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3. Synchrotron radiation X-ray laminography of internal damage in short-fiber-reinforced polyamide 6 under cyclic tensile loading

Author

Yuka Kojima, Hidehiko Kimura, Daigo Setoyama, Michiaki Kamiyama, Takayuki Hirai, and Taiki Kano

Subjects
CFRP, Injection molding, Fatigue damage, Computed tomography imaging, Laminography, Polymers and polymer manufacture, TP1080-1185
Abstract

Fiber-reinforced plastics are lightweight materials expected to reduce greenhouse gases and the fatigue properties need to be clarified to extend the practical applications. However, the fatigue tests have been limited to the surface or cross-sectional observation of cut specimens. In this study, we conducted non-destructive through-thickness measurements using synchrotron radiation X-ray laminography to investigate the internal fatigue damage behavior in sharply notched carbon fiber (30 wt%)-reinforced polyamide 6 specimens. Under fatigue loading, a large number of voids in the matrix and delaminations at the carbon fiber sides as well as fiber ends were nucleated near the notch tip. Incremental fatigue cycles caused voids coalescence, resulting in the extension of the damaged zone. The unit volume of voids increased locally in severely damaged zone due to coalescence of the voids, while it decreased in adjacent locations because the residual voids were small, which resulted in the larger diversity of unit volume of voids. In the specimen thickness direction, the damage zone was larger near the surfaces in plane-stress condition than inside the specimen in plane-strain condition.

Published
2023
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5. Photocatalytic hydrogen peroxide splitting on metal-free powders assisted by phosphoric acid as a stabilizer

Author

Yasuhiro Shiraishi, Yuki Ueda, Airu Soramoto, Satoshi Hinokuma, and Takayuki Hirai

Subjects
Science
Abstract

While H2 can serve as a renewable fuel, its large scale production, storage, and transport are challenging. Here, authors show H2O2 to serve as a potential energy carrier via the photocatalytic production of H2 from stabilized H2O2 solutions and metal-free catalysts.

Published
2020
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6. Relationship of Inflammatory Cytokines From M1-Type Microglia/Macrophages at the Injured Site and Lumbar Enlargement With Neuropathic Pain After Spinal Cord Injury in the CCL21 Knockout (plt) Mouse

Author

Kazuya Honjoh, Hideaki Nakajima, Takayuki Hirai, Shuji Watanabe, and Akihiko Matsumine

Subjects
CCL21, neuropathic pain, spinal cord injury, macrophage, microglia, M1/M2 phenotype, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Spinal cord injury (SCI) causes loss of normal sensation and often leads to debilitating neuropathic pain (NeP). Chronic NeP develops at or below the SCI lesion in as many as 80% of patients with SCI and may be induced by modulators of neuronal excitability released from activated microglia and macrophages. In the inflammatory response after SCI, different microglia/macrophage populations that are classically activated (M1 phenotype) or alternatively activated (M2 phenotype) have become of great interest. Chemokines have also recently attracted attention in neuron-microglia communication. CCL21 is a chemokine that activates microglia in the central nervous system (CNS) and is expressed only in neurons with an insult or mechanical injury. In this study using an SCI model in mutant (plt) mice with deficient CCL21 expression, we assessed post-SCI NeP and expression of microglia/macrophages and inflammatory cytokines at the injured site and lumbar enlargement. SCI-induced hypersensitivities to mechanical and thermal stimulation were relieved in plt mice compared with those in wild-type (C57BL/6) mice, although there was no difference in motor function. Immunohistochemistry and flow cytometry analysis showed that the phenotype of microglia/macrophages was M1 type-dominant in both types of mice at the lesion site and lumbar enlargement. A decrease of M1-type microglia/macrophages was seen in plt mice compared with wild-type, while the number of M2-type microglia/macrophages did not differ between these mice. In immunoblot analysis, expression of M1-induced cytokines [tumor necrosis factor-α (TNF-α), interferon-γ (IFN-γ)] was decreased in plt mice, while that of M2-induced cytokines interleukin-4 (IL-4, IL-10) did not differ in the two types of mice. The results of this study indicate that suppression of expression of inflammatory cytokines by decreasing the number of M1-type microglia/macrophages at the injured site and lumbar enlargement is associated with provision of an environment for reduction of NeP. These findings may be useful for the design of new therapies to alleviate NeP after SCI.

Published
2019
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7. A Naphthalimide–Sulfonylhydrazine Conjugate as a Fluorescent Chemodosimeter for Hypochlorite

Author

Yasuhiro Shiraishi, Rikako Nakatani, Shunsuke Takagi, Chiharu Yamada, and Takayuki Hirai

Subjects
chemodosimeter, hypochlorite, fluorescence, naphthalimide, sulfonylhydrazine, Biochemistry, QD415-436
Abstract

Hypochlorite anion (ClO−) is a widely-used disinfectant and a microbicidal agent in the immune system. Accurate detection of ClO− in environmental and biological samples by simply prepared chemosensors/chemodosimeters is important. Herein, we report that a naphthalimide–sulfonylhydrazine conjugate with an imine (C=N) linker, prepared via simple condensation, acts as an effective fluorescent chemodosimeter for ClO−. The molecule exhibits a weak emission, but ClO−-selective cleavage of its C=N bond creates a strong green emission. Ab initio calculation showed that the emission enhancement by ClO− originates from the suppression of intramolecular electron transfer from the photoexcited naphthalimide through the C=N linker. This response enables selective and sensitive detection of ClO− at physiological pH range (7–9) and allows fluorometric ClO− imaging in the presence of cells.

Published
2020
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8. Investigation of the concrete foundation of the old living hut built in 1969 at Syowa Station, Antarctic

Author

Takayuki Hirai, Masaaki Naito, Yoshinori Ohi, Toshihiro Otani, and Kaoru Kurono

Subjects
Geography (General), G1-922
Abstract

Concrete specimens taken from the pier of the concrete foundation of the old living hut built in 1969 at Syowa Station, Antarctica, were brought back to Japan for investigation of deterioration conditions. This concrete was made by mixing alumina cement brought from Japan with gravel, sand, and water removed from melted snow, all taken from the surface ground of East Ongul Island on which Syowa Station is located, and by placing and shaping it into permanent form. The pier concrete is examined by composition analysis, compressive strength test and neutralization depth measurement of the cored sample. Transformation of the hydration products of alumina cement, from CAH10 to C3AH6 and AH3, was found to be completed. The maximum neutralization depth was found to be 26 mm. In addition, the compressive strength decreased by 22% from the time of construction as judged from a specimen at construction time. Based on these observations, deterioration of the concrete is in progress, but not to the extent that either its strength or durability is a problem with regard to serviceability.

Published
2002
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9. Remaining strength of wooden material of the old living hut built in 1969 at Syowa Station, Antarctica

Author

Takayuki Hirai, Zenkichi Hirayama, Toshihiro Otani, and Tadahiro Matsuda

Subjects
Geography (General), G1-922
Abstract

The remaining strength of wooden frames in the panels used in the old living hut built in 1969 at Syowa Station in Antarctica, which is 29 years old, and that in the balloon-launching building, which is 31 years old, were examined. The pulling out strength of the nail screwed into the wooden frames was used to measure the strength of the wooden frames. The relation between the strength of virgin wood of the same kind as wooden frames and its air dried specific gravity was measured by preliminary test. The ratio of the remaining strength against the initial strength of the virgin wood was estimated from the strength of wooden frames using the result of the preliminary test. It is concluded that the strength of the wooden frames deterorated little.

Published
2002
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10. The prevalence and phenotype of activated microglia/macrophages within the spinal cord of the hyperostotic mouse (twy/twy) changes in response to chronic progressive spinal cord compression: implications for human cervical compressive myelopathy.

