Your search keyword '"Sainio, S"' showing total 50 results

1. Long-term chemothermal stability of delithiated NCA in polymer solid-state batteries

Author

Besli, MM, Usubelli, C, Metzger, M, Hellstrom, S, Sainio, S, Nordlund, D, Christensen, J, Schneider, G, Doeff, MM, and Kuppan, S

Subjects

Macromolecular and Materials Chemistry, Materials Engineering, Interdisciplinary Engineering

Abstract

In this study, the long-term chemothermal stability of chemically delithiated Li0.3Ni0.8Co0.15Al0.05O2 (Li0.3NCA) was systematically investigated at relevant operating temperatures of polymer solid-state batteries using ex situ synchrotron-based hard and soft X-ray absorption spectroscopy. The reduction of nickel on the surface, subsurface, and in the bulk of secondary NCA particles was studied and directly related to aging time, temperature, the presence of polymeric electrolyte (poly(ethylene oxide) or polycaprolactone), and lithium salt (lithium tetrafluoroborate or lithium bis(trifluoromethanesulfonyl)imide). Depending on the polymer and/or lithium salt accompanying the delithiated Li0.3NCA, reduction of nickel at the surface, subsurface, and bulk occurs to varying extents, starting at the surface and propagating into the bulk material. Our results indicate how degradation (reduction of nickel) is strongly correlated to temperature, time, and the presence of blended polymer and/or lithium salt in the cathode. The relative stability of the NCA material in cathodes having different polymer and lithium salt combinations identified in the ex situ spectroscopy study is directly demonstrated in solid-state polymer batteries.

Published

2019

2. Geometrical and chemical effects on the electrochemistry of single-wall carbon nanotube (SWCNT) network electrodes

Author

Leppänen, E. (Elli), Gustafsson, E. (Eero), Wester, N. (Niklas), Varjos, I. (Ilkka), Sainio, S. (Sami), Laurila, T. (Tomi), Leppänen, E. (Elli), Gustafsson, E. (Eero), Wester, N. (Niklas), Varjos, I. (Ilkka), Sainio, S. (Sami), and Laurila, T. (Tomi)

Abstract

Single-wall carbon nanotube (SWCNT) network is a promising electrode material for bio detection. Unfortunately, the associations between their physical as well as chemical properties and observed electrochemical performance are not known. This hinders any systematic optimization of the network properties towards specific analytes. Here we present a consistent physicochemical and electrochemical characterization of differently treated SWCNT networks. The results unambiguously show that (i) even if the electrochemical properties of different electrodes are practically identical when assessed by surface insensitive outer sphere redox (OSR) probes their behavior with inner sphere redox (ISR) probes can be drastically different. Further, (ii) the choice of the modification method (structural, chemical, electrochemical) heavily depends on nature of the target analyte, which are typically ISR probes. Although, (iii) chemical changes in the carbon phase appeared to be minor, effects of different treatments on oxidation states of Fe appeared to have a strong effect on the electrochemical performance of the networks in the case of ISR probes.

Published

2023

3. Ultrathin undoped tetrahedral amorphous carbon films: The role of the underlying titanium layer on the electronic structure

Author

Protopopova, V., Iyer, A., Wester, N., Kondrateva, A., Sainio, S., Palomäki, T., Laurila, T., Mishin, M., and Koskinen, J.

Published

2015

4. Multi-walled carbon nanotubes (MWCNTs) grown directly on tetrahedral amorphous carbon (ta-C): An interfacial study

Author

Laurila, T., Sainio, S., Jiang, H., Palomäki, T., Pitkänen, O., Kordas, K., and Koskinen, J.

Published

2015

5. Role of nanocellulose in tailoring electroanalytical performance of hybrid nanocellulose/multiwalled carbon nanotube electrodes

Author

Durairaj, V. (Vasuki), Liljeström, T. (Touko), Wester, N. (Niklas), Engelhardt, P. (Peter), Sainio, S. (Sami), Wilson, B. P. (Benjamin P.), Li, P. (Panpan), Kontturi, K. S. (Katri S.), Tammelin, T. (Tekla), Laurila, T. (Tomi), Koskinen, J. (Jari), Durairaj, V. (Vasuki), Liljeström, T. (Touko), Wester, N. (Niklas), Engelhardt, P. (Peter), Sainio, S. (Sami), Wilson, B. P. (Benjamin P.), Li, P. (Panpan), Kontturi, K. S. (Katri S.), Tammelin, T. (Tekla), Laurila, T. (Tomi), and Koskinen, J. (Jari)

Abstract

Nanocellulose has emerged as a promising green dispersant for carbon nanotubes (CNTs), and there is an increasing trend in developing nanocellulose/CNT hybrid materials for electrochemical detection of various small molecules. However, there have been very few comprehensive studies investigating the role of nanocellulosic material properties upon the electroanalytical performance of the resultant hybrid electrodes. In this work, we demonstrate the influence of both nanocellulose functionalization and geometry, utilizing sulfated cellulose nanocrystals, sulfated cellulose nanofibers, and TEMPO-oxidized cellulose nanofibers. Transmission electron microscopy tomography enables direct visualization of the effect of nanocellulosic materials on the hybrid architectures. High resolution X-ray absorption spectroscopy verifies that the chemical nature of CNTs in the different hybrids is unmodified. Electroanalytical performances of the different nanocellulose/CNT hybrid electrodes are critically evaluated using physiologically relevant biomolecules with different charge such as, dopamine (cationic), paracetamol (neutral), and uric acid (anionic). The hybrid electrode containing fibrillar nanocellulose geometry with a high degree of sulfate group functionalization provides the highest electroanalytical sensitivity and strongest enrichment towards all studied analytes. These results clearly demonstrate for the first time, the extent of tailorability upon the electroanalytical response of nanocellulose/CNT hybrid electrodes towards different biomolecules, offered simply by the choice of nanocellulosic materials.

Published

2022

6. Low exciton binding energies and localized exciton-polaron states in 2D tin halide perovskites

Author

Hansen, K. R. (Kameron R.), McClure, C. E. (C. Emma), Powell, D. (Daniel), Hsieh, H.-C. (Hao-Chieh), Flannery, L. (Laura), Garden, K. (Kelsey), Miller, E. J. (Edwin J.), King, D. J. (Daniel J.), Sainio, S. (Sami), Nordlund, D. (Dennis), Colton, J. S. (John S.), Whittaker-Brooks, L. (Luisa), Hansen, K. R. (Kameron R.), McClure, C. E. (C. Emma), Powell, D. (Daniel), Hsieh, H.-C. (Hao-Chieh), Flannery, L. (Laura), Garden, K. (Kelsey), Miller, E. J. (Edwin J.), King, D. J. (Daniel J.), Sainio, S. (Sami), Nordlund, D. (Dennis), Colton, J. S. (John S.), and Whittaker-Brooks, L. (Luisa)

Abstract

Aside from band gap reduction, little is understood about the effect of the tin-for-lead substitution on the fundamental optical and optoelectronic properties of metal halide perovskites (MHPs), especially when transitioning from 3D to lower dimensional structures. Herein, we take advantage of the spectroscopic isolation of excitons in 2D MHPs to study the intrinsic differences between lead and tin MHPs. The exciton’s spectral fine structure indicates a larger polaron binding energy in tin MHPs. Additionally, the electroabsorption responses of the 2D MHPs demonstrates that tin MHPs have exciton binding energies 1.5–2× lower than that of their lead counterparts. Despite the lower binding energy, the excitons in tin MHPs are more Frenkel-like with small radii, small polarizabilities, and large dipole moments. These results are interpreted as consequences of small polaron formation and disorder-induced dipole moments. This work highlights the wide range of intrinsic differences between lead and tin MHPs as well as the complexity of excited states in these systems.

Published

2022

7. Synchrotron-based techniques for characterizing STCH water-splitting materials

Author

Shulda, S. (Sarah), Bell, R. T. (Robert T.), Strange, N. A. (Nicholas A.), Metzroth, L. (Lucy), Heinselman, K. N. (Karen N.), Sainio, S. (Sami), Roychoudhury, S. (Subhayan), Prendergast, D. (David), McDaniel, A. H. (Anthony H.), Ginley, D. S. (David S.), Shulda, S. (Sarah), Bell, R. T. (Robert T.), Strange, N. A. (Nicholas A.), Metzroth, L. (Lucy), Heinselman, K. N. (Karen N.), Sainio, S. (Sami), Roychoudhury, S. (Subhayan), Prendergast, D. (David), McDaniel, A. H. (Anthony H.), and Ginley, D. S. (David S.)

Abstract

Understanding the role of oxygen vacancy–induced atomic and electronic structural changes to complex metal oxides during water-splitting processes is paramount to advancing the field of solar thermochemical hydrogen production (STCH). The formulation and confirmation of a mechanism for these types of chemical reactions necessitate a multifaceted experimental approach, featuring advanced structural characterization methods. Synchrotron X-ray techniques are essential to the rapidly advancing field of STCH in part due to properties such as high brilliance, high coherence, and variable energy that provide sensitivity, resolution, and rapid data acquisition times required for the characterization of complex metal oxides during water-splitting cycles. X-ray diffraction (XRD) is commonly used for determining the structures and phase purity of new materials synthesized by solid-state techniques and monitoring the structural integrity of oxides during water-splitting processes (e.g., oxygen vacancy–induced lattice expansion). X-ray absorption spectroscopy (XAS) is an element-specific technique and is sensitive to local atomic and electronic changes encountered around metal coordination centers during redox. While in operando measurements are desirable, the experimental conditions required for such measurements (high temperatures, controlled oxygen partial pressures, and H2O) practically necessitate in situ measurements that do not meet all operating conditions or ex situ measurements. Here, we highlight the application of synchrotron X-ray scattering and spectroscopic techniques using both in situ and ex situ measurements, emphasizing the advantages and limitations of each method as they relate to water-splitting processes. The best practices are discussed for preparing quenched states of reduction and performing synchrotron measurements, which focus on XRD and XAS at soft (e.g., oxygen K-edge, transition metal L-edges, and lanthanide M-edges) and hard (e.g., transi

Published

2022

8. Structure-property relationships in carbon electrochemistry

Author

Leppänen, E. (Elli), Akhoundian, M. (Maedeh), Sainio, S. (Sami), Etula, J. (Jarkko), Pitkänen, O. (Olli), Laurila, T. (Tomi), Leppänen, E. (Elli), Akhoundian, M. (Maedeh), Sainio, S. (Sami), Etula, J. (Jarkko), Pitkänen, O. (Olli), and Laurila, T. (Tomi)

Abstract

Carbonaceous nanomaterials can be a game changing materials in many technological fields, especially in electroanalytical applications. However, there is no consensus on the associations between the structure and electrochemical performance of these nanomaterials — even for the most basic electrochemical properties. This challenge stems from the fact that typically carbonaceous nanomaterials are obtained from various sources and not characterized properly. Therefore, to solve this deadlock we carry out systematic electrochemical characterization for a set of in-house fabricated as well as physicochemically thoroughly characterized carbon nanomaterials. We will then proceed to establish structure — performance associations for these materials. In addition, we will highlight how sensitive the electrochemical performance of these materials can be to small changes in their structural properties. Further, we emphasize the lack of correlation between electrochemical performance of electrode materials as determined using outer sphere redox (OSR) and inner sphere redox (ISR) probes the latter being highly analyte specific. As a first consistent set of electrochemical data obtained by using well characterized carbonaceous nanomaterials, this work will provide solid basis to expand the use of these materials in more complex electroanalytical as well as other applications.

