<2024年>
”Investigation of the thermal conductivity of SiO2 glass using molecular dynamics simulations”, Yongjian Yang, Hirofumi Tokunaga, Kazutaka Hayashi, Madoka Ono, John C. Mauro, Journal of the American Ceramic Society Vol (2024) 1-14.
“Effective Thermal Strengthening of Glass by Enhanced Configurational Entropy at its Supercooled State.” M. Ono, S. Amma, T. Miyajima, K. Yoda, Y. Kato, S. Ito Materials & Design 238 (2024) 112661.
”Deriving a fundamental equation for macroscopic stress in chemically strengthened glass: A thermodynamic model” N. Terakado, K. Matsumoto, D.i Murai, S. Ebukuro, Y. Takahashi, K. Kizaki, T. Fujiwara, S. Orihara, Y. Orihara, Jornal of Applied Physics, 135 (2024) 245102.
<2023年>
“Temperature dependence of interfacial reactions of sodium aluminosilicate glasses from reactive molecular dynamics simulations” J. Kalahea, T. S. Mahadevana, M. Ono, K. Miyatani, S. Urata, and J. Du Applied Surface Science, 619 (2023)156780
“High-pressure diffusion control: Na extraction from NaAlB14” M. Fujioka, M. Hoshino, S. Iwasaki, H. Morito, M. Kumagai, Y. Katsura, K. Zagarzusem, M. Ono, and J. Nishii, Chemistry of Materials 35 (2023) 3008-3014
“Intercalation on Transition Metal Trichalcogenides via a Quasi-Amorphous Phase with 1D Order”
M. Fujioka, M. Jeem, K. Sato, M. Tanaka, K. Morita, T. Shibuya, K. Takahashi, S. Iwasaki, A. Miura, M. Nagao, S. Demura, H. Sakata, M. Ono, H. Kaiju, and J. Nishii Adv. Funct. Mater. 33 (2023) 2208702.
“Composition Effect on Interfacial Reactions of Sodium Aluminosilicate Glasses in Aqueous Solution” J. Kalahea, T. S. Mahadevana, M. Ono, K. Miyatani, S. Urata, and J. Du J. Phys. Chem. B, 127 (2023) 269.
“Theoretical study of the thermal conductivity of silica glass-crystal composites” H. Kim, Y. Yang, H. Tokunaga, A. Koike, M. Ono, J. C. Mauro J. Am. Ceram. Soc. 106 (2023) 977.
<2022年>
“Development of Optical Fibers and Glasses for Fibers – Evolution of optical fiber glasses from multicomponent to pure silica” M. Ono and J. Nishii J. Ceram. Soc. Jpn. 130 (2022) 558.
“Introduction to the annual S&T poster for everyone, titled “Glass – One S&T poster for Every Household” and its related activities” M. Ono, K. Shinozaki, J. Ueda, R. Oka, T. Kishi, S. Kurimura, Y. Takahashi, T. Hasegawa, Y. Matsushita, T. Murata, Y. Yamazaki, J. Ceram. Soc. Jpn. 130 (2022) 509.
“Composition dependence of the atomic structures and properties of sodium aluminosilicate glasses: molecular dynamics simulations with reactive and non-reactive potentials” J. Kalahe, M. Ono, S. Urata, J. Du, The J. Phys. Chem. B, 126 (2022) 5326.
“Electric Transport Properties of NaAlB14 with Covalent Frameworks” S. Iwasaki, M. Hoshino, H. Morito, M. Kumagai, Y. Katsura, M. Jeem, M. Ono, J. Nishii, M. Fujioka, Inorg. Chem. 61 (2022) 4378.
“Influence of interatomic potential and simulation procedures on the structures and properties of sodium aluminosilicate glasses from molecular dynamics simulations” J. Kalahe, Y. Onodera, Y. Takimoto, H. Hijiya, M. Ono, K. Miyatani, S. Kohara, S. Urata, J. Du, J. Non-Cryst. Solids. 588 (2022) 121639.