Author

Takayuki Hirai, Kenzo Uchida, Hideaki Nakajima, Alexander Rodriguez Guerrero, Naoto Takeura, Shuji Watanabe, Daisuke Sugita, Ai Yoshida, William E B Johnson, and Hisatoshi Baba

Subjects
Medicine, Science
Abstract

BACKGROUND: Cervical compressive myelopathy, e.g. due to spondylosis or ossification of the posterior longitudinal ligament is a common cause of spinal cord dysfunction. Although human pathological studies have reported neuronal loss and demyelination in the chronically compressed spinal cord, little is known about the mechanisms involved. In particular, the neuroinflammatory processes that are thought to underlie the condition are poorly understood. The present study assessed the localized prevalence of activated M1 and M2 microglia/macrophages in twy/twy mice that develop spontaneous cervical spinal cord compression, as a model of human disease. METHODS: Inflammatory cells and cytokines were assessed in compressed lesions of the spinal cords in 12-, 18- and 24-weeks old twy/twy mice by immunohistochemical, immunoblot and flow cytometric analysis. Computed tomography and standard histology confirmed a progressive spinal cord compression through the spontaneously development of an impinging calcified mass. RESULTS: The prevalence of CD11b-positive cells, in the compressed spinal cord increased over time with a concurrent decrease in neurons. The CD11b-positive cell population was initially formed of arginase-1- and CD206-positive M2 microglia/macrophages, which later shifted towards iNOS- and CD16/32-positive M1 microglia/macrophages. There was a transient increase in levels of T helper 2 (Th2) cytokines at 18 weeks, whereas levels of Th1 cytokines as well as brain-derived neurotrophic factor (BDNF), nerve growth factor (NGF) and macrophage antigen (Mac)-2 progressively increased. CONCLUSIONS: Spinal cord compression was associated with a temporal M2 microglia/macrophage response, which may act as a possible repair or neuroprotective mechanism. However, the persistence of the neural insult also associated with persistent expression of Th1 cytokines and increased prevalence of activated M1 microglia/macrophages, which may lead to neuronal loss and demyelination despite the presence of neurotrophic factors. This understanding of the aetiopathology of chronic spinal cord compression is of importance in the development of new treatment targets in human disease.

Published
2013
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11. Microsurgical Resection of Cavernous Haemangioma around the Thoracic Neuroforamen: A Case Report

Author

Kenzo Uchida, Takafumi Yayama, Hideaki Nakajima, Takayuki Hirai, Shigeru Kobayashi, Kebing Chen, Alexander Rodriguez Guerrero, and Hisatoshi Baba

Subjects
Orthopedic surgery, RD701-811
Abstract

Treatment for haemangioma of the spinal cord often results in extensive bony resection that necessitates fusion and/or instrumentation. We report on a 75-year-old man who presented with neuropathic pain and muscle weakness of both lower limbs, secondary to an epidural haemangioma at T11–T12, extending laterally into the neuroforamen. The tumour was resected within the neuroforamen after a partial laminectomy and limited medial foraminotomy at T11–T12, without disruption of the osseous continuity of the pars interarticularis, avoiding spinal stabilisation surgery.

Published
2010
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13. Demonstration of deep-space synchronous two-way laser ranging with a laser transponder aboard Hayabusa2

Author

Hirotomo Noda, Hiroki Senshu, Toshimichi Otsubo, Hiroshi Takeuchi, Clément Courde, Hiroo Kunimori, Christopher Moore, Ulrich Schreiber, Naoko Ogawa, Takanao Saiki, Yuto Takei, Mourad Aimar, Julien Chabé, Johann Eckl, Shun'ichi Kamata, Arika Higuchi, Takayuki Hirai, Grégoire Martinot-Lagarde, Hervé Mariey, Koji Matsumoto, Nicolas Maurice, Jun'ichi Nakazono, Duy-Hà Phung, Julien Scariot, Ryo Suetsugu, Jean-Marie Torre, Alex Pollard, Hervé Viot, Noriyuki Namiki, and Takahide Mizuno

Subjects
Atmospheric Science, Geophysics, Space and Planetary Science, Aerospace Engineering, General Earth and Planetary Sciences, Astronomy and Astrophysics
Published
2023
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17. Effect of introducing a cyclobutylmethyl group into an onium cation on the thermodynamic properties of ionic clathrate hydrates

Author

Sakura Azuma, Jin Shimada, Katsuhiko Tsunashima, Takeshi Sugahara, and Takayuki Hirai

Subjects
Materials Chemistry, General Chemistry, Catalysis
Abstract

Reproduced from New J. Chem., 2023, 47, 231-237 with permission from the Royal Society of Chemistry., https://doi.org/10.1039/d2nj04361k, Ionic clathrate hydrates (ICHs) have been applied to thermal storage materials, which can be utilized as unusual thermal energy sources. In the present study, we developed a novel ICH including tri-n-butyl(cyclobutylmethyl)phosphonium bromide (P444(1c4)-Br) as an unprecedented guest species. The highest equilibrium temperature and the dissociation enthalpy of P444(1c4)-Br ICH were 279.5 ± 0.1 K and 202 ± 2 J g−1, respectively, at the mole fraction of 0.0255 ± 0.0008. The highest equilibrium temperature of P444(1c4)-Br ICH was slightly lower than that of the tetra-n-butylphosphonium bromide (P4444-Br) ICH. The dissociation enthalpy of P444(1c4)-Br ICH was larger than that of other ICHs with similar highest equilibrium temperatures. Cyclic hydrocarbon groups, together with normal, branched, saturated, and unsaturated hydrocarbon chains, can be one of the options for tuning the equilibrium temperature of ICHs.

Published
2023

20. Evaluation of hypervelocity impact of micrometeoroids and orbital debris on next-generation space solar cells

Author

Hiroyuki Toyota, Tetsuya Nakamura, Shusaku Kanaya, Taishi Sumita, Takayuki Hirai, and Masanori Kobayashi

Subjects
General Engineering, General Physics and Astronomy
Abstract

This paper discusses the hypervelocity impacts of micrometeoroids and orbital debris (MMODs) on inverted metamorphic triple-junction (IMM3J) and perovskite solar cells, which are much thinner than conventional triple-junction (3J) solar cells. We experimentally found that IMM3J solar cells can suffer from short-circuit faults due to hypervelocity impacts of MMODs unlike conventional 3J cells, and determined the projectile diameters and velocities that could cause them using a model proposed by Burt. No short-circuit mode was identified in perovskite solar cells, but they had open-circuit faults several days after the hypervelocity impact experiment, which are possibly attributed to the decomposition of the perovskite crystal by moisture in the air due to the broken seal.

Published
2023
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22. Equilibrium Phase Relations and Dissociation Enthalpies of Tri-n-butylalkenylphosphonium Bromide Semiclathrate Hydrates

Author

Sakura Azuma, Jin Shimada, Katsuhiko Tsunashima, Takeshi Sugahara, Atsushi Tani, and Takayuki Hirai

Subjects
General Chemical Engineering, General Chemistry
Abstract

Azuma S., Shimada J., Tsunashima K., et al. Equilibrium Phase Relations and Dissociation Enthalpies of Tri- n-butylalkenylphosphonium Bromide Semiclathrate Hydrates. Journal of Chemical and Engineering Data, 67, 6, 1415 - 1420, May 25, 2022, © 2022 American Chemical Society. https://doi.org/10.1021/acs.jced.2c00146., Semiclathrate hydrates (SCHs) have received attention as thermal storage materials because of their equilibrium temperature and relatively large dissociation enthalpy. The alkyl length of quaternary onium cations significantly affects the equilibrium temperature and dissociation enthalpy of quaternary onium salt SCHs. To investigate the effects of the double bond introduced in onium cations, in the present study, the thermodynamic stability of tri-n-butylalkenylphosphonium bromide (P444(alkenyl)-Br: alkenyl = 3-butenyl (3═1) or 4-pentenyl (4═1)) SCH was investigated. The equilibrium temperatures and the dissociation enthalpies were determined to be (277.5 ± 0.1) K and (199 ± 2) J/g for P444(3═1)-Br SCH, and (274.8 ± 0.1) K and (188 ± 2) J/g for P444(4═1)-Br SCH. The equilibrium temperatures of P444(3═1)-Br SCH and P444(4═1)-Br SCH were lower than those of the corresponding normal alkyl SCHs (P4444-Br and P4445-Br), although the equilibrium temperature of tri-n-butylallylphosphonium bromide SCH was higher than that of the P4443-Br SCH.