Published

2022

9. Combined oral contraceptives containing estradiol valerate vs ethinylestradiol on coagulation:a randomized clinical trial

Author

Haverinen, A. H. (Annina H.), Luiro, K. M. (Kaisu M.), Szanto, T. (Timea), Kangasniemi, M. H. (Marika H.), Hiltunen, L. (Leena), Sainio, S. (Susanna), Piltonen, T. T. (Terhi T.), Lassila, R. (Riitta), Tapanainen, J. S. (Juha S.), Heikinheimo, O. (Oskari), Haverinen, A. H. (Annina H.), Luiro, K. M. (Kaisu M.), Szanto, T. (Timea), Kangasniemi, M. H. (Marika H.), Hiltunen, L. (Leena), Sainio, S. (Susanna), Piltonen, T. T. (Terhi T.), Lassila, R. (Riitta), Tapanainen, J. S. (Juha S.), and Heikinheimo, O. (Oskari)

Abstract

Introduction: Contraceptives containing ethinylestradiol (EE) induce changes in the coagulation system and are associated with a risk of venous thromboembolism. However, studies comparing the effects of combined oral contraceptives containing EE and low-potency estrogens (ie, estradiol [E₂] and estradiol valerate [EV]) on coagulation biomarkers are limited. This study represents secondary outcomes of a randomized trial comparing combined oral contraceptives containing EV + dienogest (DNG), EE + DNG, and DNG alone on selected coagulation biomarkers. We could compare the specific effects of the different estrogen components owing to the inclusion of preparations containing the same progestin. Material and methods: We enrolled 59 healthy, 18- to 35-year-old, non-smoking women, of whom three discontinued. The participants were randomly allocated to 9 weeks of continuous treatment with EV 2 mg + DNG 2–3 mg (n = 20), EE 0.03 mg + DNG 2 mg (n = 20), or DNG 2 mg (n = 19). Blood samples were collected at baseline and after 9 weeks. We assessed coagulation in vitro by thrombin generation using the Calibrated Automated Thrombogram. Thrombin generation was evaluated by lag time, time to thrombin peak, thrombin peak, and endogenous thrombin potential in response to tissue factor (1 pm). In vivo coagulation assessment was based on levels of prothrombin fragment 1 + 2 (F1 + 2) (thrombin generation) and D-dimer (fibrin turnover). Clinical trial registration: NCT02352090. Results: Lag time and time to thrombin peak remained unaltered after exposure to EV + DNG, whereas EE + DNG shortened both lag time (mean percentage change −24%, 95% confidence interval [CI] −32% to −15%; p < 0.01) and time to thrombin peak (−26%, 95% CI −37% to −16%; p < 0.01). EV + DNG induced lower thrombin peak and endogenous thrombin potential than EE + DNG (peak; +45%, 95% CI 22%–67% vs +147%,95% CI 96%–198%; p < 0.01, and endogenous thrombin potential; +26%, 95% CI 15%–38% vs +64%, 95% CI 5

Published

2022

10. Investigating particle size-dependent redox kinetics and charge distribution in disordered rocksalt cathodes

Author

Zhang, Y. (Yuxin), Hu, A. (Anyang), Liu, J. (Jue), Xu, Z. (Zhengrui), Mu, L. (Linqin), Sainio, S. (Sami), Nordlund, D. (Dennis), Li, L. (Luxi), Sun, C.-J. (Cheng-Jun), Xiao, X. (Xianghui), Liu, Y. (Yijin), Lin, F. (Feng), Zhang, Y. (Yuxin), Hu, A. (Anyang), Liu, J. (Jue), Xu, Z. (Zhengrui), Mu, L. (Linqin), Sainio, S. (Sami), Nordlund, D. (Dennis), Li, L. (Luxi), Sun, C.-J. (Cheng-Jun), Xiao, X. (Xianghui), Liu, Y. (Yijin), and Lin, F. (Feng)

Abstract

Understanding how various redox activities evolve and distribute in disordered rocksalt oxides (DRX) can advance insights into manipulating materials properties for achieving stable, high-energy batteries. Herein, the authors present how the reaction kinetics and spatial distribution of redox activities are governed by the particle size of DRX materials. The size-dependent electrochemical performance is attributed to the distinct cationic and anionic reaction kinetics at different sizes, which can be tailored to achieve optimal capacity and stability. Overall, the local charged domains in DRX particles display random heterogeneity caused by the isotropic delithiation pathways. Owing to the kinetic limitation, the micron-sized particles exhibit a holistic “core-shell” charge distribution, whereas sub-micron particles show more uniform redox reactions throughout the particles and ensembles. Sub-micron DRX particles exhibit increasing anionic redox activities yet inferior cycling stability. In summary, engineering particle size can effectively modulate how cationic and anionic redox activities evolve and distribute in DRX materials.

Published

2022

11. Tailoring disordered/ordered phases to revisit the degradation mechanism of high-voltage LiNi0.5Mn1.5O4 spinel cathode materials

Author

Sun, H. (Huabin), Hu, A. (Anyang), Spence, S. (Stephanie), Kuai, C. (Chunguang), Hou, D. (Dong), Mu, L. (Linqin), Liu, J. (Jue), Li, L. (Luxi), Sun, C. (Chengjun), Sainio, S. (Sami), Nordlund, D. (Dennis), Luo, W. (Wei), Huang, Y. (Yunhui), Lin, F. (Feng), Sun, H. (Huabin), Hu, A. (Anyang), Spence, S. (Stephanie), Kuai, C. (Chunguang), Hou, D. (Dong), Mu, L. (Linqin), Liu, J. (Jue), Li, L. (Luxi), Sun, C. (Chengjun), Sainio, S. (Sami), Nordlund, D. (Dennis), Luo, W. (Wei), Huang, Y. (Yunhui), and Lin, F. (Feng)

Abstract

In the spinel oxide cathode family, LiNi0.5Mn1.5O4 (LNMO) shows a high operating voltage (≈4.7 V vs Li/Li⁺) and excellent Li-ion mobility with stable 3D conducting channels. Ni/Mn cation disordered and ordered phases usually coexist in LNMO materials, and they have distinct structural and electrochemical properties, resulting in different battery performances for LNMO materials with different phase compositions. Identifying the correlation between phase compositions and electrochemical properties is of significance to the improvement of battery performance and understanding of degradation mechanisms. Herein, the disordered/ordered phase compositions in LNMO materials are tailored by post-annealing strategies and their impacts on electrochemical performance and degradation mechanisms from the surface to the bulk are systematically investigated. The ordered phase increases rapidly as Mn³⁺ is oxidized to Mn⁴⁺ through a post-annealing process. LNMO with an intermediate fraction of disordered and ordered phases gives rise to improved cycling stability. This article further reports that a high ordered phase fraction can preferentially protect Ni from dissolution during cycling. However, these results suggest that the transition metal dissolution and surface structural change of LNMO do not exhibit a direct correlation with cycling stability. These results indicate the capacity fading mainly correlates with the bulk structural distortion, leading to decreased Li-ion kinetics.

Published

2022

12. Ultrafast photoresponse of vertically oriented TMD films probed in a vertical electrode configuration on Si chips

Author

Järvinen, T. (Topias), Hosseini Shokouh, S.-H. (Seyed-Hossein), Sainio, S. (Sami), Pitkänen, O. (Olli), and Kordas, K. (Krisztian)

Abstract

Integrated photodetectors based on transition metal dichalcogenides (TMDs) face the challenge of growing their high-quality crystals directly on chips or transferring them to the desired locations of components by applying multi-step processes. Herein, we show that vertically oriented polycrystalline thin films of MoS2 and WS2 grown by sulfurization of Mo and W sputtered on highly doped Si are robust solutions to achieve on-chip photodetectors with a sensitivity of up to 1 mA W−1 and an ultrafast response time in the sub-μs regime by simply probing the device in a vertical arrangement, i.e., parallel to the basal planes of TMDs. These results are two orders of magnitude better than those measured earlier in lateral probing setups having both electrodes on top of vertically aligned polycrystalline TMD films. Accordingly, our study suggests that easy-to-grow vertically oriented polycrystalline thin film structures may be viable components in fast photodetectors as well as in imaging, sensing and telecommunication devices.

Published

2022

13. What determines the electrochemical properties of nitrogenated amorphous carbon thin films?

Author

Etula, J. (Jarkko), Wester, N. (Niklas), Liljeström, T. (Touko), Sainio, S. (Sami), Palomäki, T. (Tommi), Arstila, K. (Kai), Sajavaara, T. (Timo), Koskinen, J. (Jari), and Caro, M. A. (Miguel A.)

Subjects

Nitrogen, Thin films, Probes, Deposition, Electrodes

Abstract

Linking structural and compositional features with the observed electrochemical performance is often ambiguous and sensitive to known and unknown impurities. Here an extensive experimental investigation augmented by computational analyses is linked to the electrochemical characterization of in situ nitrogen-doped tetrahedral amorphous carbon thin films (ta-C:N). Raman spectroscopy combined with X-ray reflectivity shows nitrogen disrupting the sp3 C–C structure of the reference ta-C, supported by the observations of graphitic nitrogen substitution in X-ray absorption spectroscopy. The surface roughness also increases, as observed in atomic force microscopy and atomic-level computational analyses. These changes are linked to significant increases in the hydrogen and oxygen content of the films by utilizing time-of-flight elastic recoil detection analysis. The conductivity of the films increases as a function of the nitrogen content, which is seen as a facile reversible outer-sphere redox reaction on ta-C:N electrodes. However, for the surface-sensitive inner-sphere redox (ISR) analytes, it is shown that the electrochemical response instead follows the oxygen and hydrogen content. We argue that the passivation of the required surface adsorption sites by hydrogen decreases the rates of all of the chemically different ISR probes investigated on nitrogenated surfaces significantly below that of the nitrogen-free reference sample. This hypothesis can be used to readily rationalize many of the contradictory electrochemical results reported in the literature.

