T. Takamuku
1. “Solvent
Properties of Ionic Liquids on Complex Formation of Ni(II) Ion with Molecular
Liquids”,
T. Takamuku,
Anal. Sci.,
(2025) on Web.
2. “Synthesis of Ionic Liquids with
Functional Groups on the Alkyl Chain and their Application
to Extraction of
Nickel(II) Ion”,
K. Sasaki and T.
Takamuku,
J. Mol. Liquids,
425, 127206 (2025).
3. “Effects
of Microscopic and Mesoscopic Solvent Properties on Complex Formation of
Nickel(II) Ion with
Cyclic Molecules in Imidazolium-based Ionic Liquids”,
T. Takamuku, T. Ikeda,
Y. Kato, M. Kawano, K. Sadakane, H. Iwase, and K. Ozutsumi,
J. Mol. Liquids,
423, 127008 (2025).
4. “Hydrogen
Bond Interactions of Coumarin-153 in Molecular Solvents: Molecular Dynamics
and Principal Component
Analysis”,
K. Goloviznina, D.
Dudariev, F.-A. Miannay, O. Kalugin, V. Koverga, T. Takamuku,
R. Vitale, and A.
Idrissi,
Comptes Rendus.
Chimie, 27, 1-13 (2024).
5. “1H,
13C, 15N NMR and DFT Studies on Complex Formation of
Zinc(II) Ion with
Ethylenediamine in
Ionic Liquid [C2mIm][TFSA]”,
M. Maseda and T.
Takamuku,
J. Phys. Chem. B,
128, 9500-9511 (2024).
6. “Effects
of Heterogeneous Mixing of Imidazolium-Based Ionic Liquids with Alcohols on
Complex Formation of
Ni(II) Ion”,
T. Takamuku, A. Ogawa,
S. Tsutsui, K. Sadakane, H. Iwase, K. Mayumi, and K. Ozutsumi,
J. Phys. Chem. B,
128, 8567-8577 (2024).
7. “Alcohol-Induced
Denaturation of Hen Egg White Lysozyme Studied by Infrared, Circular
Dichroism, and
Small-Angle Neutron Scattering”,
T. Takamuku, T.
Haraguchi, R. Sasaki, Y. Hozoji, K. Sadakane, and H. Iwase,
J. Phys. Chem. B,
128, 4076-4086 (2024).
8. “Effect
of the Mixture Composition of BmimBF4/PC on the Solvation Structure of C153 in
as
Seen from Molecular
Dynamics Study”,
Y. Smortsova, F.-A.
Miannay, O. Kalugin, T. Takamuku, and A. Idrissi,
J. Mol. Liquids,
390, 123015 (2023).
9. “Complex
Formation of Zinc(II) Ion with Acetonitrile in Ionic Liquid [C2mim][TFSA]
Studied
by 15N NMR
Spectroscopy and DFT Calculation”,
M. Maseda and T.
Takamuku,
J. Mol. Liquids,
384, 122252 (2023).
10. “Exploring the Microscopic Aspects of
1-Methyl-3-octylimidazolium Tetrafluoroborate
Mixtures
with Formamide, N-Methylformamide, and N,N-Dimethylformamide by
Multiple
Spectroscopic
Techniques and Computations”,
M. Ando, A.
Tashiro, M. Kawano, Y. Peng, T. Takamuku, and H. Shirota,
J. Phys.
Chem. B, 127, 3870-3887 (2023).
11. “Solvation
Structure and Dynamics of Coumarin 153 in an Imidazolium-based Ionic Liquid
with Chloroform,
Benzene, and Propylene Carbonate”,
T. Takamuku, D. Nishiyama,
M. Kawano, F.-A. Miannay, and A. Idrissi,
Phys. Chem. Chem.
Phys., 25, 9868-9880 (2023).
12. “Insight
to the Local Structure of Mixtures of Imidazolium-Based Ionic Liquids and
Molecular
Solvents from Molecular
Dynamics Simulations and Voronoi Analysis”,
D. Dudariev, V.
Koverga, O. Kalugin, F.-A. Miannay, K. Polok, T. Takamuku, P. Jedlovszky, and
A. Idrissi,
J. Phys. Chem. B,
127, 2534-2545 (2023).
13. “Poly(N-isopropylacrylamide)
Copolymer Nanogels with Thermogelling Ability Prepared by a Single Step of
Dispersion
Polymerization”,
K. Shoyama, S.
Yamaguchi, S. Ogawa, T. Takamuku, H. Kawakita, K. Ohto, and S. Morisada,
Adv. Powder Technol.,
33, 103553 (2022).
14. “Effects of Self-hydrogen Bonding among Formamide
Molecules on the UCST-type Liquid-liquid Phase
Separation of
Binary
Solutions with Imidazolium-based Ionic Liquid, [Cnmim][TFSI], Studied by NMR, IR, MD Simulations, and
SANS”,
M. Kawano,
A. Tashiro, Y. Imamura, M. Yamada, K. Sadakane, H. Iwase, M.
Matsugami, B. A. Marekha, A. Idrissi, and T. Takamuku,
Phys. Chem. Chem.
Phys., 24, 13698-13712 (2022).
15. “Anion
Effects on the Mixing States of 1-Methyl-3-octylimidazolium Tetrafluoroborate
and Bis(trifluoromethylsulfonyl)amide with
Methanol, Acetonitrile,
and Dimethyl Sulfoxide on the Meso- and Microscopic Scales”,
T.