Published
2022
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24. Modeling the particle capture performance by vertically aligned carbon nanotubes for a comet rendezvous sample return

Author

Yuchen Sun, Kazuyoshi Arai, Steven E. Kooi, Kaori Hirahara, Takayuki Hirai, Ryota Serizawa, Shuto Oizumi, Hajime Yano, Keith A. Nelson, Yuexuan Li, Yuki Takeda, and Yukihiro Ishibashi

Subjects
Atmospheric Science, Solar System, Materials science, business.industry, Comet, Rendezvous, Aerospace Engineering, Astronomy and Astrophysics, Coma (optics), Carbon nanotube, law.invention, Geophysics, Space and Planetary Science, law, Hypervelocity, General Earth and Planetary Sciences, Aerospace engineering, business, Contact area, Space environment
Abstract

Capturing and analyzing cometary coma dust lead to elucidate the origin of water and organics within the Solar System. For future sample return missions of fragile organic microparticles from a cometary nucleus, rendezvous operations will become more favorable than flyby missions because the comet rendezvous can reduce impacting velocity of cometary dust particles slow enough to capture them intact, rather than hypervelocity flyby sampling like the Stardust mission to the Comet Wild 2. At JAXA/ISAS, we are developing a core technology for sample return of microparticles ejected at as a lower velocity as an order of 0.1 m/s to 100 m/s after rendezvous with a cometary nucleus. We have devised “Vertically Aligned Carbon Nanotube (VA-CNT)” carpets as an effective capture medium for such a purpose. The VA-CNT carpets can amplify van der Waals force with impacting particles due to the large contact area and can capture intact the microparticles of sub-mm in size or smaller in the vacuum space environment while preserving its adhesive strength. In this study, we modelled capturing mechanism of microparticles on the VA-CNT carpets by the impact analysis software “LS-DYNA” to further improve its particle capture performance. The stress-strain constitutive laws for the VA-CNT carpets were derived via indentation and inputted to our simulations that were consistent with impact experiment results. The simulations reveal that the mechanical property of the VA-CNT carpets is the key for the improvement of its particle capture performance suitable for sampling the cometary dust.

Published
2022
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26. Thermodynamic Properties of Tetra-n-butylphosphonium Dicarboxylate Semiclathrate Hydrates

Author

Jin Shimada, Moe Yamada, Atsushi Tani, Takeshi Sugahara, Katsuhiko Tsunashima, Yusuke Tsuchida, and Takayuki Hirai

Subjects
General Chemical Engineering, General Chemistry
Abstract

Jin Shimada, Moe Yamada, Atsushi Tani et al. Thermodynamic Properties of Tetra-n-butylphosphonium Dicarboxylate Semiclathrate Hydrates. Journal of Chemical & Engineering Data, 67 (1), 67-73, January 13, © 2022 American Chemical Society. https://doi.org/10.1021/acs.jced.1c00741, Semiclathrate hydrate (SCH) is one of the phase change materials suitable for cold energy storage. Thermodynamic properties of SCHs, such as an equilibrium temperature and the dissociation enthalpy, depend on the size and shape of the guest substances. In the present study, to reveal the effects of steric conformations of the guest anions on the thermodynamic properties of SCHs, tetra-n-butylphosphonium dicarboxylate (TBP-DC) SCHs, where the anion was oxalate (TBP-Oxa), malonate (TBP-Mal), succinate (TBP-Suc), glutarate (TBP-Glu), maleate (TBP-Male), or fumarate (TBP-Fum), were investigated. TBP-Oxa, -Mal, -Suc, and -Fum SCHs had similar equilibrium temperatures, whereas the equilibrium temperatures of TBP-Glu and -Male SCHs were higher. This suggests that the size and conformation of glutarate and maleate anions are appropriate for the cage structures of SCHs. Moreover, we compared the equilibrium temperatures of TBP-Suc, -Male, and -Fum SCHs because TBP-Suc, -Male, and -Fum have similar anion structures. The equilibrium temperature of TBP-Suc SCH was similar to that of TBP-Fum SCH, whereas TBP-Male SCH showed a higher equilibrium temperature. This result implies that the succinate anion is accommodated in the trans conformation, similar to the fumarate anion, in the hydrate cages.

Published
2021
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27. Spontaneous Isomerization of a Hydroxynaphthalene-Containing Spiropyran in Polar Solvents Enhanced by Hydrogen Bonding Interactions

Author

Shunsuke Takagi, Takayuki Hirai, Yasuhiro Shiraishi, and Keiichiro Yomo

Subjects
Spiropyran, genetic structures, Chemistry, Hydrogen bond, General Chemical Engineering, General Chemistry, Photochemistry, Article, chemistry.chemical_compound, Optical materials, Polar, sense organs, Isomerization, QD1-999
Abstract

The synthesis of spiropyran dyes exhibiting solvent-driven isomerization even in the dark condition is an important subject for the design of optical materials. A conventional synthesis strategy involves the conjugation of indoline moieties with electron-deficient aromatic moieties. Herein, we report that a spiropyran conjugated with a hydroxynaphthalene moiety (1) is a new member exhibiting solvent-driven isomerization, even bearing an electron-donating −OH moiety. The dye exists as a colorless spirocyclic (SP) form in nonpolar media. It, however, shows a blue color in polar media, especially in aqueous media, due to the formation of ring-opened merocyanine (MC) forms, where the isomerization terminates in 10 s even at room temperature. The spontaneous SP → MC isomerization originates from the MC forms stabilized by the highly delocalized π-electrons on the hydroxynaphthalene moiety. The solvation in polar media and the hydrogen bonding interaction with water molecules decrease the ground-state energy of the MC forms, triggering spontaneous isomerization. The dye exhibits two MC absorption bands assigned to the trans–trans–cis (TTC) and cis–trans–cis (CTC) isomers. The absorbance of the CTC band increases more significantly with an increase in the water content, and the increase exhibits a linear relationship with a hydrogen-bond donor acidity of solvents. The phenolate oxygen of the CTC form has larger hydrogen-bond acceptor basicity, resulting in stronger stabilization by the water molecule.

Published
2021

29. A Case of Helicobacter pylori-negative Gastric Adenocarcinoma Mimicking Verrucous Gastritis in the Antrum: A Case Report and Literature Review

Author

Yoshiyuki, Murawaki, Kazuo, Yashima, Satoshi, Horie, Masahiko, Miura, Jun, Kato, Takayuki, Hirai, Kazuki, Takeda, Michimori, Kono, Manabu, Yoshida, and Hajime, Isomoto

Abstract

A 46-year-old man was referred to our hospital for the examination of a flat elevated lesion with an erosion-like depression, located on the greater curvature of the antrum. Endoscopic submucosal dissection was performed. Histological findings of the resected specimen demonstrated a well-differentiated tubular adenocarcinoma with a diameter of 12 mm. No atrophy was observed in the tumor-adjacent mucosa. Serum Helicobacter pylori antibody estimation and

Published
2022

31. DOPE: A science planning tool for the Destiny+ Dust Analyzer

Author

Maximilian Sommer, Harald Krüger, Ralf Srama, Takayuki Hirai, Tomoko Arai, Masanori Kobayashi, Sho Sasaki, Georg Moragas-Klostermeyer, Peter Strub, and Jonas Simolka

Abstract

We present the science planning tool for dust instrument observations that is currently under development within the DESTINY+ project. The JAXA-led DESTINY+ mission (Demonstration and Experiment of Space Technology for Interplanetary voyage Phaethon fLyby and dUst Science), set to launch in 2024, carries two camera instruments intended to study the active asteroid 3200 Phaethon during a flyby in 2028, as well as the Destiny+ Dust Analyzer (DDA), an impact ionization time-of-flight mass spectrometer which will sample Phaethon’s dust environment. During the 4-years voyage leading up to the flyby, DDA will also study interplanetary and interstellar dust particles as its second main science objective. For this phase, the science working team is preparing tools to produce suitable high-level science operations schedules.As DESTINY+ relies on solar-electric propulsion to expand its Earth orbit and ultimately reach interplanetary space, a highly dynamic spacecraft attitude is required to achieve an optimal thrust vector and illumination of the solar panels. To maintain some pointing autonomy, DDA has a dual-axis pointing mechanism, granting a coverage of 1pi solid angle. The dynamic attitude combined with the flexibility of a pointing mechanism warrants elaborate planning to optimize coverage of directional dust fluxes, such as interstellar dust. Here we present the DDA Observation Planning Environment (DOPE), which is a graphical tool for intuitive campaign design, including visualizations such as spacecraft orientation or instrument footprint. Under the hood DOPE uses the SPICE toolkit for all geometric or time calculations, thus import of SPICE kernels for spacecraft trajectory, attitude, and clock is required. Here we describe the DDA science planning process to provide a contextual frame for the tool and demonstrate its functionality with emphasis on the geometrical capabilities.