“Beyond the Average: Spatial and Temporal Fluctuations in Oxide Glass-Forming Systems” K. A. Kirchner, D. R. Cassar, E. D. Zanotto, M. Ono, S. H. Kim, K. Doss, M. L. Bødker, M. M. Smedskjaer, S. Kohara, L. Tang, M. Bauchy, C. J. Wilkinson, Y. Yang, R. S. Welch, M. Mancini, J. C. Mauro, Chem. Rev. 123, 4 (2023) 1774.
“Anhydrous Silicophosphoric Acid Glass: Thermal Properties and Proton Conductivity” T. Omata, A. Sharma, I. Suzuki, T. Ishiyama, S. Kohara, K. Ohara, M. Ono, Y. Ren, K. Zagarzusem, M. Fujioka, G. Zhao, J. Nishii, ChemPhysChem 23 (2022) e202100840.
<2021年>
“Investigating the role of GeO2 in enhancing the thermal stability and proton mobility of proton-conducting phosphate glasses” T. Omata, A. Sharma, T. Kinoshita, I. Suzuki, T. Ishiyama, S. Kohara, K. Ohara, M. Ono, T. Fang, Y. Ren, M. Fujioka, G. Zhao, J. Nishii, J. Mat. Chem. A 9 (2021) 20595.
“Void Engineering in Silica Glass for Ultralow Optical Scattering Loss” M. Ono, J. Lightwave Technol. 39 (2021) 5258.
“Topological hardening through oxygen triclusters in calcium aluminosilicate glasses” R. S. Welch, K.-H. Lee, C. J. Wilkinson, M. Ono, C. B. Bragatto, J. C. Mauro, J. Am. Ceram. Soc. 104 (2021) 6183.
“Ion-exchange mechanisms and interfacial reaction kinetics during aqueous corrosion of sodium silicate glasses” L. Deng, K. Miyatani, M. Suehara, S. Amma, M. Ono, S. Urata, J. Du, npj Mater. Degrad. 5 (2021) 15.
“Tuning the Mechanical Toughness of the Metal‐nanoparticle‐implanted Glass: The effect of nanoparticle growth conditions” M. Ono, S. Miyasaka, Y. Takato, S. Urata, Y. Hayashi, J. Am. Ceram. Soc. 104 (2021) 5341.
<2020年>
“Topological pruning enables ultra-low Rayleigh scattering in pressure-quenched silica glass” Y. Yang, O. Homma, S. Urata, M. Ono, J. C. Mauro, npj Comput. Mater. 6 (2020) 139.
“Discovery of AgxTaS2 superconductor with stage-3 structure” K. Zagarzusem, M. Fujioka, T. Shibuya, S. Demura, S. Adachi, Y. Takano, M. Jeem, M Ono, H. Kaiju and J. Nishii, 2D Mater. 8 (2020) 015007.
“Understanding thermal expansion of pressurized silica glass using topological pruning of ring structures” Y. Yang, H. Tokunaga, K. Hayashi, M. Ono, J. C. Mauro, J. Am. Ceram. Soc. 104 (2020) 114.
“Thermal expansion of silicate glass-forming systems at high temperatures from topological pruning of ring structures” Y. Yang, H. Tokunaga, M. Ono, K. Hayashi, J. C. Mauro, J. Am. Ceram. Soc. 103 (2020) 4256.
「低損失ファイバーレーザーに向けたシリカガラスの空隙制御」小野 円佳, レーザー研究 48(7) (2020) 339-343.
J-GLOBAL ID:202002289924170413
<2019年>
“Higher toughness of metal-nanoparticle-implanted sodalime silicate glass with increased ductility” M. Ono, S. Miyasaka, S. Urata, H. Yoshino, R. Ando, Y. Hayashi, Sci. Rep. 9 (2019)15387.
“Reaction mechanisms and interfacial behaviors of sodium silicate glass in an aqueous environment from reactive force field-based molecular dynamics simulations” L. Deng, K. Miyatani, S. Amma, M. Suehara, M. Ono, Y. Yamamoto, S. Urata, J. Du, J. Phys. Chem. C, 123 (2019) 21538.