Published

2021

14. Performance and lifetime of intercalative water deionization cells for mono- and divalent ion removal

Author

Besli, M. M. (Muenir M.), Kuppan, S. (Saravanan), Bone, S. E. (Sharon E.), Sainio, S. (Sami), Hellstrom, S. (Sondra), Christensen, J. (Jake), Metzger, M. (Michael), Besli, M. M. (Muenir M.), Kuppan, S. (Saravanan), Bone, S. E. (Sharon E.), Sainio, S. (Sami), Hellstrom, S. (Sondra), Christensen, J. (Jake), and Metzger, M. (Michael)

Abstract

Intercalative deionization (IDI) uses two cation intercalation electrodes separated by an anion exchange membrane in a symmetric cell design that has the potential to deliver electrochemically desalinated water in an energy- and water-efficient way. Here, we define and measure metrics to describe the performance and lifetime of IDI cells and compare them for NaCl and CaCl₂ feed solutions. With 20 mM NaCl, NiHCF/AEM/NiHCF flow cells achieve 10 mM average concentration change at a productivity of 20 l/h/m² and 5 mM average concentration change at 130 l/h/m². In both cases the cells are operated at a 3C current rate and consume ~30 Wh/m³ of energy. With 10 mM CaCl₂, the specific capacity and salt removal of IDI flow cells is ~4 times lower. NiHCF/NiHCF beaker cells with CaCl₂ electrolyte suffer from strong capacity fade, while the same cells with NaCl electrolyte achieve 500 cycles without any capacity fade. Our post-mortem analysis using X-ray diffraction, secondary electron microscopy, energy dispersive X-ray spectroscopy, synchrotron-based X-ray absorption spectroscopy and micro X-ray fluorescence mapping reveals that NiHCF dissolves upon repeated intercalation with Ca²⁺, releasing residual K⁺, Ni²⁺ and Fe(CN)₆³, which precipitates as a crystalline decomposition product on the electrodes. This side reaction deprives the active material NiHCF of charge compensating Fe, and thus accounts for the observed capacity fade.

Published

2021

15. Connection between the physicochemical characteristics of amorphous carbon thin films and their electrochemical properties

Author

Leppänen, E. (Elli), Aarva, A. (Anja), Sainio, S. (Sami), Caro, M. A. (Miguel A.), Laurila, T. (Tomi), Leppänen, E. (Elli), Aarva, A. (Anja), Sainio, S. (Sami), Caro, M. A. (Miguel A.), and Laurila, T. (Tomi)

Abstract

Connecting a material’s surface chemistry with its electrocatalytic performance is one of the major questions in analytical electrochemistry. This is especially important in many sensor applications where analytes from complex media need to be measured. Unfortunately, today this connection is still largely missing except perhaps for the most simple ideal model systems. Here we present an approach that can be used to obtain insights about this missing connection and apply it to the case of carbon nanomaterials. In this paper we show that by combining advanced computational techniques augmented by machine learning methods with x-ray absorption spectroscopy (XAS) and electrochemical measurements, it is possible to obtain a deeper understanding of the correlation between local surface chemistry and electrochemical performance. As a test case we show how by computationally assessing the growth of amorphous carbon (a-C) thin films at the atomic level, we can create computational structural motifs that may in turn be used to deconvolute the XAS data from the real samples resulting in local chemical information. Then, by carrying out electrochemical measurements on the same samples from which x-ray spectra were measured and that were further characterized computationally, it is possible to gain insight into the interplay between the local surface chemistry and electrochemical performance. To demonstrate this methodology, we proceed as follows: after assessing the basic electrochemical properties of a-C films, we investigate the effect of short HNO3 treatment on the sensitivity of these electrodes towards an inner sphere redox probe dopamine to gain knowledge about the influence of altered surface chemistry to observed electrochemical performance. These results pave the way towards a more general assessment of electrocatalysis in different systems and provide the first steps towards data driven tailoring of electrode surfaces to gain optimal performance in a given a

Published

2021

16. Time points and risk factors for RhD immunizations after the implementation of targeted routine antenatal anti-D prophylaxis:a retrospective nationwide cohort study

Author

Jernman, R. (Riina), Isaksson, C. (Camilla), Haimila, K. (Katri), Kuosmanen, M. (Malla), Mäkikallio-Anttila, K. (Kaarin), Toivonen, S. (Suvi), Ordén, M.-R. (Maija-Riitta), Sulin, K. (Kati), Tihtonen, K. (Kati), Vääräsmäki, M. (Marja), Sainio, S. (Susanna), Jernman, R. (Riina), Isaksson, C. (Camilla), Haimila, K. (Katri), Kuosmanen, M. (Malla), Mäkikallio-Anttila, K. (Kaarin), Toivonen, S. (Suvi), Ordén, M.-R. (Maija-Riitta), Sulin, K. (Kati), Tihtonen, K. (Kati), Vääräsmäki, M. (Marja), and Sainio, S. (Susanna)

Abstract

Background: Targeted routine antenatal anti-D prophylaxis was introduced to the national prophylaxis program in Finland in late 2013. The aim of this study was to assess the incidence, time-points, and risk factors for Rhesus D immunization after the implementation of routine antenatal anti-D prophylaxis, in all women in Finland with antenatal anti-D antibodies detected in 2014–2017. Material and methods: In a nationwide population-based retrospective cohort study, the incidence, time-points, and risk factors of anti-D immunizations were analyzed. Information on antenatal screening was obtained from the Finnish Red Cross Blood Service database, and obstetric data from hospital records and the Finnish Medical Birth Register. Results: The study included a total of 228 women (197 with complete data for all pregnancies). After the implementation of routine antenatal anti-D prophylaxis, the prevalence of pregnancies with anti-D antibodies decreased from 1.52% in 2014 to 0.88% in 2017, and the corresponding incidence of new immunizations decreased from 0.33% to 0.10%. Time-points for detection of new anti-D antibodies before and after 2014 were the first screening sample at 8–12 weeks of gestation in 52% vs 19%, the second sample at 24–26 weeks in 20% vs 50%, and the third screening at 36 weeks in 28% vs 32%. Conclusions: The incidence of new anti-D immunizations decreased as expected after the implementation of routine antenatal anti-D prophylaxis. True failures are rare and they mainly occur when the prophylaxis is not given appropriately, suggesting a need for constant education of healthcare professionals on the subject.

Published

2021

17. Rapid industrial scale synthesis of robust carbon nanotube network electrodes for electroanalysis

Author

Leppänen, E. (Elli), Etula, J. (Jarkko), Engelhardt, P. (Peter), Sainio, S. (Sami), Jiang, H. (Hua), Mikladal, B. (Björn), Peltonen, A. (Antti), Varjos, I. (Ilkka), Laurila, T. (Tomi), Leppänen, E. (Elli), Etula, J. (Jarkko), Engelhardt, P. (Peter), Sainio, S. (Sami), Jiang, H. (Hua), Mikladal, B. (Björn), Peltonen, A. (Antti), Varjos, I. (Ilkka), and Laurila, T. (Tomi)

Abstract

Carbon nanotubes (CNT) have been extensively investigated for various electroanalytical applications. As the properties of CNTs heavily depend on the fabrication conditions, it is expected that the electrochemical performance will also vary between CNTs from different processes. However, it is still not well known how the different synthesis conditions affect the electrochemical properties of CNTs. Thus, here we investigate the effect of synthesis rate on the physicochemical properties of CNT networks. Through extensive structural and chemical analysis, we show that the widely different synthesis rates, fast and slow, produced CNT networks with surprisingly similar properties. The only distinct differences were seen in the TEM tomography 3D reconstructions, where the faster synthesis produced a less dense network with larger bundle size. Moreover, minor changes were seen in the composition of Fe catalyst particles where the faster rate network mainly exhibited metallic Fe, whereas carbide and oxidized Fe phases were observed in the slower rate network. Although no changes were seen in the electron transfer kinetics with outer-sphere probes, it was clear that even these small changes in physicochemical properties affected the surface sensitive inner-sphere analytes. With slower synthesis rate i) sensitivity towards all analgesics, especially oxycodone, was enhanced and ii) oxidation potential of all analytes shifted to cathodic direction in comparison to higher synthesis rate. In the wider context, we propose that good quality CNTs can be fabricated rapidly in industrial scale for biosensing purposes. However, in electroanalytical applications properties of CNTs should be optimized for the analyte of interest.

Published

2021

18. X-ray spectroscopy fingerprints of pristine and functionalized graphene

Author

Aarva, A. (Anja), Sainio, S. (Sami), Deringer, V. L. (Volker L.), Caro, M. A. (Miguel A.), Laurila, T. (Tomi), Aarva, A. (Anja), Sainio, S. (Sami), Deringer, V. L. (Volker L.), Caro, M. A. (Miguel A.), and Laurila, T. (Tomi)

Abstract

In this work, we demonstrate how to identify and characterize the atomic structure of pristine and functionalized graphene materials from a combination of computational simulation of X-ray spectra, on the one hand, and computer-aided interpretation of experimental spectra, on the other. Despite the enormous scientific and industrial interest, the precise structure of these 2D materials remains under debate. As we show in this study, a wide range of model structures from pristine to heavily oxidized graphene can be studied and understood with the same approach. We move systematically from pristine to highly oxidized and defective computational models, and we compare the simulation results with experimental data. Comparison with experiments is valuable also the other way around; this method allows us to verify that the simulated models are close to the real samples, which in turn makes simulated structures amenable to several computational experiments. Our results provide ab initio semiquantitative information and a new platform for extended insight into the structure and chemical composition of graphene-based materials.