Published
2022
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32. Comparing meteoritic stardust with contemporary interstellar dust measured by Cassini and DESTINY+ - constraining models of dust processing in the interstellar medium

Author

Mario Trieloff, Hiroshi Kimura, Frank Postberg, Harald Krüger, Peter Strub, Jan Leitner, Veerle Sterken, Silvan Hunziker, Jon Hillier, Takayuki Hirai, Hikaru Yabuta, Motoo Ito, Nozair Khawaja, Winfried H. Schwarz, Thomas Ludwig, Jan Schmitt, Sho Sasaki, Tomoko Arai, Masanori Kobayashi, and Ralf Srama

Abstract

Rare presolar grains originating by condensation in circumstellar atmospheres are known from meteorites [1]. These escaped processing in the solar nebula and are identified via their extremely diverse isotopic composition [1,2]. However, it is uncertain if such grains are representative for dust from the interstellar medium (ISM) [3–5], particular as [5] postulated a high fraction of interstellar grain population that formed directly in the ISM.In 1992 the Ulysses spacecraft discovered a dust flow from the Local Interstellar Cloud (LIC) [6]. During the Cassini mission at Saturn, the Cosmic Dust Analyser (CDA) could identify and analyse the chemical composition of 36 individual interstellar dust (ISD) particles [7]. These grains were distinguished from Saturn bound dust by their direction and high velocity. Their mean mass is consistent with the typical size [3-5] derived from astronomical observations. As major result, each individual ISD grain contains the major rock forming elements (Mg, Si, Fe, Ca) in roughly cosmic abundances, indicating compositional homogeneity at spatial scales as small as 100 nm. In contrast, CDA did neither detect carbon-rich grains such as graphite or SiC, nor pure metal grains (upper limit of 8% at the 2 sigma confidence level) [7].This homogeneity cannot be reconciled with isotopically and compositionally diverse populations of circumstellar dust inherited from AGB stars and supernovae found in meteorites. These grain populations consist mainly of silicates with a more diverse composition (e.g., olivine, pyroxene), however, also minor contributions (few %) of Al-oxides (e.g., corundum, hibonite), as well as carbonaceous grains (mainly silicon carbide) which contribute 20-50%, of the grains in the most primitive meteorites [2]. In contrast to circumstellar grains found in meteorites, the LIC-ISD grains detected by Cassini have a much lower variation of Mg/Si or Mg/Fe ratios [7], and appear to be a grain population homogenized by destruction, recondensation and equilibration processes in the ISM. This can be reconciled with astronomical observations of the diffuse ISM demonstrating that condensable elements of atomic mass >23 are depleted in the gas phase and hence bound in solids. Considering that the mean lifetime of ISD grains against destruction by supernova shocks is much shorter (c. 0.5 Ga) than the average residence time of ISM matter of 2.5 Ga [5], an origin of a high fraction of ISD by grain destruction followed by recondensation was suggested by [5,7]. While grain destruction most likely occurs in the hot interstellar medium, i.e., low-density cavities formed by supernova shock fronts, condensation likely occurs in the cold interstellar medium, i.e., cold molecular clouds which are also formation regions of stars and planets.The upcoming DESTINY+ mission [8] will be equipped with an improved impact ionization mass spectrometer, the DESTINY+ Dust Analyser (DDA). During the mission, hundreds of ISD particles are expected to be measured [9]), yielding high quality mass spectra with a resolution of c. 100-200 when compared to c. 20-50 of Cassini CDA [10]. This will allow much better resolution of mass peaks at 23-28 amu (Na, Mg, Al, Si) and 39-41 (K, Ca), particularly yielding improved constraints on abundances of Al and Si. This will allow, e.g., to distinguish between Mg silicates like pyroxene and olivine or Al-rich feldspar type silicates. Also, more precise values for Na and K can be expected, particularly as some of the Cassini CDA data were compromised by alkali contamination of the Rhodium target [7]. Furthermore, the higher number of ISD particle detections will allow to better quantify the ISD fraction of non-silicate particles (oxides, SiC, graphite, metal, see [1]). This will also provide constraints on dynamic forces acting on the ISD particle flux, particularly the question if high beta particles are preferentially deflected from the inner solar system by solar radiation forces. Finally, DDA measurements will also contribute to solve the problem of apparently low or “missing” organic components in CDA detected particles, which may be caused by volatilization of refractory organic material in ISD mantles upon entering the heliosphere [11].Hence, interstellar dust detections by the DESTINY+ Dust Analyser will likely improve our understanding of the chemical nature of interstellar dust, its processing and lifetime in various phases of the interstellar medium, possible processing and volatile loss upon traversing our solar system to 1 AU, flux modulations upon interaction with solar electromagnetic forces, and last but not least, a tight age constraint on the LIC dust. References:[1] E. Zinner (2014) In Meteorites and Cosmochemical Processes (ed. Davis A. M.). Elsevier, Amsterdam, pp. 181–213[2] J. Leitner, C. Vollmer, P. Hoppe, J. Zipfel (2012) Astrophysical Journal 745, 38[3] P. C. Frisch et al. (1999) Astrophysical Journal 525, 492[4] H. Kimura, I. Mann, E. K. Jessberger (2003) Astrophysical Journal 583, 314[5] S. Zhukovska, H.-P. Gail, M. Trieloff (2008) Astronomy & Astrophysics 479, 453[6] E. Grün et al. (1993) Nature 362, 428-430[7] N. Altobelli, F. Postberg, K. Fiege, M. Trieloff et al. (2016) Science 352, 312[8] H. Arai, M. Kobayashi, et al. (2018) Lun. Planet. Sci. Conf. 49, abstr. #2570[9] Krüger H., Strub P., et al. (2019) Planetary & Space Science 172, 22-42.[10] Srama R. et al. (2004) Space Science Reviews 114, 465-518. [11] H. Kimura, F. Postberg, N. Altobelli, M. Trieloff (2020) Astronomy & Astrophysics 643, A50

Published
2022
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33. Polythiophene-Doped Resorcinol–Formaldehyde Resin Photocatalysts for Solar-to-Hydrogen Peroxide Energy Conversion

Author

Satoshi Ichikawa, Masako Matsumoto, Shunsuke Tanaka, Takayuki Hirai, and Yasuhiro Shiraishi

Subjects
Chemistry, Doping, Energy conversion efficiency, General Chemistry, Solar fuel, Biochemistry, Catalysis, Artificial photosynthesis, chemistry.chemical_compound, Colloid and Surface Chemistry, Chemical engineering, Photocatalysis, Polythiophene, Hydrogen peroxide
Abstract

The generation of hydrogen peroxide (H2O2) from water and dioxygen by sunlight-driven heterogeneous photocatalysis is a promising method for the artificial photosynthesis of a liquid solar fuel. We previously found that resorcinol-formaldehyde (RF) resin powders prepared by high-temperature hydrothermal synthesis act as highly active semiconductor photocatalysts for H2O2 generation. Herein, we report that RF resin powders doped with poly(3-hexylthiophene-2,5-diyl) (RF/P3HT) exhibit enhanced photocatalytic activities. The highly dispersed P3HT within the resin particles created charge transfer complexes with the conduction band of the resin via electron donation, facilitating efficient transfer of the photogenerated conduction band electrons through P3HT. This enhanced charge separation promoted efficient water oxidation and O2 reduction. The solar-to-chemical conversion efficiency for H2O2 generation on the RF/P3HT resin in water under simulated sunlight irradiation with atmospheric pressure of O2 was ∼1.0%, which is the highest efficiency reported for powder catalysts in artificial photosynthesis.