“Understanding the molar volume of alkali-alkaline earth-silicate glasses via Voronoi polyhedra analysis” Y. Yang, H. Tokunaga, M. Ono, K. Hayashi, J. C. Mauro, Scripta Materialia, 166 (2019) 1.
<2018年>
“Adhesion between Copper and Amorphous Silica: A Reactive Molecular Dynamics Study” S. Urata, H. Yoshino, M. Ono, S. Miyasaka, R. Ando, and Y. Hayashi, J. Phys. Chem. C 122 (2018) 28204.
“Significant suppression of Rayleigh scattering loss in silica glass formed by the compression of its melted phase” M. Ono, S. Aoyama, M. Fujinami, S. Ito, Opt. Express, 26 (2018) 7942-7948.
“Molecular dynamics study on nano-particles reinforced oxide glass” S. Urata, R. Ando, M. Ono, Y. Hayashi, J. Am. Ceram. Soc. 101 (2018) 2266.
<2017年>
「陽電子消滅分光法を用いた金属の照射損傷」藤浪眞紀、小野円佳、伊藤節郎 日本陽電子化学会会報「陽電子科学」 8 (2017).
<2016年>
“Gamma radiation resistance of spin Seebeck devices” A. Yagmur, K. Uchida. K. Ihara, I. Ioka, T. Kikkawa, M. Ono, J. Endo, K. Kashiwagi, T. Nakashima, A. Kirihara, M. Ishida, E.Saitoh, Appl. Phys. Lett. 109 (2016) 243902.
<2012年>
“Network and void structures for glasses with a higher resistance to crack formation” S. Ito, T. Taniguchi, M. Ono, K. Uemura, J. Non-Cryst. Sol. 358 (2012) 3453.
“Void structure in silica glass with different fictive temperatures observed with positron annihilation lifetime spectroscopy” M. Ono, K. Hara, M. Fujinami, S. Ito, Appl. Phys. Lett. 101 (2012) 164103.
<2008年>
“Improvement of transparency and durability to deep ultraviolet light in fluorine-doped silica glass fiber by optimizing the preform fabrication process,” M. Ono, A. Koike, K. Okada, S. Kikugawa, J. Ceram. Soc. Jpn. 116 (2008) 1126.
<2005年>
“Direct observation of excitons and a continuum of one-dimensional Mott insulators: A reflection-type third-harmonic-generation study of Ni-halogen chain compounds” M. Ono, H Kishida, H. Okamoto, Phys. Rev. Lett. 95 (2005) 087401.
“Ultrafast insulator-to-metal switching by photoinduced Mott transition” S. Iwai, Y. Okimoto, M. Ono, H. Matsuzaki, A. Maeda, H. Kishida, H. Okamoto, Y. Tokura, Ultrafast Phenomena XIV 79 (2005) 340
<2004年>
“Third-order nonlinear susceptibility spectra of CuO chain compounds investigated by the Z-scan method” A. Maeda, M. Ono, H. Kishida, T. Manako, A. Sawa, M. Kawasaki, Y. Tokura, H. Okamoto, Phys. Rev. B 70 (2004) 125117.
“Linear and nonlinear optical properties of one-dimensional Mott insulators consistingof Ni-halogen chain and CuO-chain compounds” M. Ono, K. Miura, A. Maeda, H. Matsuzaki, H. Kishida, Y. Taguchi, Y. Tokura, M. Yamashita, H. Okamoto, Phys. Rev. B 70 (2004) 085101.
“Tuning the electronic structure from charge-transfer insulator to Mott-Hubbard and Peierls insulators in one-dimensional halogen-bridged mixed-metal compounds” H. Matsuzaki, K. Iwano, T. Aizawa, M. Ono, H. Kishida, M. Yamashita, H. Okamoto, Phys. Rev. B 70 (2004) 035204.