Published

2021

19. 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

20. Association of cord blood platelet count and volume with hemoglobin in healthy term infants

Author

Eskola, M, Juutistenaho, S, Aranko, K, Sainio, S, and Kekomäki, R

Published

2011

21. Biofouling affects the redox kinetics of outer and inner sphere probes on carbon surfaces drastically differently

Author

Peltola, E. (Emilia), Aarva, A. (Anja), Sainio, S. (Sami), Heikkinen, J. J. (Joonas J.), Wester, N. (Niklas), Jokinen, V. (Ville), Koskinen, J. (Jari), Laurila, T. (Tomi), Peltola, E. (Emilia), Aarva, A. (Anja), Sainio, S. (Sami), Heikkinen, J. J. (Joonas J.), Wester, N. (Niklas), Jokinen, V. (Ville), Koskinen, J. (Jari), and Laurila, T. (Tomi)

Abstract

Biofouling imposes a significant threat for sensing probes used in vivo. Antifouling strategies commonly utilize a protective layer on top of the electrode but this may compromise performance of the electrode. Here, we investigated the effect of surface topography and chemistry on fouling without additional protective layers. We have utilized two different carbon materials; tetrahedral amorphous carbon (ta-C) and SU-8 based pyrolytic carbon (PyC) in their typical smooth thin film structure as well as with a nanopillar topography templated from black silicon. The near edge X-ray absorption fine structure (NEXAFS) spectrum revealed striking differences in chemical functionalities of the surfaces. PyC contained equal amounts of ketone, hydroxyl and ether/epoxide groups, while ta-C contained significant amounts of carbonyl groups. Overall, oxygen functionalities were significantly increased on nanograss surfaces compared to the flat counterparts. Neither bovine serum albumin (BSA) or fetal bovine serum (FBS) fouling caused major effects on electron transfer kinetics of outer sphere redox (OSR) probe Ru(NH3)63+ on any of the materials. In contrast, negatively charged OSR probe IrCl62− kinetics were clearly affected by fouling, possibly due to the electrostatic repulsion between redox species and the anionically-charged proteins adsorbed on the electrode and/or stronger interaction of the proteins and positively charged surface. The OSR probe kinetics were less affected by fouling on PyC, probably due to conformational changes of proteins on the surface. Dopamine (DA) was tested as an inner sphere redox (ISR) probe and as expected, the kinetics were heavily dependent on the material; PyC had very fast electron transfer kinetics, while ta-C had sluggish kinetics. DA electron transfer kinetics were heavily affected on all surfaces by fouling (ΔEp increase 30—451%). The effect was stronger on PyC, possibly due to the more strongly adhered protein layer limiting the

Published

2020

22. Kohdunsisäinen punasolusiirto

Author

Jernman, R. (Riina), Aitokallio-Tallberg, A. (Ansa), Kauppinen, T. (Tuomas), Stefanovic, V. (Vedran), Sainio, S. (Susanna), Jernman, R. (Riina), Aitokallio-Tallberg, A. (Ansa), Kauppinen, T. (Tuomas), Stefanovic, V. (Vedran), and Sainio, S. (Susanna)

Abstract

Tiivistelmä Kohdunsisäisen verensiirron yleisin syy on äidin punasoluvasta-aineiden sikiölle aiheuttama hemolyyttinen anemia. Siksi jokaiselta odottavalta äidiltä seulotaan alkuraskaudessa veriryhmävasta-aineet. Myös parvovirus B19 voi aiheuttaa sikiön vaikean anemian. Parvorokkoa ei seulota, vaan se tulee esille äidin oireiden tai sikiöllä yllättäen havaitun turvotuksen eli hydropsin takia. Sikiön verensiirto vaatii taitoa ja toimenpiteeseen liittyy riskejä, mutta ilman hoitoa sikiö kuolee tai vastasyntynyt vammautuu pysyvästi. Vaikka valtaosa kohdunsisäisesti hoidetuista sikiöistä jää eloon, esiintyy näillä lapsilla enemmän neurologista pitkäaikaissairastavuutta. Sikiöiden verensiirrot on Suomessa keskitetty Helsingin ja Oulun yliopistollisiin sairaaloihin., Intrauterine blood transfusion The major indication for intrauterine transfusion is fetal hemolytic anemia, caused by maternal red blood cell antibodies. Nonimmune causes, such as parvovirus, are less common. The procedure is associated with significant risks for complications, but without treatment the fetus either dies or suffers from permanent neurodevelopmental disability. Even though most children treated in utero survive, they have a higher risk for long-term neurological impairment. An effective antibody screening program and follow-up protocols for those at risk are essential. The best outcome is achieved when the treatment of fetal anemia is initiated on time. As intrauterine transfusions are nowadays infrequent, they should be centralized to large fetomaternal units where the expertise, high-quality results and operative skills are best maintained.

Published

2020

23. Effect of electrochemical oxidation on physicochemical properties of Fe‐containing single‐walled carbon nanotubes

Author

Leppänen, E. (Elli), Sainio, S. (Sami), Jiang, H. (Hua), Mikladal, B. (Bjørn), Varjos, I. (Ilkka), Laurila, T. (Tomi), Leppänen, E. (Elli), Sainio, S. (Sami), Jiang, H. (Hua), Mikladal, B. (Bjørn), Varjos, I. (Ilkka), and Laurila, T. (Tomi)

Abstract

Metal catalysts are necessary for fabricating carbon nanotubes, but are often considered impurities in the end products, and arduous steps are used to remove catalyst residues from the nanotube structure. However, as metals can be electrocatalytic, instead of removing them we can utilize their role in detection of analgesics. Herein, we study the physicochemical properties of Fe‐containing single‐walled carbon nanotubes (SWCNTs), and the effect of simple oxidative pretreatment on them. We show that a gentle anodic pretreatment i) increased the amount of oxidized Fe nanoparticles, most likely exhibiting phases Fe₃O₄ and Fe₂O₃ and ii) effectively removed disordered carbonaceous material from SWCNT bundles surfaces. Pretreatment had only a marginal effect on sensitivity towards analgesics. However, interestingly, selectivity of Fe‐SWCNTs towards paracetamol and morphine could be modified with pretreatment. Through this kind of in‐depth investigation, we can, to a certain extent, correlate various material properties of SWCNTs with the observed electrochemical performance. This approach allows us to evaluate what factors in SWCNTs truly affect the electrochemical detection of biomolecules.

Published

2020

24. Terveydenhuollon kansalliset laaturekisteripilotit loppusuoralla

Author

Keinänen, M. (Mika), Brummer-Korvenkontio, H. (Henrikki), Eskola, M. (Markku), Ettala, O. (Otto), Hartikainen, J. (Juha), Hovi, P. (Petteri), Isosomppi, S. (Sanna), Kivelä, P. (Pia), Kärki, J. (Johanna), Kärkkäinen, J. (Jukka), Laatikainen, T. (Tiina), Liukko, E. (Emmi), Niemi, A. (Anu), Mattila, E. (Elina), Meriläinen, M. (Merja), Mustonen, P. (Pirjo), Pekkanen, L. (Liisa), Puolakka, K. (Kari), Relas, H. (Heikki), Sainio, S. (Salla), Salo, H. (Henri), Salonen, J. (Jonna), Sokka-Isler, T. (Tuulikki), Suvisaari, J. (Jaana), Tahkola, A. (Aapo), Tiirinki, H. (Hanna), Vähäsalo, P. (Paula), Malmivaara, A. (Antti), Keinänen, M. (Mika), Brummer-Korvenkontio, H. (Henrikki), Eskola, M. (Markku), Ettala, O. (Otto), Hartikainen, J. (Juha), Hovi, P. (Petteri), Isosomppi, S. (Sanna), Kivelä, P. (Pia), Kärki, J. (Johanna), Kärkkäinen, J. (Jukka), Laatikainen, T. (Tiina), Liukko, E. (Emmi), Niemi, A. (Anu), Mattila, E. (Elina), Meriläinen, M. (Merja), Mustonen, P. (Pirjo), Pekkanen, L. (Liisa), Puolakka, K. (Kari), Relas, H. (Heikki), Sainio, S. (Salla), Salo, H. (Henri), Salonen, J. (Jonna), Sokka-Isler, T. (Tuulikki), Suvisaari, J. (Jaana), Tahkola, A. (Aapo), Tiirinki, H. (Hanna), Vähäsalo, P. (Paula), and Malmivaara, A. (Antti)

Published

2020

25. Unmodified and multi-walled carbon nanotube modified tetrahedral amorphous carbon (ta-C) films as in vivo sensor materials for sensitive and selective detection of dopamine

Author

Palomäki, T. (Tommi), Peltola, E. (Emilia), Sainio, S. (Sami), Wester, N. (Niklas), Pitkänen, O. (Olli), Kordas, K. (Krisztian), Koskinen, J. (Jari), Laurila, T. (Tomi), Palomäki, T. (Tommi), Peltola, E. (Emilia), Sainio, S. (Sami), Wester, N. (Niklas), Pitkänen, O. (Olli), Kordas, K. (Krisztian), Koskinen, J. (Jari), and Laurila, T. (Tomi)

Abstract

Unmodified and multi-walled carbon nanotube (MWCNT) modified tetrahedral amorphous carbon (ta-C) films of 15 and 50 nm were investigated as potential in vivo sensor materials for the detection of dopamine (DA) in the presence of the main interferents, ascorbic acid (AA) and uric acid (UA). The MWCNTs were grown directly on ta-C by chemical vapor deposition (designated as ta-C+CNT) and were characterized with X-ray photoelectron spectroscopy, Raman spectroscopy, scanning and transmission electron microscopy. Electroanalytical sensitivity and selectivity were determined with cyclic voltammetry. Biocompatibility of the materials was assessed with cell cultures of mouse neural stem cells (mNSCs). The detection limits of DA for both ta-C and ta-C+CNT electrodes ranged from 40 to 85 nM, which are well within the required range for in vivo detection. The detection limits were lower for both ta-C and ta-C+CNT electrodes with 50 nm of ta-C compared to 15 nm. The ta-C electrodes showed a large dynamic linear range of 0.01–100 µM but could not resolve between the oxidation peaks of DA, AA and UA. Modification with MWCNTs, however, resulted in excellent selectivity and all three analytes could be detected simultaneously at physiologically relevant concentrations using cyclic voltammetry. Based on cell culture of mNSCs, both ta-C and ta-C+CNT exhibited good biocompatibility, demonstrating their potential as in vivo sensor materials for the detection of DA.