Published
2021
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34. Proton conduction in tetra-n-butylammonium bromide semiclathrate hydrate

Author

Jin Shimada, Yuta Takaoka, Takahiro Ueda, Atsushi Tani, Takeshi Sugahara, Katsuhiko Tsunashima, Hirohisa Yamada, and Takayuki Hirai

Subjects
Semiclathrate hydrate, Isotope effect, Water reorientation, General Materials Science, General Chemistry, Condensed Matter Physics, Electrochemical impedance spectroscopy, Proton conduction
Abstract

Clathrate hydrate as well as ice has been spotlighted as promising materials to investigate the properties of hydrogen-bonded networks formed by the water molecules. In the semiclathrate hydrate (SCH, a kind of clathrate hydrate) consisting of host water molecules and guest quaternary onium salts, the anion takes part in the hydrogen-bonded networks with the water molecules. In the present study, we measured the electrical conductivity and electrical relaxation time in the single-crystalline tetra-n-butylammonium bromide (TBAB) SCH by electrochemical impedance spectroscopy. The results clearly revealed that the conduction carrier was proton. The electrical relaxation time of proton conduction in TBAB SCH was similar to the reorientation time of the water molecules in TBAB SCH estimated by the results of nuclear magnetic resonance.

Published
2023
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37. Is water ice an efficient facilitator for dust coagulation?

Author

Peng K Hong, Hiroshi Kobayashi, Fumi Yoshida, Hiroshi Kimura, Hiroki Senshu, Ko Ishibashi, Koji Wada, Masanori Kobayashi, Tomoko Arai, Takayuki Hirai, and Manabu Yamada

Subjects
FOS: Physical sciences, 02 engineering and technology, Condensed Matter - Soft Condensed Matter, 01 natural sciences, 0103 physical sciences, Snow line, 010303 astronomy & astrophysics, Physics::Atmospheric and Oceanic Physics, Earth and Planetary Astrophysics (astro-ph.EP), Physics, Meteoroid, Molecular cloud, Astronomy and Astrophysics, Mechanics, Tribology, 021001 nanoscience & nanotechnology, Astrophysics - Astrophysics of Galaxies, Amorphous solid, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), Lubrication, Soft Condensed Matter (cond-mat.soft), Sublimation (phase transition), Astrophysics::Earth and Planetary Astrophysics, 0210 nano-technology, human activities, Water vapor, Astrophysics - Earth and Planetary Astrophysics
Abstract

Beyond the snow line of protoplanetary discs and inside the dense core of molecular clouds, the temperature of gas is low enough for water vapour to condense into amorphous ices on the surface of preexisting refractory dust particles. Recent numerical simulations and laboratory experiments suggest that condensation of the vapour promotes dust coagulation in such a cold region. However, in the numerical simulations, cohesion of refractory materials is often underestimated, while in the laboratory experiments, water vapour collides with surfaces at more frequent intervals compared to the real conditions. Therefore, to re-examine the role of water ice in dust coagulation, we carry out systematic investigation of available data on coagulation of water ice particles by making full use of appropriate theories in contact mechanics and tribology. We find that the majority of experimental data are reasonably well explained by lubrication theories, owing to the presence of a quasi-liquid layer (QLL). Only exceptions are the results of dynamic collisions between particles at low temperatures, which are, instead, consistent with the JKR theory, because QLLs are too thin to dissipate their kinetic energies. By considering the vacuum conditions in protoplanetary discs and molecular clouds, the formation of amorphous water ice on the surface of refractory particles does not necessarily aid their collisional growth as currently expected. While crystallisation of water ice around but outside the snow line eases coagulation of ice-coated particles, sublimation of water ice inside the snow line is deemed to facilitate coagulation of bare refractory particles., Comment: 18 pages, 14 figures, published in Monthly Notices of the Royal Astronomical Society

Published
2020
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38. Photocatalytic Dinitrogen Fixation with Water on Bismuth Oxychloride in Chloride Solutions for Solar-to-Chemical Energy Conversion

Author

Masaki Hashimoto, Kenta Moriyama, Shunsuke Tanaka, Kiyomichi Chishiro, Yasuhiro Shiraishi, and Takayuki Hirai

Subjects
Chemistry, Inorganic chemistry, General Chemistry, 010402 general chemistry, 01 natural sciences, Biochemistry, Chloride, Catalysis, 0104 chemical sciences, Chemical energy, chemistry.chemical_compound, Ammonia, Fixation (surgical), Colloid and Surface Chemistry, medicine, Photocatalysis, Bismuth oxychloride, medicine.drug
Abstract

Ammonia is an indispensable chemical. Photocatalytic NH3 production via dinitrogen fixation using water by sunlight illumination under ambient conditions is a promising strategy, although previousl...

Published
2020
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39. Mission to Earth–Moon Lagrange Point by a 6U CubeSat: EQUULEUS

Author

Hiroyuki Koizumi, Ryo Suzumoto, Reina Hikida, Ichiro Yoshikawa, Yusuke Murata, Yosuke Masuda, Kazuo Yoshioka, Kento Tomita, Tatsuaki Hashimoto, Keidai Iiyama, Haruki Nakano, Kosei Kikuchi, Jun Asakawa, Hiroki Aohama, Masaki Kuwabara, Toshinori Ikenaga, Shuhei Matsushita, Kanta Yanagida, Toshihiro Shibukawa, Hajime Yano, Kota Miyoshi, Ryohei Takahashi, Yuji Saito, Daiko Mori, Keita Nishii, Shintaro Nakajima, Eigo Ishioka, Kazuyoshi Arai, Akihiro Hattori, Yosuke Kawabata, Shunichiro Nomura, Satoshi Ikari, Atsushi Tomiki, Shogo Arao, Wataru Mikuriya, Akihiro Ishikawa, Kota Kakihara, Sho Ishiwata, Naoya Ozaki, Masahisa Yanagisawa, Hirotaka Kondo, Shinsuke Abe, Ryota Fuse, Nobuhiro Funabiki, Ryu Funase, Takayuki Hirai, Yuta Kobayashi, Wataru Torii, Stefano Campagnola, Hiroto Seki, Ritsuko Jitsukawa, Taichi Ito, Masahiro Fujiwara, and Nicola Baresi

Subjects
Engineering, Spacecraft, business.industry, Micrometeoroid, Astrophysics::Instrumentation and Methods for Astrophysics, Aerospace Engineering, NASA Deep Space Network, Far side of the Moon, Space exploration, Physics::Geophysics, Space and Planetary Science, Physics::Space Physics, CubeSat, Space Launch System, Astrophysics::Earth and Planetary Astrophysics, Electrical and Electronic Engineering, Aerospace engineering, business, Aerospace
Abstract

EQUULEUS (EQUilibriUm Lunar-Earth point 6U Spacecraft) will be the world's smallest spacecraft to explore the Earth-Moon Lagrange point. It is being jointly developed by JAXA (Japan Aerospace Exploration Agency) and the University of Tokyo, and will be launched by NASA's Space Launch System Exploration Mission-1. The spacecraft will fly to a libration orbit around the Earth-Moon L2 point (EML2) and will demonstrate low-energy trajectory-control techniques within the Sun-Earth-Moon region for the first time by a nano-class spacecraft. EQUULEUS also carries three scientific observation missions: imaging of Earth's plasmasphere by extreme ultraviolet wavelength, lunar impact flash observation on the far side of the moon, and micrometeoroid flux measurements in the cis-lunar region. While all these missions have their own scientific objectives, they will also contribute to future human activity and/or infrastructure development in the cis-lunar region. Most parts of the spacecraft system use commercial off-the-shelf components, or are designed based on the experiences of various past space missions, with the exception of the newly developed water resistojet propulsion system. EQUULEUS uses X-band frequency for deep space telecommunication. Japanese deep space antennas (64-m and 34-m) will be nominally used for spacecraft operation, and support from the deep space network of JPL (Jet Propulsion Laboratory) is also being planned, especially for the initial phase of operation. The spacecraft will fly to EML2 in less than one year, and will remain there for scientific observations until shortly before the depletion of the onboard propellant, when the spacecraft will leave the orbit for space-debris compliance.

