginary part of the electrical permittivity components were retrieved from the calculations of effective permittivities of in-plane randomly oriented metallic wires, thus giving the refractive index and extinction coefficients for the four different silver nanowires meshes. Due to the correspondence between emissivity and absorbance, the experimental results are interpreted with the reconstructed corresponding absorbance spectra, thus suggesting that these coatings are suitable for infrared signature reduction applications. [ABSTRACT FROM AUTHOR]

Published
2012
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36. Päämääränä matkailijan rajaton Pohjoiskalotti:Pohjoiskalotti-komitea matkailun kehittäjänä vuosina 1967–1995

Author

Kauppinen, E. (Ella)

Subjects
History
Abstract

Pro gradu -tutkielmani aihe on Pohjoiskalotti-komitean tekemä työ matkailun edistämiseksi Pohjoiskalotin alueella vuosina 1967–1995. Keskityn työssäni komitean alaiseen matkailutoimintaan, jota vertaan Pohjoismaiden matkailun kehitykseen sekä muuhun matkailun edistämistyöhön Lapin läänissä. Lähteinäni ovat Pohjoiskalotin neuvoston säilynyt asiakirja-aineisto Oulun maakunta-arkistossa ja Pohjoiskalotti-komitean tiedotuslehti Pohjoiskalotti-Uutiset. Saadakseni kokonaiskuvan matkailun kehittämisestä Lapissa, käytän lähteenäni myös Lapin matkailun markkinointimateriaalia sekä kehittämissuunnitelmia, joita vertailen komitean tekemään matkailutyöhön. Tutkimuksessani hyödynnän niin kvalitatiivisia että kvantitatiivia tutkimusmenetelmiä sekä vertailua. Tämän tutkimuksen perusteella matkailun merkitys niin alueen elinkeinoelämässä että Pohjoiskalotti-komitean kokonaistoiminnassa voimistui tutkimusajanjaksolla. Matkailusta tuli jopa aluekehityksen väline Pohjoiskalotilla. Komitea perusti matkailualalle alaisuuteensa kaksi pysyvää matkailutoimielintä, joista ensimmäinen, matkailutyöryhmä, toimi vuosina 1977–1987 ja jälkimmäinen, matkailuneuvosto, vuosina 1987–1997. Pohjoiskalotti-komitea teki läheistä yhteistyötä alueen läänien kanssa, minkä seurauksena niiden matkailun kehittämissuunnitelmat sekä -kohteet olivat suurilta osin yhteneväisiä komitean vastaaviin. Komitean tekemä matkailutyö keskittyi vahvasti erilaisiin markkinointikampanjoihin ja matkailujulkaisuihin. Matkakohteena Pohjoiskalotti pysyi pääosin muuttumattomana 1960–1990-luvuilla, ja sen tärkeimpinä matkailun vetovoimatekijöitä olivat Pohjoiskalotti-komitean mielestä luonto ja kulttuuri. Yhteiskunnalliset ja kansainväliset muutokset kuitenkin vaikuttivat Pohjoiskalotin matkailun kehittämiseen tutkimusajanjaksona. Alueen matkailu kansainvälistyi 1990-luvulle tultaessa ja sen matkailumarkkinoinnin kohdealueeksi profiloitui yhä vahvemmin Eurooppa. Tämän seurauksena komitea pyrki yhdistämään matkailutoimintaansa niin Euroopan ja Venäjän kanssa. Lopulta Pohjoiskalotti-komitean matkailutyö integroitui Euroopan unionin matkailuohjelmiin komitean jäädessä lähinnä hankkeiden toteuttamisen alueelliseksi valvojaksi.

Published
2014

39. Graphitised Carbon Nanofibres as Catalyst Support for PEMFC

Author

Yli-Rantala, E., Pasanen, A., Kauranen, P., Ruiz, V., Borghei, M., Kauppinen, E., Oyarce, A., Lindbergh, G., Lagergren, Casper, Darab, M., Sunde, S., Thomassen, M., Ma-Andersen, S., Andersen, Shuang Ma, and Skou, E.

Subjects
Materials science, Catalyst support, Inorganic chemistry, ta221, Energy Engineering and Power Technology, chemistry.chemical_element, Proton exchange membrane fuel cell, Carbon nanotube, Catalyst Stability, Corrosion, Catalysis, law.invention, law, Catalyst Support, ta218, ta214, ta114, Renewable Energy, Sustainability and the Environment, Carbon black, Surface Modification, chemistry, Carbon Corrosion, Carbon Nanofibres, Carbon nanotube supported catalyst, Proton Exchange Membrane Fuel Cell, Carbon
Abstract

Graphitised carbon nanofibres (G‐CNFs) show superior thermal stability and corrosion resistance in PEM fuel cell environment over traditional carbon black (CB) and carbon nanotube catalyst supports. However, G‐CNFs have an inert surface with only very limited amount of surface defects for the anchorage of Pt catalyst nanoparticles. Modification of the fibre surface is therefore needed. In this study Pt nanoparticles have been deposited onto as‐received and surface‐modified G‐CNFs. The surface modifications of the fibres comprise acid treatment and nitrogen doping by pyrolysis of a polyaniline (PANI) precursor. The modified surfaces were studied by FTIR and XPS and the electrochemical characterization, including long‐term Pt stability tests, was performed using a low‐temperature PEMFC single cell. The performance and stability of the G‐CNF supported catalysts were compared with a CB supported catalyst and the effects of the different surface treatments were discussed. On the basis of these results, new membrane electrode assemblies (MEAs) were manufactured and tested also for carbon corrosion by in situ FTIR analysis of the cathode exhaust gases. It was observed that the G‐CNFs showed 5 times lower carbon corrosion compared to CB based catalyst when potential reached 1.5 V versus RHE in simulated start/stop cycling.