Published

2018

26. Prevention of transfusion-transmitted cytomegalovirus (CMV) infection : Standards of care

Author

Lieberman, L., Devine, D. V., Reesink, H. W., Panzer, S., Wong, J., Raison, T., Benson, S., Pink, J., Leitner, G. C., Horvath, M., Compernolle, V., Prado Scuracchio, P. S., Wendel, S., Delage, G., Nahirniak, S., Dongfu, X., Krusius, T., Juvonen, E., Sainio, S., Cazenave, J. -P., Guntz, P., Kientz, D., Andreu, G., Morel, P., Seifried, E., Hourfar, K., Lin, C. K., O'Riordan, J., Raspollini, E., Villa, S., Rebulla, P., Flanagan, P., Teo, D., Lam, S., Ang, A. L., Lozano, M., Sauleda, S., Cid, J., Pereira, A., Ekermo, Bengt, Niederhauser, C., Waldvogel, S., Fontana, S., Desborough, M. J., Pawson, R., Li, M., Kamel, H., Busch, M., Qu, L., Triulzi, D., Lieberman, L., Devine, D. V., Reesink, H. W., Panzer, S., Wong, J., Raison, T., Benson, S., Pink, J., Leitner, G. C., Horvath, M., Compernolle, V., Prado Scuracchio, P. S., Wendel, S., Delage, G., Nahirniak, S., Dongfu, X., Krusius, T., Juvonen, E., Sainio, S., Cazenave, J. -P., Guntz, P., Kientz, D., Andreu, G., Morel, P., Seifried, E., Hourfar, K., Lin, C. K., O'Riordan, J., Raspollini, E., Villa, S., Rebulla, P., Flanagan, P., Teo, D., Lam, S., Ang, A. L., Lozano, M., Sauleda, S., Cid, J., Pereira, A., Ekermo, Bengt, Niederhauser, C., Waldvogel, S., Fontana, S., Desborough, M. J., Pawson, R., Li, M., Kamel, H., Busch, M., Qu, L., and Triulzi, D.

Abstract

n/a

Published

2014

27. Genetic dissection of the pre-eclampsia susceptibility locus on chromosome 2q22 reveals shared novel risk factors for cardiovascular disease

Author

Johnson, M., Brennecke, S., East, C., Dyer, T., Roten, L., Proffitt, J., Melton, P., Fenstad, M., Aalto-Viljakainen, T., Mäkikallio, K., Heinonen, S., Kajantie, E., Kere, J., Laivuori, H., Austgulen, R., Blangero, J., Moses, Eric, Pouta, A., Kivinen, K., Ekholm, E., Hietala, R., Sainio, S., Saisto, T., Uotila, J., Klemetti, M., Lokki, A., Georgiadis, L., Johnson, M., Brennecke, S., East, C., Dyer, T., Roten, L., Proffitt, J., Melton, P., Fenstad, M., Aalto-Viljakainen, T., Mäkikallio, K., Heinonen, S., Kajantie, E., Kere, J., Laivuori, H., Austgulen, R., Blangero, J., Moses, Eric, Pouta, A., Kivinen, K., Ekholm, E., Hietala, R., Sainio, S., Saisto, T., Uotila, J., Klemetti, M., Lokki, A., and Georgiadis, L.

Abstract

Pre-eclampsia is an idiopathic pregnancy disorder promoting morbidity and mortality to both mother and child. Delivery of the fetus is the only means to resolve severe symptoms. Women with pre-eclamptic pregnancies demonstrate increased risk for later life cardiovascular disease (CVD) and good evidence suggests these two syndromes share several risk factors and pathophysiological mechanisms. To elucidate the genetic architecture of pre-eclampsia we have dissected our chromosome 2q22 susceptibility locus in an extended Australian and New Zealand familial cohort. Positional candidate genes were prioritized for exon-centric sequencing using bioinformatics, SNPing, transcriptional profiling and QTL-walking. In total, we interrogated 1598 variants from 52 genes. Four independent SNP associations satisfied our gene-centric multiple testing correction criteria: a missense LCT SNP (rs2322659, P = 0.0027), a synonymous LRP1B SNP (rs35821928, P = 0.0001), an UTR-3 RND3 SNP (rs115015150, P = 0.0024) and a missense GCA SNP (rs17783344, P = 0.0020). We replicated the LCT SNP association (P = 0.02) and observed a borderline association for the GCA SNP (P = 0.07) in an independent Australian case–control population. The LRP1B and RND3 SNP associations were not replicated in this same Australian singleton cohort. Moreover, these four SNP associations could not be replicated in two additional case–control populations from Norway and Finland. These four SNPs, however, exhibit pleiotropic effects with several quantitative CVD-related traits. Our results underscore the genetic complexity of pre-eclampsia and present novel empirical evidence of possible shared genetic mechanisms underlying both pre-eclampsia and other CVD-related risk factors.

Published

2013

28. Association of cord blood platelet count and volume with hemoglobin in healthy term infants

Author

Eskola, M, primary, Juutistenaho, S, additional, Aranko, K, additional, Sainio, S, additional, and Kekomäki, R, additional

Published

2010

29. Open randomised study of use of levonorgestrel releasing intrauterine system as alternative to hysterectomy Commentary: Promising results but wider recruitment needed

Author

Lahteenmaki, P., primary, Haukkamaa, M., additional, Puolakka, J., additional, Riikonen, U., additional, Sainio, S., additional, Suvisaari, J., additional, Nilsson, C. G., additional, and Prentice, A., additional

Published

1998

30. Ultrathin Boron Growth onto Nanodiamond Surfaces via Electrophilic Boron Precursors.

Author

Govindaraju K, Supreme T, Labunsky DN, Martin N, Del Rosario JM, Washington A, Uwadiale EO, Adjei S 2nd, Ladjadj S, Melendrez CV, Lee SJ, Altoe MV, Green A, Riano S, Sainio S, Nordlund D, and Wolcott A

Abstract

Diamond as a templating substrate is largely unexplored, and the unique properties of diamond, including its large bandgap, thermal conductance, and lack of cytotoxicity, makes it versatile in emergent technologies in medicine and quantum sensing. Surface termination of an inert diamond substrate and its chemical reactivity are key in generating new bonds for nucleation and growth of an overlayer material. Oxidized high-pressure high temperature (HPHT) nanodiamonds (NDs) are largely terminated by alcohols that act as nucleophiles to initiate covalent bond formation when an electrophilic reactant is available. In this work, we demonstrate a templated synthesis of ultrathin boron on ND surfaces using trigonal boron compounds. Boron trichloride (BCl 3 ), boron tribromide (BBr 3 ), and borane (BH 3 ) were found to react with ND substrates at room temperature in inert conditions. BBr 3 and BCl 3 were highly reactive with the diamond surface, and sheet-like structures were produced and verified with electron microscopy. Surface-sensitive spectroscopies were used to probe the molecular and atomic structure of the ND constructs' surface, and quantification showed the boron shell was less than 1 nm thick after 1-24 h reactions. Observation of the reaction supports a self-terminating mechanism, similar to atomic layer deposition growth, and is likely due to the quenching of alcohols on the diamond surface. X-ray absorption spectroscopy revealed that boron-termination generated midgap electronic states that were originally predicted by density functional theory (DFT) several years ago. DFT also predicted a negative electron surface, which has yet to be confirmed experimentally here. The boron-diamond nanostructures were found to aggregate in dichloromethane and were dispersed in various solvents and characterized with dynamic light scattering for future cell imaging or cancer therapy applications using boron neutron capture therapy (BNCT). The unique templating mechanism based on nucleophilic alcohols and electrophilic trigonal precursors allows for covalent bond formation and will be of interest to researchers using diamond for quantum sensing, additive manufacturing, BNCT, and potentially as an electron emitter., Competing Interests: AW (Abraham Wolcott), KG, DL, SL and EOU declare that a patent submitted to the United States Office of Patents and Trademarks is based on this work (US Patent App. 18/454,139).

Published

2024

31. Self-terminating, heterogeneous solid-electrolyte interphase enables reversible Li-ether cointercalation in graphite anodes.

Author

Xia D, Jeong H, Hou D, Tao L, Li T, Knight K, Hu A, Kamphaus EP, Nordlund D, Sainio S, Liu Y, Morris JR, Xu W, Huang H, Li L, Xiong H, Cheng L, and Lin F

Abstract

Ether solvents are suitable for formulating solid-electrolyte interphase (SEI)-less ion-solvent cointercalation electrolytes in graphite for Na-ion and K-ion batteries. However, ether-based electrolytes have been historically perceived to cause exfoliation of graphite and cell failure in Li-ion batteries. In this study, we develop strategies to achieve reversible Li-solvent cointercalation in graphite through combining appropriate Li salts and ether solvents. Specifically, we design 1M LiBF 4 1,2-dimethoxyethane (G1), which enables natural graphite to deliver ~91% initial Coulombic efficiency and >88% capacity retention after 400 cycles. We captured the spatial distribution of LiF at various length scales and quantified its heterogeneity. The electrolyte shows self-terminated reactivity on graphite edge planes and results in a grainy, fluorinated pseudo-SEI. The molecular origin of the pseudo-SEI is elucidated by ab initio molecular dynamics (AIMD) simulations. The operando synchrotron analyses further demonstrate the reversible and monotonous phase transformation of cointercalated graphite. Our findings demonstrate the feasibility of Li cointercalation chemistry in graphite for extreme-condition batteries. The work also paves the foundation for understanding and modulating the interphase generated by ether electrolytes in a broad range of electrodes and batteries., Competing Interests: Competing interests statement:A provisional patent containing some of the data presented in this work has been filed. Portions of the findings presented in this manuscript have been incorporated into a patent application submitted by Virginia Tech.

Published

2024

32. Quantum Diamonds at the Beach: Chemical Insights into Silica Growth on Nanoscale Diamond using Multimodal Characterization and Simulation.

Author

Sandoval PJ, Lopez K, Arreola A, Len A, Basravi N, Yamaguchi P, Kawamura R, Stokes CX, Melendrez C, Simpson D, Lee SJ, Titus CJ, Altoe V, Sainio S, Nordlund D, Irwin K, and Wolcott A

Abstract

Surface chemistry of materials that host quantum bits such as diamond is an important avenue of exploration as quantum computation and quantum sensing platforms mature. Interfacing diamond in general and nanoscale diamond (ND) in particular with silica is a potential route to integrate room temperature quantum bits into photonic devices, fiber optics, cells, or tissues with flexible functionalization chemistry. While silica growth on ND cores has been used successfully for quantum sensing and biolabeling, the surface mechanism to initiate growth was unknown. This report describes the surface chemistry responsible for silica bond formation on diamond and uses X-ray absorption spectroscopy (XAS) to probe the diamond surface chemistry and its electronic structure with increasing silica thickness. A modified Stöber (Cigler) method was used to synthesize 2-35 nm thick shells of SiO 2 onto carboxylic acid-rich ND cores. The diamond morphology, surface, and electronic structure were characterized by overlapping techniques including electron microscopy. Importantly, we discovered that SiO 2 growth on carboxylated NDs eliminates the presence of carboxylic acids and that basic ethanolic solutions convert the ND surface to an alcohol-rich surface prior to silica growth. The data supports a mechanism that alcohols on the ND surface generate silyl-ether (ND-O-Si-(OH) 3 ) bonds due to rehydroxylation by ammonium hydroxide in ethanol. The suppression of the diamond electronic structure as a function of SiO 2 thickness was observed for the first time, and a maximum probing depth of ∼14 nm was calculated. XAS spectra based on the Auger electron escape depth was modeled using the NIST database for the Simulation of Electron Spectra for Surface Analysis (SESSA) to support our experimental results. Additionally, resonant inelastic X-ray scattering (RIXS) maps produced by the transition edge sensor reinforces the chemical analysis provided by XAS. Researchers using diamond or high-pressure high temperature (HPHT) NDs and other exotic materials (e.g., silicon carbide or cubic-boron nitride) for quantum sensing applications may exploit these results to design new layered or core-shell quantum sensors by forming covalent bonds via surface alcohol groups., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