Published
2020
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40. Peritectic phase behavior of tetra-n-butylphosphonium trifluoroacetate semiclathrate hydrate

Author

Jin Shimada, Masami Shimada, Sakura Azuma, Takeshi Sugahara, Katsuhiko Tsunashima, and Takayuki Hirai

Subjects
Semiclathrate hydrate, Differential scanning calorimetry, Cluster, General Chemical Engineering, General Physics and Astronomy, Phase equilibria, Physical and Theoretical Chemistry, Lower critical solution temperature
Abstract

Phase equilibrium (temperature–composition) relations of the tetra-n-butylphosphonium trifluoroacetate (TBP-TFA) + water binary system including solid (semiclathrate hydrate, SCH)-liquid equilibria and liquid-liquid equilibria were investigated. Phase diagram of TBP-TFA SCH exhibited peritectic behavior. The maximum decomposition temperature (peritectic temperature) of TBP-TFA SCH at atmospheric pressure were 275.9 ± 0.1 K. The stoichiometric composition of TBP-TFA SCH was located at the mole fraction of 0.027 ± 0.002. The decomposition enthalpy of TBP-TFA SCH was 199 ± 2 J/g. At temperatures above the lower critical solution temperature (LCST), the liquid-liquid phase separation appeared. Interestingly, the composition at the LCST was 0.026 ± 0.002, which is very similar to the stoichiometric composition of TBP-TFA SCH. It implies that both cluster-based solution structures are similar.

Published
2023
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41. Electrostatic Dust Ejection From Asteroid (3200) Phaethon With the Aid of Mobile Alkali Ions at Perihelion

Author

Hiroshi Kimura, Katsuhito Ohtsuka, Shota Kikuchi, Keiji Ohtsuki, Tomoko Arai, Fumi Yoshida, Naoyuki Hirata, Hiroki Senshu, Koji Wada, Takayuki Hirai, Peng K. Hong, Masanori Kobayashi, Ko Ishibashi, Manabu Yamada, and Takaya Okamoto

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Space and Planetary Science, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

The asteroid (3200) Phaethon is known to be the parent body of the Geminids, although meteor showers are commonly associated with the activity of periodic comets. What is most peculiar to the asteroid is its comet-like activity in the ejection of micrometer-sized dust particles at every perihelion passage, while the activity of the asteroid has never been identified outside the near-perihelion zone at $0.14~\mathrm{au}$ from the Sun. From the theoretical point of view, we argue that the activity of the asteroid is well explained by the electrostatic lofting of micrometer-sized dust particles with the aid of mobile alkali ions at high temperatures. The mass-loss rates of micrometer-sized particles from the asteroid in our model is entirely consistent with the values inferred from visible observations of Phaethon's dust tail. For millimeter-sized particles, we predict three orders of magnitudes higher mass-loss rates, which could also account for the total mass of the Geminid meteoroid stream by the electrostatic lofting mechanism., Comment: 7 pages. 2 figures, to appear in Icarus Letters

Published
2022
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42. Photocatalytic NH3 Splitting on TiO2 Particles Decorated with Pt–Au Bimetallic Alloy Nanoparticles

Author

Satoshi Ichikawa, Shota Toi, Takayuki Hirai, and Yasuhiro Shiraishi

Subjects
Materials science, Aqueous solution, Hydrogen, Alloy, Nanoparticle, chemistry.chemical_element, engineering.material, Ammonia, chemistry.chemical_compound, Hydrogen carrier, chemistry, Chemical engineering, engineering, Photocatalysis, General Materials Science, Bimetallic strip
Abstract

Photocatalytic splitting of aqueous NH3 into H2 and N2 on semiconductor powders is an important reaction toward on-site production of H2 from NH3, a promising hydrogen carrier for sustainable energ...

Published
2020
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43. In Situ Reactive Compatibilization of Polyamide 6 and Polycarbonate Blend by the Catalytic Effect of Phenol Novolac

Author

Jumpei Kawada, Kenichi Yagi, Yusaku Onochi, Takayuki Hirai, and Kazuo Okamoto

Subjects
Materials science, General Chemical Engineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Decomposition, Industrial and Manufacturing Engineering, chemistry.chemical_compound, 020401 chemical engineering, Chemical engineering, chemistry, visual_art, Polyamide, Copolymer, visual_art.visual_art_medium, Phenol, Polymer blend, 0204 chemical engineering, Elongation, Polycarbonate, 0210 nano-technology, Ternary operation
Abstract

Ternary polymer blends of polyamide 6 (PA6), polycarbonate (PC), and phenol novolac (PN) were prepared by a melt mixing process. PN catalyzes the exchange reaction between PA6 and PC and promotes the generation of a copolymer, which improves the compatibility. Herein, the catalytic effect of PN was experimentally supported by an increase in torque during melt mixing and mass signals from copolymer fragments detected by mass spectroscopy. The characteristic behavior of the exchange reaction changed significantly with increasing PN amount. The promotion of in situ copolymer generation led to the formation of ternary blends, which show homogeneous morphologies and superior mechanical properties, such as high stiffness and good elongation, compared with those of the binary blends without PN. Using excess PN causes some drawbacks like brittleness due to the decomposition of the PC component. A loading amount of 1–3 wt % PN was suitable for achieving a ternary blend with improved properties.

Published
2020
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44. Multifaceted property tailoring of polyamide 6 by blending miscible and immiscible components: ternary blends of polyamide 6/polyethylene terephthalate/phenol novolac

Author

Jumpei Kawada, Takayuki Hirai, and Yusaku Onochi

Subjects
chemistry.chemical_classification, Absorption of water, Materials science, General Chemical Engineering, 02 engineering and technology, General Chemistry, Polymer, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Polyamide, Polyethylene terephthalate, Phenol, Polymer blend, 0210 nano-technology, Glass transition, Ternary operation
Abstract

Ternary polymer blends comprising miscible and immiscible components are examined to improve the mechanical properties of polyamide 6 (PA6) under humid and high-temperature conditions. Miscible polymers increase the glass transition temperature (Tg), owing to their strong inter-molecular interactions, while phase-separated immiscible polymers reinforce the physical properties of PA6 as filler materials. Ternary blends exhibit these combined miscible and immiscible component contributions. Thus, in this study, ternary blends comprising PA6, polyethylene terephthalate (PET, immiscible component), and phenol novolac (PN, miscible component) are prepared by melt mixing. The PA6 stiffness in the water-absorbed state is reinforced by PET. Moreover, the proposed PA6/PET/PN ternary blends exhibit higher Tg values and lower water absorption rates than those of the PA6/PET binary blend, owing to the PN contribution. The PET and PN contributions are achieved independently and can be controlled via the composition ratios of the component polymers. Multifaceted property tailoring is thus demonstrated.

Published
2020
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45. Doping of Nb5+ Species at the Au–TiO2 Interface for Plasmonic Photocatalysis Enhancement

Author

Hirokatsu Sakamoto, Jun Imai, Yasuhiro Shiraishi, Satoshi Ichikawa, Shunsuke Tanaka, Takayuki Hirai, and Naoki Yasumoto

Subjects
Materials science, Schottky barrier, Doping, Oxide, Nanoparticle, 02 engineering and technology, Surfaces and Interfaces, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Photochemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Depletion region, Electrochemistry, Photocatalysis, General Materials Science, Surface plasmon resonance, 0210 nano-technology, Spectroscopy, Visible spectrum
Abstract

Au nanoparticles loaded on semiconductor TiO2 absorb visible light due to their surface plasmon resonance (SPR) and inject the photogenerated hot electrons (ehot-) into the conduction band of TiO2. The separated charges promote oxidation and reduction reactions. The step that determines the rate of the plasmonic photocatalysis on the Au/TiO2 system is the ehot- injection through the Schottky barrier created at the Au-TiO2 interface. In the present work, niobium (Nb5+) oxide species were doped at the Au-TiO2 interface by loading Nb5+ onto the TiO2 surface followed by deposition of Au particles (2 wt % of TiO2). Visible light irradiation of the Au/Nb5+/TiO2 catalysts promotes aerobic oxidation of alcohols with much higher efficiency than that of undoped Au/TiO2. Lewis acidity of the Nb5+ species located at the interface cancels the negative charges of Au and creates a barrier with a narrower depletion layer, promoting tunneling ehot- injection. Efficiency of the ehot- injection depends on the amount of Nb5+ doped. Loading small amounts of Nb5+ (∼0.1 wt % of TiO2) creates mononuclear NbO4 species and shows large activity enhancement. In contrast, loading larger amounts of Nb5+ creates aggregated polynuclear Nb2O5 species. They decrease the electron density of Au particles and weaken their SPR absorption. This suppresses the ehot- generation on the Au particles and decreases the activity of plasmonic photocatalysis.