<2003年>
“Ultrafast Optical Switching to a Metallic State by Photoinduced Mott Transition in a Halogen-Bridged Nickel-Chain Compound” S Iwai, M. Ono, A Maeda, H. Kishida, H. Okamoto, Y Tokura, Phys. Rev. Lett. 91 (2003) 057401.
“Third-order nonlinear optical spectroscopy in the two-dimensional cuprates Nd2CuO4 and La2CuO4” H. Kishida, M. Ono, A. Sawa, M. Kawasaki, Y. Tokura, H. Okamoto Phys. Rev. B 68 (2003) 075101.
“Gigantic third-order optical nonlinearity in one-dimensional Mott insulators” H. Kishida, M. Ono, H. Matsuzaki, M. Yamashita, Y. Taguchi, Y. Tokura, H. Okamoto, Synth. Met. 135 (2003) 315.
“Large optical nonlinearity in 1D and 2D cuprates investigated by third harmonic generation spectroscopy” M. Ono, H. Kishida, H. Okamoto, T. Manako, M. Izumi, A. Sawa, M. Kawasaki, Y. Tokura, Synth. Met. 135 (2003) 313.
<2002年>
“Strong effective suppression of electron-lattice interaction in the photoexcited states of halogen-bridged Ni complexes as one-dimensional Mott insulators”, K. Iwano, M. Ono, H. Okamoto, Phys. Rev. B 66 (2002) 235103.
<2001年>
“Large Third-Order Optical Nonlinearity of Cu-O Chains Investigated by Third-Harmonic Generation Spectroscopy” H. Kishida, M. Ono, K. Miura, H. Okamoto, M. Izumi, T. Manako, M. Kawasaki, Y.Taguchi, Y. Tokura, T. Tohyama, K. Tsutsui, S. Maekawa, Phys. Rev. Lett. 87 (2001) 177401.
<2000年>
“Photoexcitations in the strongly correlated 1D electron system of halogen-bridged Ni compounds” H. Okamoto, H. Kishida, M. Ono, H. Matsuzaki, M. Yamashita, T. Manabe, J. Luminescence, 87 (2000) 204.
<1999年>
“Time-Resolved Emission from Self-Assembled Single Quantum Dots Using Scanning Near-Field Optical Microscope,” M. Ono, K. Matsuda, T. Saiki, M. Kuwata-Gonokami, Jpn. J. Appl. Phys. 38 (1999) L1460.
「空隙構造制御によるシリカガラスの超低損失化」小野円佳, 青山周平, 藤浪眞紀, 伊藤節郎, 光学, 48巻6号 特集号「2018年 日本の光学研究」
小野円佳, ウェブスター暁, 伊藤節郎:「透明酸化物機能材料の開発と応用」(細野秀雄,平野正浩 監修,シーエムシー出版 第III編) 第5章,4節, p.213-223, ”エレクトライドの用途 冷電子発生とFED”.
The Materials Research Society Series, Koichi Hayashi Editor, “Hyperordered Structures in Materials – Disorder in Order and Order within Disorder-“
eBook ISBN : 978-981-99-5235-9
Print ISBN : 978-981-99-5234-2
“Glasses with Hyperordered Structures” Chapter 15, p.353-373 Atsunobu Masuno and Madoka Ono.
「光非線形結晶化ファイバーの創製と光学特性:伝搬損失の評価およびポッケルス効果による光変調」高橋儀宏,中村拓真,寺門信明,藤原巧, 小野円佳 New Glass 38 (2023) 20-23.
「第51回ガラス部会夏季若手セミナー「紐解くガラス科学」参加報告」小野円佳 New Glass 128 (2019) 57.
「高強度ガラスの発展とその応用」小野円佳 New Glass 32 (2017) 3.
「陽電子消滅寿命計測法によるガラスの空隙の研究」 小野円佳 New Glass 27 (2012) 41.
「ニューガラス関連学会:PacRim9 & AFPG参加報告」小野円佳 New Glass 26 (2011) 47.