Takamuku, A. Tashiro, M. Kawano, M. Ando, A. Ogawa, K. Sadakane, H. Iwase, and
H. Shirota,
J.
Phys. Chem. B, 125, 13896-13907 (2021).
16. “Assessment of the UCST-type Liquid-Liquid
Phase Separation Mechanism of Imidazolium-based Ionic Liquid,
[C8mim][TFSI],
and 1,4-Dioxane by SANS, NMR, IR, and MD Simulations”,
M. Kawano, K. Sadakane,
H. Iwase, M. Matsugami, B. A. Marekha, A. Idrissi, and T. Takamuku,
Phys. Chem. Chem.
Phys., 23, 24449-24463 (2021).
17. “Thermodynamics for Complex Formation of Boric
Acid and Borate with Hydroxy Acids and Diols”,
M.
Maseda, Y. Miyazaki, and T. Takamuku,
J.
Mol. Liquids, 341, 117343 (2021).
18. “Aggregation of the Dipeptide Leu-Gly in
Alcohol–Water Binary Solvents Elucidated from
the
Solvation Structure for Each Moiety”,
T.
To, Y. Sakamoto, K. Sadakane, M. Matsugami, and T. Takamuku,
J.
Phys. Chem. B, 125, 240-252 (2021).
19. “Voronoi Polyhedra as a Tool for the
Characterization of the Inhomogeneous Distribution in
1-Butyl-3-methylimidazolium
Cation Based Ionic Liquids”,
V.
Koverga, N. Maity, F. A. Miannay, O. N. Kalugin, A. Juhasz, A. Światek, K.
Polok,
T.
Takamuku, P. Jedlovszky, and A. Idrissi,
J.
Phys. Chem. B, 124, 10419-10434 (2020).
20. “Low-Frequency Spectra of
1-Methyl-3-Octylimidazolium Tetrafluoroborate Mixtures with
Methanol,
Acetonitrile, and Dimethyl Sulfoxide: A Combined Study of Femtosecond
Raman-Induced
Kerr Effect Spectroscopy and Molecular Dynamics Simulations”,
M.
Ando, M. Kawano, A. Tashiro, T. Takamuku, and H. Shirota,
J.
Phys. Chem. B, 124, 7857-7871 (2020).
21. “Solvation Structures of Tetraethylammonium
Bromide and Tetrafluoroborate in Aqueous
Binary
Solvents with Ethanol, Trifluoroethanol, and Acetonitrile”,
T.
Takamuku, M. Yamamoto, T. To, and M. Matsugami,
J. Phys. Chem. B, 124,
5009-5020 (2020).
22.“Mixing States
of Imidazolium-based Ionic Liquid, [C4mim][TFSI], with Cycloethers
Studied
by SANS, IR, NMR, and
MD Simulations”,
M. Kawano, K. Sadakane, H. Iwase,
M. Matsugami, B. A. Marekha, A. Idrissi, and T. Takamuku,
Phys.
Chem. Chem. Phys., 22, 5332-5346 (2020).
T. Umecky
1. “Two Different Pathways from CO2 to
HCO3- in Aqueous Solutions of Arginine Sodium Salt”,
T.
Umecky, M. Doi, and Y. Tatsukawa
ChemistrySelect,
9, e202402209 (2024).
2. “Stable Supercooling Formation of
Guanidine Monohydrochloride-based Deep Eutectic Solvent Induced by
Monosubstitution
of Urea as Hydrogen Bond Donor,”
T.
Umecky, R. Yamaguchi, S. Hashimoto, R. Wakimoto, and H. Takeuch
Phys.
Chem. Liq., 62, 491-499 (2024).
3. “疎水性深共晶溶媒の水に対する安定性”,
梅木辰也,
Review
of Polarography, 70,
65-73 (2024).
4. “Fine-tuning the Basicity of Deep
Eutectic Solvents by Substituting Guanidine for Urea in Reline”,
T.
Umecky, A. Goto, N. Hayashi, and K. Eguchi,
ACS
Omega, 8, 14694-14698 (2023).
5. “Effects of Structures of Lower Aliphatic
Alcohols and Concentrations on CO2 Chemical Absorption and
Desorption Reactions in
Various
Alcohol Solutions of 1,8-Diazabicyclo[5.4.0]undec-7-ene”,
T.
Umecky, Y. Kamesaki, S. Tanaka, T. Takamuku, T. Makino, and M. Kanakubo,
J.
Mol. Liquids, 390,
123022 (2023).
6. “Effect of Spacer Length between Two Weak
NH Hydrogen Atoms of Secondary Diamido Reagents on Anionic Platinum
Extraction”,
K.
Ohto, T. Sato, G. Pang, T. Umecky, S. Morisada, and H. Kawakita,
Hydrometallurgy,
213, 105932 (2022).
7. “Extraction of Platinum Hexachloride
Anion Using Two Amido Hydrogen Atoms of Secondary Diamides with Different
Spacer Length”,
K.
Ohto, T. Sato, G. Pang, T. Umecky, S. Morisada, and H. Kawakita,
Chem.
Lett., 51, 399-401 (2022).
8. “Allosteric Extraction of a Second
Gallium Anion Assisted by the First, Loaded onto a Fluorinated Secondary Amide
Reagent”,
G.
Pang, S. Morisada, H. Kawakita, T. Hanamoto, T. Umecky, K. Ohto, and X.-M.
Song,
Sep.
Purif. Technol., 278, 119036 (2021).