Published
2019
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47. BepiColombo science investigations during cruise and flybys at the Earth, Venus and Mercury

Author

Jean Yves Chaufray, Rami Vainio, Daniel Heyner, Wolfgang Baumjohann, J. Zhong, Roberto Peron, Stefano Orsini, Yoshifumi Saito, A. S. Kozyrev, Kazumasa Iwai, Géza Erdős, Ferdinand Plaschke, Masanori Kobayashi, Francesco Santoli, Dusan Odstrcil, Yasumasa Kasaba, Thomas Cornet, Yeon Joo Lee, Bernard V. Jackson, Johannes Benkhoff, Marco Lucente, Stavro Ivanovski, Richard Moissl, Juhani Huovelin, Elsa Montagnon, A. Varsani, Riku Jarvinen, Sebastien Besse, Alessandro Maturilli, Melinda Dósa, James A. Slavin, Harald Hiesinger, Jörn Helbert, Yoshizumi Miyoshi, Francesco Quarati, Anna Milillo, Ákos Madár, Gunther Laky, Stefano Massetti, Emilia Kilpua, Takayuki Hirai, Davide Grassi, I. G. Mitrofanov, Go Murakami, Harald Krüger, Chuanfei Dong, Eric Quémerais, Sara de la Fuente, Stas Barabash, Markus Fränz, Joe Zender, Luciano Iess, Tommaso Alberti, V. Mangano, Susan McKenna-Lawlor, Carl Schmidt, Martin Volwerk, J. S. Oliveira, Sae Aizawa, Herbert Lichtenegger, Denis Belyaev, Christina Plainaki, National Institute for Astrophysics, Hungarian Academy of Sciences, Max Planck Institute for Solar System Research, European Space Research and Technology Centre, Technical University of Berlin, Space Technology Ireland, Ltd., Technical University of Braunschweig, Space Research Institute of the Russian Academy of Sciences, German Aerospace Center, European Space Astronomy Centre, European Space Agency - ESA, European Space Operation Centre, Austrian Academy of Sciences, Université de Versailles Saint-Quentin-en-Yvelines, University of Michigan, Ann Arbor, Nagoya University, Boston University, United States Department of Energy, Delft University of Technology, Chiba Institute of Technology, Chinese Academy of Sciences, University of Helsinki, University of California, George Mason University, University of Turku, Esa Kallio Group, Osservatorio Astronomico di Trieste, Agenzia Spaziale Italiana, IRAP, JAXA Institute of Space and Astronautical Science, University of Münster, Sapienza University of Rome, Uppsala University, Tohoku University, Department of Electronics and Nanoengineering, Aalto-yliopisto, Aalto University, Istituto di Astrofisica e Planetologia Spaziali - INAF (IAPS), Istituto Nazionale di Astrofisica (INAF), Wigner Research Centre for Physics [Budapest], Hungarian Academy of Sciences (MTA), Max-Planck-Institut für Sonnensystemforschung (MPS), Max-Planck-Gesellschaft, European Space Research and Technology Centre (ESTEC), European Space Agency (ESA), Zentrum für Astronomie und Astrophysik [Berlin] (ZAA), Technische Universität Berlin (TU), Space Technology Ireland Limited, Institut für Geophysik und Extraterrestrische Physik [Braunschweig] (IGEP), Technische Universität Braunschweig = Technical University of Braunschweig [Braunschweig], Space Research Institute of the Russian Academy of Sciences (IKI), Russian Academy of Sciences [Moscow] (RAS), DLR Institut für Planetenforschung, Deutsches Zentrum für Luft- und Raumfahrt [Berlin] (DLR), Operations Department (ESAC), European Space Astronomy Centre (ESAC), European Space Agency (ESA)-European Space Agency (ESA), European Space Operations Center (ESOC), Space Research Institute of Austrian Academy of Sciences (IWF), Austrian Academy of Sciences (OeAW), HELIOS - LATMOS, Laboratoire Atmosphères, Milieux, Observations Spatiales (LATMOS), Sorbonne Université (SU)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS), Department of Climate and Space Sciences and Engineering (CLaSP), University of Michigan [Ann Arbor], University of Michigan System-University of Michigan System, Institute for Space-Earth Environmental Research [Nagoya] (ISEE), Boston University [Boston] (BU), Princeton Plasma Physics Laboratory (PPPL), Princeton University, Department of Radiation Science and Technology [Delft] (RST), Delft University of Technology (TU Delft), Planetary Exploration Research Center [Chiba] (PERC), Chiba Institute of Technology (CIT), Institute of Geology and Geophysics [Beijing] (IGG), Chinese Academy of Sciences [Beijing] (CAS), Center for Astrophysics and Space Sciences [La Jolla] (CASS), University of California [San Diego] (UC San Diego), University of California-University of California, Department of Physics [Helsinki], Falculty of Science [Helsinki], University of Helsinki-University of Helsinki, Department of Physics and Astronomy [Turku], Finnish Meteorological Institute (FMI), Department of Electronics and Nanoengineering [Espoo], School of Electrical Engineering [Aalto Univ], Aalto University-Aalto University, INAF - Osservatorio Astronomico di Trieste (OAT), National and Kapodistrian University of Athens (NKUA), Institut de recherche en astrophysique et planétologie (IRAP), Institut national des sciences de l'Univers (INSU - CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS), Institute of Space and Astronautical Science (ISAS), Japan Aerospace Exploration Agency [Sagamihara] (JAXA), Institut für Planetologie [Münster], Westfälische Wilhelms-Universität Münster (WWU), Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Dipartimento di Ingegneria Meccanica e Aerospaziale [Roma La Sapienza] (DIMA), Swedish Institute of Space Physics [Uppsala] (IRF), Planetary Plasma and Atmospheric Research Center [Sendai] (PPARC), Tohoku University [Sendai], European Project: 8414322(1984), Department of Physics, Space Physics Research Group, Oliveira, J. S. [0000-0002-4587-2895], Dong, C. [0000-0002-8990-094X], Thomas, F. [0000-0001-5971-0056], Miyoshi, Y. [0000-0001-7998-1240], Vainio, R. [0000-0002-3298-2067], Lee, Y. J. [0000-0002-4571-0669], Zhong, J. [0000-0003-4187-3361], Max-Planck-Institut für Sonnensystemforschung = Max Planck Institute for Solar System Research (MPS), Agence Spatiale Européenne = European Space Agency (ESA), Technical University of Berlin / Technische Universität Berlin (TU), Agence Spatiale Européenne = European Space Agency (ESA)-Agence Spatiale Européenne = European Space Agency (ESA), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), University of California (UC)-University of California (UC), Helsingin yliopisto = Helsingfors universitet = University of Helsinki-Helsingin yliopisto = Helsingfors universitet = University of Helsinki, Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS), Westfälische Wilhelms-Universität Münster = University of Münster (WWU), and Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA)

Subjects
solar system exploration, space navigation, space telecommunications, spacecraft tracking systems, aerospace engineering, planetary science, 010504 meteorology & atmospheric sciences, BepiColombo, Cruise, Planetare Labore, Venus, 01 natural sciences, Astrobiology, Planet, 0103 physical sciences, Aerospace, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, MERTIS, biology, Spacecraft, business.industry, Astronomy and Astrophysics, Earth, Mercury, biology.organism_classification, 115 Astronomy, Space science, Bepicolombo, Planetary science, Space and Planetary Science, [SDU]Sciences of the Universe [physics], Environmental science, Flyby, Orbit insertion, business, Heliosphere
Abstract