33. The effect of single kinetic oscillation stimulation treatment on nonallergic rhinitis.

Author

Sainio S, Blomgren K, Laulajainen-Hongisto A, and Lundberg M

Abstract

Objective: Kinetic oscillation stimulation (KOS) is a new treatment method for nonallergic rhinitis (NAR), usually delivered twice with a 2- to 4-week interval, and thought to stabilize autonomous dysregulation in the nasal mucosa. We aimed to assess the long-term (1 year) results following one KOS treatment amongst patients with NAR., Methods: KOS was administered through a latex balloon placed in the patient's nasal cavity. The balloon is connected to a device that fills the balloon with air pulses, thus vibrating the balloon for 10 min per side. Outcomes were evaluated through patient-reported outcome measures (Sino-Nasal Outcome Test 22 [SNOT-22], Total Nasal Symptom Score [TNSS], Nasal Obstruction Symptom Evaluation [NOSE], and 15D) and measures of patency (rhinomanometry, acoustic rhinometry, peak nasal inspiratory flow [PNIF], and clinical inferior turbinate size). Pre-treatment actions were repeated at 1, 3, 6, and 12 months., Results: In all 49 patients, we found significant improvement in the SNOT-22, NOSE, and TNSS scores. At 12 months, SNOT-22 improved from 44 to 34, NOSE from 60 to 45, TNSS from 8 to 7, and PNIF from 80 to 100 L/min ( p  < .005 for all). We observed no major complications., Conclusion: One KOS treatment appears to provide NAR patients with a subjective symptom improvement for at least 1 year, thus possibly decreasing the need for invasive treatment methods., Level of Evidence: III., Competing Interests: The authors declare no conflicts of interest., (© 2023 The Authors. Laryngoscope Investigative Otolaryngology published by Wiley Periodicals LLC on behalf of The Triological Society.)

Published

2023

34. Frontal Sinus Balloon Sinuplasty-Patient Satisfaction and Factors Predicting Reoperation.

Author

Sainio S, Blomgren K, Koskinen A, and Lundberg M

Abstract

Objective: To explore predictive factors of postoperative outcome of frontal sinus balloon dilation., Study Design: Retrospective questionnaire study., Setting: Department of Otorhinolaryngology-Head and Neck Surgery, Helsinki University Hospital and University of Helsinki, Finland., Methods: We reviewed electronic records of all patients who underwent frontal sinus balloon dilatation (successful or attempted) in our clinic from 2008 to 2019. We documented patient characteristics, preoperative imaging results, intraoperative factors, possible complications, and reoperations. Those who underwent frontal sinus balloon sinuplasty were sent a questionnaire regarding their current symptoms and long-term satisfaction with surgery., Results: In total, 258 operations (404 frontal sinuses) were reviewed, with a technical success rate of 93.6% (n = 378). The revision rate was 15.7% (n = 38). Previous sinonasal surgery predicted a higher revision rate ( p  = .004, odds ratio [OR] = 3.03, 95% confidence interval [CI] 1.40-6.56). Patients with hybrid surgery had significantly fewer reoperations compared to the balloon only group ( p  = .002, OR = 0.33, 95% CI 0.16-0.67). The response rate of the questionnaire was 64.5% (n = 156), of which 88.5% (n = 138) reported a long-term benefit from the balloon sinuplasty. Patient satisfaction was higher ( p  = .02, OR = 8.26, 95% CI 1.06-64.24) among patients using nasal corticosteroids., Conclusion: Technical success rate and patient satisfaction after frontal sinus balloon sinuplasty are high. Balloon sinuplasty seems insufficient in reoperations. A hybrid approach appears to result in fewer reoperations than a balloon only approach., Competing Interests: None., (© 2023 The Authors. OTO Open published by Wiley Periodicals LLC on behalf of American Academy of Otolaryngology–Head and Neck Surgery Foundation.)

Published

2023

35. Combined oral contraceptives containing estradiol valerate vs ethinylestradiol on coagulation: A randomized clinical trial.

Author

Haverinen AH, Luiro KM, Szanto T, Kangasniemi MH, Hiltunen L, Sainio S, Piltonen TT, Lassila R, Tapanainen JS, and Heikinheimo O

Subjects

Adolescent, Adult, Estradiol, Estrogens, Ethinyl Estradiol pharmacology, Female, Fibrin, Humans, Levonorgestrel, Progestins, Thrombin, Thromboplastin, Young Adult, Contraceptives, Oral, Combined pharmacology, Nandrolone pharmacology

Abstract

Introduction: Contraceptives containing ethinylestradiol (EE) induce changes in the coagulation system and are associated with a risk of venous thromboembolism. However, studies comparing the effects of combined oral contraceptives containing EE and low-potency estrogens (ie, estradiol [E 2 ] and estradiol valerate [EV]) on coagulation biomarkers are limited. This study represents secondary outcomes of a randomized trial comparing combined oral contraceptives containing EV + dienogest (DNG), EE + DNG, and DNG alone on selected coagulation biomarkers. We could compare the specific effects of the different estrogen components owing to the inclusion of preparations containing the same progestin., Material and Methods: We enrolled 59 healthy, 18- to 35-year-old, non-smoking women, of whom three discontinued. The participants were randomly allocated to 9 weeks of continuous treatment with EV 2 mg + DNG 2-3 mg (n = 20), EE 0.03 mg + DNG 2 mg (n = 20), or DNG 2 mg (n = 19). Blood samples were collected at baseline and after 9 weeks. We assessed coagulation in vitro by thrombin generation using the Calibrated Automated Thrombogram. Thrombin generation was evaluated by lag time, time to thrombin peak, thrombin peak, and endogenous thrombin potential in response to tissue factor (1 pm). In vivo coagulation assessment was based on levels of prothrombin fragment 1 + 2 (F1 + 2) (thrombin generation) and D-dimer (fibrin turnover)., Clinical Trial Registration: NCT02352090., Results: Lag time and time to thrombin peak remained unaltered after exposure to EV + DNG, whereas EE + DNG shortened both lag time (mean percentage change -24%, 95% confidence interval [CI] -32% to -15%; p < 0.01) and time to thrombin peak (-26%, 95% CI -37% to -16%; p < 0.01). EV + DNG induced lower thrombin peak and endogenous thrombin potential than EE + DNG (peak; +45%, 95% CI 22%-67% vs +147%,95% CI 96%-198%; p < 0.01, and endogenous thrombin potential; +26%, 95% CI 15%-38% vs +64%, 95% CI 51%-76%; p < 0.01). Median F1 + 2 levels remained unchanged with EV + DNG (p = 0.22) but increased within normal ranges with EE + DNG (from 152 pmol/L, 95% CI 127-206] pmol/L to 194 pmol/L, 95% CI 149-250 pmol/L, p = 0.04). The within-group change in D-dimer levels was not significant in any of the groups. DNG alone did not affect these biomarkers., Conclusions: Both in vitro and in vivo thrombin generation was lower after exposure to EV + DNG compared with EE + DNG. The lower thrombin generation measures after treatment with EV + DNG indicate less enhancement of coagulation potential and suggest that EV may be favorable to EE as a component of combined oral contraceptives., (© 2022 The Authors. Acta Obstetricia et Gynecologica Scandinavica published by John Wiley & Sons Ltd on behalf of Nordic Federation of Societies of Obstetrics and Gynecology (NFOG).)

Published

2022

36. Compositionally complex doping for zero-strain zero-cobalt layered cathodes.

Author

Zhang R, Wang C, Zou P, Lin R, Ma L, Yin L, Li T, Xu W, Jia H, Li Q, Sainio S, Kisslinger K, Trask SE, Ehrlich SN, Yang Y, Kiss AM, Ge M, Polzin BJ, Lee SJ, Xu W, Ren Y, and Xin HL

Abstract

The high volatility of the price of cobalt and the geopolitical limitations of cobalt mining have made the elimination of Co a pressing need for the automotive industry 1 . Owing to their high energy density and low-cost advantages, high-Ni and low-Co or Co-free (zero-Co) layered cathodes have become the most promising cathodes for next-generation lithium-ion batteries 2,3 . However, current high-Ni cathode materials, without exception, suffer severely from their intrinsic thermal and chemo-mechanical instabilities and insufficient cycle life. Here, by using a new compositionally complex (high-entropy) doping strategy, we successfully fabricate a high-Ni, zero-Co layered cathode that has extremely high thermal and cycling stability. Combining X-ray diffraction, transmission electron microscopy and nanotomography, we find that the cathode exhibits nearly zero volumetric change over a wide electrochemical window, resulting in greatly reduced lattice defects and local strain-induced cracks. In-situ heating experiments reveal that the thermal stability of the new cathode is significantly improved, reaching the level of the ultra-stable NMC-532. Owing to the considerably increased thermal stability and the zero volumetric change, it exhibits greatly improved capacity retention. This work, by resolving the long-standing safety and stability concerns for high-Ni, zero-Co cathode materials, offers a commercially viable cathode for safe, long-life lithium-ion batteries and a universal strategy for suppressing strain and phase transformation in intercalation electrodes., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

37. Rh Blood Group D Antigen Genotyping Using a Portable Nanopore-based Sequencing Device: Proof of Principle.

Author

Tounsi WA, Lenis VP, Tammi SM, Sainio S, Haimila K, Avent ND, and Madgett TE

Subjects

Alleles, Genotype, Humans, Rh-Hr Blood-Group System genetics, Nanopore Sequencing, Nanopores

Abstract

Background: Nanopore sequencing is direct sequencing of a single-stranded DNA molecule using biological pores. A portable nanopore-based sequencing device from Oxford Nanopore Technologies (MinION) depends on driving a DNA molecule through nanopores embedded in a membrane using a voltage. Changes in current are then measured by a sensor, thousands of times per second and translated to nucleobases., Methods: Genomic DNA (gDNA) samples (n = 13) were tested for Rh blood group D antigen (RHD) gene zygosity using droplet digital PCR. The RHD gene was amplified in 6 overlapping amplicons using long-range PCR. Amplicons were purified, and the sequencing library was prepared following the 1D Native barcoding gDNA protocol. Sequencing was carried out with 1D flow cells R9 version. Data analysis included basecalling, aligning to the RHD reference sequence, and calling variants. Variants detected were compared to the results acquired previously by the Ion Personal Genome Machine (Ion PGM)., Results: Up to 500× sequence coverage across the RHD gene allowed accurate variant calling. Exonic changes in the RHD gene allowed RHD allele determination for all samples sequenced except 1 RHD homozygous sample, where 2 heterozygous RHD variant alleles are suspected. There were 3 known variant RHD alleles (RHD*01W.02, RHD*11, and RHD*15) and 6 novel RHD variant alleles, as previously seen in Ion PGM sequencing data for these samples., Conclusions: MinION was effective in blood group genotyping, provided enough sequencing data to achieve high coverage of the RHD gene, and enabled confident calling of variants and RHD allele determination., Competing Interests: Authors’ Disclosures or Potential Conflicts of Interest: Upon manuscript submission, all authors completed the author disclosure form. Disclosures and/or potential conflicts of interest:, (© American Association for Clinical Chemistry 2022.)