Published
2011
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40. Graphitized carbon nanofibers as catalyst support for PEMFC

Author

Kauranen, Pertti, Pasanen, A., Yli-Rantala, E., Kauppinen, E., Ruiz, V., Lindbergh, G., Lagergren, C., Oyarce, A., Sunde, S., Darab, M., Thomassen, M., Skou, E., and Ma-Andersen, S.

Abstract

Induction nucleation is a very well suited technique for large scale synthesis of various nanomaterials (Auvinen et. al, 2010) Using induction materials can efficiently be heated to a very high temperature thus enabling high production rates. At the same time the gas flow can be kept cool, which induces extremely high temperature gradients needed for formation of nanoparticles. The synthesis can be carried out at normal pressure, which significantly decreases the facility costs as well as the pumping power. At the outlet of the furnace also the temperature of the inert gas flow is close to ambient enabling the use of common structural materials, rubber seals and inexpensive bag filters. Typically the precursors can be relatively low-cost and yet high purity bulk materials. Induction nucleation process is also environmentally sound as it uses no water, produces no liquid waste and releases only filtered nitrogen from the reactor. The induction nucleation method was initially developed for production of metallic nanoparticles. The source materials are vaporised from tungsten or graphite crucibles to nitrogen or argon carrier gas flow. Graphite felt insulation separates the hot carrier gas from cool nitrogen flow. When the gas flows are mixed turbulently, rapid cooling induces formation of nanoparticles. In this work the same method was applied for production of SiO nanoparticles applied in Li-ion battery anodes. SiO is well suited for material for induction nucleation synthesis as it has significantly higher vapour pressure than either Si or SiO2. It is also far less reactive in high temperatures than pure silicon. SiO particles were produced by heating silicon in contact with oxides in temperature varying between 1 600°C to 1 790°C. The highest mass concentration reached in the tests was 2 600mg/m3 at 1 790°C. The produced particles were amorphous with primary diameter of about 15 nm. In the gas phase the primary particles formed larger agglomerates with mobility diameter of about 150 nm. Also production of SiO-Cu composite particles was tested by placing the source materials either in the same or in separate crucibles. With single crucible set-up the copper content of the produced powder ranged from 2 wt-% to 4 wt-% depending on the test parameters. A two-crucible set-up allowed more freedom in tuning the copper content of the particles. This study belongs to Active Nanocomposite Materials project funded by Tekes under Functional Materials Program.

Published
2011

44. Electron transport in two-dimensional arrays of gold nanocrystals investigated by scanning electrochemical microscopy

Author

Liljeroth, P.W., Vanmaekelbergh, D.A.M., Ruiz, V., Kontturi, K., Jiang, H., Kauppinen, E., Quinn, B.M., Chemie van de vaste stof: Luminescentie en elektrochemie, Universiteit Utrecht, and Dep Scheikunde

Subjects
Microscope, Scanning electron microscope, Analytical chemistry, Conductivity, Biochemistry, Catalysis, law.invention, Metal, Scanning electrochemical microscopy, Colloid and Surface Chemistry, Transition metal, law, Monolayer, Chemistry, General Chemistry, gold, monolayers, Chemical engineering, Nanocrystal, visual_art, gold nanoparticles, visual_art.visual_art_medium, nanoparticles, gold nanocrystals, SECM
Abstract

This article reports the use of the scanning electrochemical microscope (SECM) to investigate the electronic properties of Langmuir monolayers of alkane thiol protected gold nanocrystals (NCs). A substantial increase in monolayer conductivity upon mechanical compression of the Au NC monolayer is reported for the first time. This may be the room temperature signature of the insulator to metal transition previously reported for comparable silver NC monolayers. Factors influencing the conductivity of the monolayer NC array are discussed.

Published
2004
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47. Superheater tube corrosion in recovery boilers

Author

Mäkipää, Martti, Kauppinen, E., Lind, T., Pyykönen, J., Jokiniemi, Jorma, McKeough, Paterson, Oksa, Maria, Malkow, Th, Fordham, R., Baxter, D., Koivisto, L., Saviharju, K., and Vakkilainen, E.

Abstract

Deposit formation and corrosion of recovery boiler superheater tubes are known to be interrelated with boiler chemistry and the design, as well as the operation conditions in an extremely complex way. After a short review of typical superheater corrosion conditions in the past, a brief summary is given about the work on particulate formation and agglomeration in the flue gas path. Deposit formation mechanisms, deposition fluxes, transformation processes, deposit heat conductivity and heat transfer, as well as transport of deleterious species in the deposits is illuminated by model calculations. Corrosion processes and materials performance is discussed with reference to the results of materials exposures in industrial recovery boilers, and in laboratory corrosion tests. As a conclusion, current needs and likely future trends in the materials technology of superheaters of modern recovery boilers typically operating firing high solids liquors and with low sulphur emissions are summarised.

Published
2001

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