The dual spacecraft mission BepiColombo is the first joint mission between the European Space Agency (ESA) and the Japanese Aerospace Exploration Agency (JAXA) to explore the planet Mercury. BepiColombo was launched from Kourou (French Guiana) on October 20th, 2018, in its packed configuration including two spacecraft, a transfer module, and a sunshield. BepiColombo cruise trajectory is a long journey into the inner heliosphere, and it includes one flyby of the Earth (in April 2020), two of Venus (in October 2020 and August 2021), and six of Mercury (starting from 2021), before orbit insertion in December 2025. A big part of the mission instruments will be fully operational during the mission cruise phase, allowing unprecedented investigation of the different environments that will encounter during the 7-years long cruise. The present paper reviews all the planetary flybys and some interesting cruise configurations. Additional scientific research that will emerge in the coming years is also discussed, including the instruments that can contribute. Open Access funding provided by Istituto Nazionale di Astrofisica within the CRUI-CARE Agreement. Peerreview

Published
2021
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48. Mercury Dust Monitor (MDM) Onboard the Mio Orbiter of the BepiColombo Mission

Author

Masayuki Fujii, Hideo Ohashi, Takashi Miyachi, Seiji Takechi, Hajime Yano, Peter Strub, Hiroshi Kimura, Masanori Kobayashi, K. Nogami, Sunao Hasegawa, Ralf Srama, Hiromi Shibata, Eberhard Grün, Maki Nakamura, Ann-Kathrin Lohse, Sho Sasaki, Masatoshi Hirabayashi, Takeo Iwai, Harald Krüger, and Takayuki Hirai

Subjects
010504 meteorology & atmospheric sciences, Spacecraft, business.industry, Dust particles, chemistry.chemical_element, Astronomy and Astrophysics, 01 natural sciences, law.invention, Mercury (element), Orbiter, Planetary science, chemistry, Space and Planetary Science, law, 0103 physical sciences, Environmental science, Aerospace engineering, business, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, Cosmic dust
Abstract

An in-situ cosmic-dust instrument called the Mercury Dust Monitor (MDM) had been developed as a part of the science payload for the Mio (Mercury Magnetospheric Orbiter, MMO) stage of the joint European Space Agency (ESA)–JAXA Mercury-exploration mission. The BepiColombo spacecraft was successfully launched by an Ariane 5 rocket on October 20, 2018, and commissioning tests of the science payload were successfully completed in near-earth orbit before injection into a long journey to Mercury. MDM has a sensor consisting of four plates of piezoelectric lead zirconate titanate (PZT), which converts the mechanical stress (or strain) induced by dust-particle impacts into electrical signals. After the commencement of scientific operations, MDM will measure the impact momentum at which dust particles in orbit around the Sun collide with the sensor and record the arrival direction. This paper provides basic information concerning the MDM instrument and its predicted scientific operation as a future reference for scientific articles concerning the MDM’s observational data.

Published
2020
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49. Solar-to-hydrogen peroxide energy conversion on resorcinol–formaldehyde resin photocatalysts prepared by acid-catalysed polycondensation

Author

Satoshi Ichikawa, Shunsuke Tanaka, Takayuki Hirai, Takumi Hagi, Yasuhiro Shiraishi, and Masako Matsumoto

Subjects
Materials science, Energy conversion efficiency, 02 engineering and technology, General Chemistry, Resorcinol, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Hydrothermal circulation, 0104 chemical sciences, Catalysis, Artificial photosynthesis, lcsh:Chemistry, chemistry.chemical_compound, lcsh:QD1-999, chemistry, Materials Chemistry, Photocatalysis, Environmental Chemistry, Hydrothermal synthesis, 0210 nano-technology, Hydrogen peroxide, Nuclear chemistry
Abstract

The photocatalytic generation of hydrogen peroxide from water and dioxygen (H2O + 1/2O2 → H2O2, ΔG° = +117 kJ mol–1) under sunlight is a promising strategy for the artificial photosynthesis of a liquid fuel. We had previously found that resorcinol–formaldehyde (RF) resin powders prepared by the base-catalysed high-temperature hydrothermal method act as semiconductor photocatalysts for H2O2 generation. Herein, we report that RF resins prepared by the acid-catalysed high-temperature hydrothermal method (~523 K) using common acids at pH < 4 exhibit enhanced photocatalytic activity. The base- and acid-catalysed methods both produce methylene- and methine-bridged resins consisting of π-conjugated and π-stacked benzenoid–quinoid donor–acceptor resorcinol units. The acidic conditions result in the resins with a lower bandgap (1.7 eV) and higher conductivity because the lower-degree of crosslinking creates a strongly π-stacked architecture. The irradiation of the RF-acid resins with simulated sunlight in water with atmospheric-pressure O2 generates H2O2 at a solar-to-chemical conversion efficiency of 0.7%, which is the highest efficiency ever reported for powder catalysts used in artificial photosynthesis. Low-bandgap polymers hold great potential for photocatalytic generation of hydrogen peroxide, but increasing catalytic activity remains challenging. Here, a solar-to-chemical conversion efficiency of 0.7 % is reached for a resorcinol-formaldehyde resin powder prepared via acid-catalyzed high-temperature hydrothermal synthesis.

Published
2020
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50. Destiny+ Dust Analyzer – Campaign & timeline preparation for interplanetary & interstellar dust observation during the 4-year transfer phase from Earth to Phaethon

Author

Harald Krüger, Tomoko Arai, Ann-Kathrin Lohse, Peter Strub, Takayuki Hirai, Sho Sasaki, Maximilian Sommer, Hiroshi Kimura, Georg Moragas-Klostermeyer, Masanori Kobayashi, and Ralf Srama

Subjects
Physics, Phase (matter), Destiny (ISS module), Timeline, Interplanetary spaceflight, Earth (classical element), Phaeton, Cosmic dust, Astrobiology
Abstract

The Destiny+ mission (Demonstration and Experiment of Space Technology for Interplanetary voyage Phaethon fLyby and dUst Science) has been selected as part of its M-class Space Science Program by the Japanese space agency JAXA/ISAS and is set to launch in 2023/2024. The mission target is the active asteroid (3200) Phaethon with a projected flyby in early 2028. The scientific payload consists of two cameras (the Telescopic Camera for Phaethon, TCAP, and the Multi-band Camera for Phaethon, MCAP), and the Destiny+ Dust Analyzer (DDA). DDA is the technological successor to the Cosmic Dust Analyzer (CDA) aboard Cassini-Huygens, which prominently investigated the dust environment of the Saturnian system. The DDA sensor is designed as a combination of impact ionization time-of-flight mass spectrometer and trajectory sensor, which will allow for the analysis of sub-micron and micron sized dust particles with respect to their composition (mass resolution m/Δm ≈ 100-150), mass, electrical charge, velocity (about 10% accuracy), and impact direction (about 10° accuracy). Besides attempting to sample the impact-generated dust cloud around Phaethon during the flyby, DDA will be actively observing the interplanetary & interstellar dust environment over the roughly four years spanning cruise phase from the Earth-Moon system through interplanetary space. After launch into a GTO-like orbit, Destiny+ will first employ its solar-electric propulsion system to spiral up to the lunar orbit within about 18 months, followed by a series of lunar swingbys and interim coasting phases in distant cislunar space, accumulating momentum to leave the Earth-Moon system at high excess velocity. The subsequent roughly 2-year interplanetary transfer to intercept Phaethon will be characterized by moderate orbital eccentricity of up to 0.1 and largely unpowered coasting phases. During these four years, the DDA sensor will benefit from a maximum pointing coverage range enabled by its dual-axis pointing mechanism and spacecraft attitude flexibility (during times of unpowered flight). This will allow for exhaustive mapping and analysis of the different interplanetary dust populations, as well as interstellar dust encountered in the region between 0.9-1.1 AU. Here, we give a progress report on the science planning efforts for the 4-year transfer phase. We present a tentative observation timeline that assigns scientific campaigns to different phases of the mission, taking into account results of various dust models, as well as operational and technical constraints.

Published
2020
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