Published

2022

38. Ultrafast photoresponse of vertically oriented TMD films probed in a vertical electrode configuration on Si chips.

Author

Järvinen T, Hosseini Shokouh SH, Sainio S, Pitkänen O, and Kordas K

Abstract

Integrated photodetectors based on transition metal dichalcogenides (TMDs) face the challenge of growing their high-quality crystals directly on chips or transferring them to the desired locations of components by applying multi-step processes. Herein, we show that vertically oriented polycrystalline thin films of MoS 2 and WS 2 grown by sulfurization of Mo and W sputtered on highly doped Si are robust solutions to achieve on-chip photodetectors with a sensitivity of up to 1 mA W -1 and an ultrafast response time in the sub-μs regime by simply probing the device in a vertical arrangement, i.e. , parallel to the basal planes of TMDs. These results are two orders of magnitude better than those measured earlier in lateral probing setups having both electrodes on top of vertically aligned polycrystalline TMD films. Accordingly, our study suggests that easy-to-grow vertically oriented polycrystalline thin film structures may be viable components in fast photodetectors as well as in imaging, sensing and telecommunication devices., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

39. Maternal health care utilization and the obstetric outcomes of undocumented women in Finland - a retrospective register-based study.

Author

Tasa J, Holmberg V, Sainio S, Kankkunen P, and Vehviläinen-Julkunen K

Subjects

Adult, Female, Finland epidemiology, Health Services Accessibility statistics & numerical data, Humans, Patient Acceptance of Health Care, Pregnancy, Pregnancy Outcome epidemiology, Prevalence, Vulnerable Populations, Maternal Health Services standards, Maternal Health Services statistics & numerical data, Perinatal Care methods, Perinatal Care standards, Pregnancy Complications, Infectious diagnosis, Pregnancy Complications, Infectious epidemiology, Prenatal Diagnosis methods, Prenatal Diagnosis statistics & numerical data, Undocumented Immigrants statistics & numerical data

Abstract

Background: Undocumented pregnant women constitute a vulnerable group of people who lack equal access to pregnancy care. Previous research has shown that undocumented migrants encounter difficulties in accessing health services, the onset of prenatal care is delayed, and women have an increased risk for infectious diseases. The aim of this study was to describe the use of maternal health care services and the obstetric outcomes of undocumented women in Helsinki, capital city of Finland, in addition to comparing the results with all pregnant women in Finland., Methods: The study was a retrospective register-based study consisting of data collected between 2014 to 2018 from the electronic medical records of the public maternity clinic and maternity hospital in Helsinki, Finland. The study population consists of 62 individual pregnancies of undocumented women. The results of the study were compared with national data on parturients and deliveries (N = 47,274 women) and with prenatal screening tests for infectious diseases (N = 51,447 [HIV, HBV], N = 51,446 [syphilis])., Results: The majority (91%) of the undocumented women attended public prenatal care. However, four women received no prenatal care and three women were denied access to care. Undocumented women entered prenatal care later and had fewer visits compared with all pregnant women. The majority (71%) of the undocumented women received inadequate prenatal care as the number of visits was less than eight. Of the study population, 5% (3/59) tested positive for HIV, 3% (2/59) for HBV, and 2% (1/57) for syphilis. The prevalence of HIV (p-value < 0.001) and HBV (p-value = 0.007) was significantly higher amongst undocumented women compared with all pregnant women., Conclusions: Undocumented women entered prenatal care later than recommended. Most women received inadequate prenatal care and some of them did not receive prenatal care at all. The prevalence of infectious diseases was significantly higher and the coverage of prenatal screenings deficient amongst undocumented pregnant women.

Published

2021

40. Carrier-specific dynamics in 2H-MoTe 2 observed by femtosecond soft x-ray absorption spectroscopy using an x-ray free-electron laser.

Author

Britz A, Attar AR, Zhang X, Chang HT, Nyby C, Krishnamoorthy A, Park SH, Kwon S, Kim M, Nordlund D, Sainio S, Heinz TF, Leone SR, Lindenberg AM, Nakano A, Ajayan P, Vashishta P, Fritz D, Lin MF, and Bergmann U

Abstract

Femtosecond carrier dynamics in layered 2H-MoTe 2 semiconductor crystals have been investigated using soft x-ray transient absorption spectroscopy at the x-ray free-electron laser (XFEL) of the Pohang Accelerator Laboratory. Following above-bandgap optical excitation of 2H-MoTe 2 , the photoexcited hole distribution is directly probed via short-lived transitions from the Te 3 d 5/2 core level (M 5 -edge, 572-577 eV) to transiently unoccupied states in the valence band. The optically excited electrons are separately probed via the reduced absorption probability at the Te M 5 -edge involving partially occupied states of the conduction band. A 400 ± 110 fs delay is observed between this transient electron signal near the conduction band minimum compared to higher-lying states within the conduction band, which we assign to hot electron relaxation. Additionally, the transient absorption signals below and above the Te M 5 edge, assigned to photoexcited holes and electrons, respectively, are observed to decay concomitantly on a 1-2 ps timescale, which is interpreted as electron-hole recombination. The present work provides a benchmark for applications of XFELs for soft x-ray absorption studies of carrier-specific dynamics in semiconductors, and future opportunities enabled by this method are discussed., (© 2021 Author(s).)

Published

2021

41. Next-generation sequencing of 35 RHD variants in 16 253 serologically D- pregnant women in the Finnish population.

Author

Tammi SM, Tounsi WA, Sainio S, Kiernan M, Avent ND, Madgett TE, and Haimila K

Subjects

Female, Finland, High-Throughput Nucleotide Sequencing, Humans, Pregnancy, Prenatal Diagnosis, Pregnant Women, Rh-Hr Blood-Group System genetics

Abstract

Fetal RHD screening for targeted routine antenatal anti-D prophylaxis has been implemented in many countries, including Finland, since the 2010s. Comprehensive knowledge of the RHD polymorphism in the population is essential for the performance and safety of the anti-D prophylaxis program. During the first 3 years of the national screening program in Finland, over 16 000 samples from RhD- women were screened for fetal RHD; among them, 79 samples (0.5%) containing a maternal variant allele were detected. Of the detected maternal variants, 35 cases remained inconclusive using the traditional genotyping methods and required further analysis by next-generation sequencing (NGS) of the whole RHD gene to uncover the variant allele. In addition to the 13 RHD variants that have been previously reported in different populations, 8 novel variants were also detected, indicating that there is more variation of RHD in the RhD- Finnish population than has been previously known. Three of the novel alleles were identified in multiple samples; thus, they are likely specific to the original Finnish population. National screening has thus provided new information about the diversity of RHD variants in the Finnish population. The results show that NGS is a powerful method for genotyping the highly polymorphic RHD gene compared with traditional methods that rely on the detection of specific nucleotides by polymerase chain reaction amplification., (© 2020 by The American Society of Hematology.)

Published

2020

42. Corrigendum to "Unmodified and multi-walled carbon nanotube modified tetrahedral amorphous carbon (ta-C) films as in vivo sensor materials for sensitive and selective detection of dopamine" [Bios. Bioelectron. 118 (2018) 23-30].

Author

Palomäki T, Peltola E, Sainio S, Wester N, Pitkänen O, Kordas K, Koskinen J, and Laurila T

Published

2019

43. Unmodified and multi-walled carbon nanotube modified tetrahedral amorphous carbon (ta-C) films as in vivo sensor materials for sensitive and selective detection of dopamine.

Author

Palomäki T, Peltola E, Sainio S, Wester N, Pitkänen O, Kordas K, Koskinen J, and Laurila T

Subjects

Animals, Ascorbic Acid, Electrodes, Mice, Uric Acid, Biosensing Techniques methods, Carbon chemistry, Dopamine analysis, Nanotubes, Carbon chemistry

Abstract

Unmodified and multi-walled carbon nanotube (MWCNT) modified tetrahedral amorphous carbon (ta-C) films of 15 and 50 nm were investigated as potential in vivo sensor materials for the detection of dopamine (DA) in the presence of the main interferents, ascorbic acid (AA) and uric acid (UA). The MWCNTs were grown directly on ta-C by chemical vapor deposition (designated as ta-C+CNT) and were characterized with X-ray photoelectron spectroscopy, Raman spectroscopy, scanning and transmission electron microscopy. Electroanalytical sensitivity and selectivity were determined with cyclic voltammetry. Biocompatibility of the materials was assessed with cell cultures of mouse neural stem cells (mNSCs). The detection limits of DA for both ta-C and ta-C+CNT electrodes ranged from 40 to 85 nM, which are well within the required range for in vivo detection. The detection limits were lower for both ta-C and ta-C+CNT electrodes with 50 nm of ta-C compared to 15 nm. The ta-C electrodes showed a large dynamic linear range of 0.01-100 µM but could not resolve between the oxidation peaks of DA, AA and UA. Modification with MWCNTs, however, resulted in excellent selectivity and all three analytes could be detected simultaneously at physiologically relevant concentrations using cyclic voltammetry. Based on cell culture of mNSCs, both ta-C and ta-C+CNT exhibited good biocompatibility, demonstrating their potential as in vivo sensor materials for the detection of DA., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

44. Pt-grown carbon nanofibers for enzymatic glutamate biosensors and assessment of their biocompatibility.

Author

Isoaho N, Peltola E, Sainio S, Koskinen J, and Laurila T

Abstract

Application-specific carbon nanofibers grown from Pt-catalyst layers have been shown to be a promising material for biosensor development. Here we demonstrate immobilization of glutamate oxidase on them and their use for amperometric detection of glutamate at two different potentials. At -0.15 V vs. Ag/AgCl at concentrations higher than 100 μM the oxygen reduction reaction severely interferes with the enzymatic production of H 2 O 2 and consequently affects the detection of glutamate. On the other hand, at 0.6 V vs. Ag/AgCl enzyme saturation starts to affect the measurement above a glutamate concentration of 100 μM. Moreover, we suggest here that glutamate itself might foul Pt surfaces to some degree, which should be taken into account when designing Pt-based sensors operating at high anodic potentials. Finally, the Pt-grown and Ni-grown carbon nanofibers were shown to be biocompatible. However, the cells on Pt-grown carbon nanofibers had different morphology and formation of filopodia compared to those on Ni-grown carbon nanofibers. The effect was expected to be caused rather by the different fiber dimensions between the samples than the catalyst metal itself. Further experiments are required to find the optimal dimensions of CNFs for biological purposes., Competing Interests: There are no conflicts of interest to declare., (This journal is © The Royal Society of Chemistry.)

Published

2018

45. Characterization and electrochemical properties of iron-doped tetrahedral amorphous carbon (ta-C) thin films.

Author

Etula J, Wester N, Sainio S, Laurila T, and Koskinen J

Abstract

Iron-doped tetrahedral amorphous carbon thin films (Fe/ta-C) were deposited with varying iron content using a pulsed filtered cathodic vacuum arc system (p-FCVA). The aim of this study was to understand effects of iron on both the physical and electrochemical properties of the otherwise inert sp 3 -rich ta-C matrix. As indicated by X-ray photoelectron spectroscopy (XPS), even ∼0.4 at% surface iron had a profound electrochemical impact on both the potential window of ta-C in H 2 SO 4 and KOH, as well as pseudocapacitance. It also substantially enhanced the electron transport and re-enabled facile outer sphere redox reaction kinetics in comparison to un-doped ta-C, as measured with electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV) using outer-sphere probes Ru(NH 3 ) 6 , IrCl 6 , and FcMeOH. These increases in surface iron loading were linked to increased surface oxygen content and iron oxides. Unlike few other metals, an iron content even up to 10 at% was not found to result in the formation of sp 2 -rich amorphous carbon films as investigated by Raman spectroscopy. Atomic force microscopy (AFM) and transmission electron microscopy (TEM) investigations found all films to be amorphous and ultrasmooth with R q values always in the range of 0.1-0.2 nm. As even very small amounts of Fe were shown to dominate the electrochemistry of ta-C, implications of this study are very useful e.g. in carbon nanostructure synthesis, where irregular traces of iron can be readily incorporated into the final structures., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2018

46. Pt-grown carbon nanofibers for detection of hydrogen peroxide.

Author

Isoaho N, Sainio S, Wester N, Botello L, Johansson LS, Peltola E, Climent V, Feliu JM, Koskinen J, and Laurila T

Abstract

Removal of left-over catalyst particles from carbon nanomaterials is a significant scientific and technological problem. Here, we present the physical and electrochemical study of application-specific carbon nanofibers grown from Pt-catalyst layers. The use of Pt catalyst removes the requirement for any cleaning procedure as the remaining catalyst particles have a specific role in the end-application. Despite the relatively small amount of Pt in the samples (7.0 ± 0.2%), they show electrochemical features closely resembling those of polycrystalline Pt. In O 2 -containing environment, the material shows two separate linear ranges for hydrogen peroxide reduction: 1-100 μM and 100-1000 μM with sensitivities of 0.432 μA μM -1 cm -2 and 0.257 μA μM -1 cm -2 , respectively, with a 0.21 μM limit of detection. In deaerated solution, there is only one linear range with sensitivity 0.244 μA μM -1 cm -2 and 0.22 μM limit of detection. We suggest that the high sensitivity between 1 μM and 100 μM in solutions where O 2 is present is due to oxygen reduction reaction occurring on the CNFs producing a small additional cathodic contribution to the measured current. This has important implications when Pt-containing sensors are utilized to detect hydrogen peroxide reduction in biological, O 2 -containing environment., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2018

47. Application-Specific Catalyst Layers: Pt-Containing Carbon Nanofibers for Hydrogen Peroxide Detection.

Author

Laurila T, Sainio S, Jiang H, Isoaho N, Koehne JE, Etula J, Koskinen J, and Meyyappan M

Abstract

Complete removal of metal catalyst particles from carbon nanofibers (CNFs) and other carbon nanostructures is extremely difficult, and the envisioned applications may be compromised by the left-over impurities. To circumvent these problems, one should use, wherever possible, such catalyst materials that are meant to remain in the structure and have some application-specific role, making any removal steps unnecessary. Thus, as a proof-of-concept, we present here a nanocarbon-based material platform for electrochemical hydrogen peroxide measurement utilizing a Pt catalyst layer to grow CNFs with intact Pt particles at the tips of the CNFs. Backed by careful scanning transmission electron microscopy analysis, we show that this material can be readily realized with the Pt catalyst layer thickness impacting the resulting structure and also present a growth model to explain the evolution of the different types of structures. In addition, we show by electrochemical analysis that the material exhibits characteristic features of Pt in cyclic voltammetry and it can detect very small amounts of hydrogen peroxide with very fast response times. Thus, the present sensor platform provides an interesting electrode material with potential for biomolecule detection and in fuel cells and batteries. In the wider range, we propose a new approach where the selection of catalytic particles used for carbon nanostructure growth is made so that (i) they do not need to be removed and (ii) they will have essential role in the final application., Competing Interests: The authors declare no competing financial interest.

Published

2017

48. Morphological and chemical changes of aerosolized E. coli treated with a dielectric barrier discharge.

Author

Romero-Mangado J, Nordlund D, Soberon F, Deane G, Maughan K, Sainio S, Singh G, Daniels S, Saunders IT, Loftus D, Meyyappan M, Koehne J, and Gandhiraman RP

Subjects

Electricity, Escherichia coli physiology, Microbial Viability, Microscopy, Electron, Oxidation-Reduction, Spectroscopy, Fourier Transform Infrared, Surface Properties, X-Ray Absorption Spectroscopy, Aerosols, Escherichia coli chemistry, Escherichia coli cytology

Abstract

This study presents the morphological and chemical modification of the cell structure of aerosolized Escherichia coli treated with a dielectric barrier discharge (DBD). Exposure to DBD results in severe oxidation of the bacteria, leading to the formation of hydroxyl groups and carbonyl groups and a significant reduction in amine functionalities and phosphate groups. Near edge x-ray absorption fine structure (NEXAFS) measurements confirm the presence of additional oxide bonds upon DBD treatment, suggesting oxidation of the outer layer of the cell wall. Electron microscopy images show that the bacteria undergo physical distortion to varying degrees, resulting in deformation of the bacterial structure. The electromagnetic field around the DBD coil causes severe damage to the cell structure, possibly resulting in leakage of vital cellular materials. The oxidation and chemical modification of the bacterial components are evident from the Fourier transform infrared spectroscopy and NEXAFS results. The bacterial reculture experiments confirm inactivation of airborne E. coli upon treating with DBD.

Published

2016

49. Fetal intracranial haemorrhages caused by fetal and neonatal alloimmune thrombocytopenia: an observational cohort study of 43 cases from an international multicentre registry.

Author

Tiller H, Kamphuis MM, Flodmark O, Papadogiannakis N, David AL, Sainio S, Koskinen S, Javela K, Wikman AT, Kekomaki R, Kanhai HH, Oepkes D, Husebekk A, and Westgren M

Abstract

Objective: To characterise pregnancies where the fetus or neonate was diagnosed with fetal and neonatal alloimmune thrombocytopenia (FNAIT) and suffered from intracranial haemorrhage (ICH), with special focus on time of bleeding onset., Design: Observational cohort study of all recorded cases of ICH caused by FNAIT from the international No IntraCranial Haemorrhage (NOICH) registry during the period 2001-2010., Setting: 13 tertiary referral centres from nine countries across the world., Participants: 37 mothers and 43 children of FNAIT pregnancies complicated by fetal or neonatal ICH identified from the NOICH registry was included if FNAIT diagnosis and ICH was confirmed., Primary and Secondary Outcome Measures: Gestational age at onset of ICH, type of ICH and clinical outcome of ICH were the primary outcome measures. General maternal and neonatal characteristics of pregnancies complicated by fetal/neonatal ICH were secondary outcome measures., Results: From a total of 592 FNAIT cases in the registry, 43 confirmed cases of ICH due to FNAIT were included in the study. The majority of bleedings (23/43, 54%) occurred before 28 gestational weeks and often affected the first born child (27/43, 63%). One-third (35%) of the children died within 4 days after delivery. 23 (53%) children survived with severe neurological disabilities and only 5 (12%) were alive and well at time of discharge. Antenatal treatment was not given in most (91%) cases of fetal/neonatal ICH., Conclusions: ICH caused by FNAIT often occurs during second trimester and the clinical outcome is poor. In order to prevent ICH caused by FNAIT, at-risk pregnancies must be identified and prevention and/or interventions should start early in the second trimester.

Published

2013

50. Patients' and physicians' views on the management of acute maxillary sinusitis.

Author

Varonen H and Sainio S

Subjects

Acute Disease, Adolescent, Adult, Aged, Cross-Sectional Studies, Female, Finland, Focus Groups, Health Care Surveys, Humans, Male, Maxillary Sinusitis diagnosis, Maxillary Sinusitis drug therapy, Middle Aged, Uncertainty, Attitude of Health Personnel, Maxillary Sinusitis therapy, Patient Satisfaction, Physicians, Family psychology, Primary Health Care

Abstract

Objectives: To study the views of patients and physicians on the management of suspected acute maxillary sinusitis and on suggested changes in practice., Design: Cross-sectional survey and focus group interviews of both patients and physicians., Setting: Primary care in Finland., Results: A total of 175 patients and 245 physicians replied to the survey (response rates 88% and 70%, respectively). Eight focus groups were conducted, four with patients (n = 22) and four with physicians (n = 20). Patients had less trust than physicians in the natural healing process of acute maxillary sinusitis: only 33% as opposed to 95% of physicians agreed that acute maxillary sinusitis might heal without medication. The patients emphasised the importance of careful diagnosis. Physicians experienced the diagnostic uncertainty and the demands from authorities to use fewer antibiotics as problematic., Conclusions: Most patients with suspected acute maxillary sinusitis primarily want the physician to aim at making a specific diagnosis. Physicians feel they are forced to prescribe too many antibiotics for sinusitis because of patient's expectations and lack of good diagnostic means for acute maxillary sinusitis. Better diagnostic tools, both national and local guidelines, and patient information might help to change practice towards the use of fewer antibiotics.

Published

2004