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[110]“Variation of charge dynamics upon antiferromagnetic transitions in the Dirac semimetal EuMnBi2

H.Nishiyama, H.Sakai, K.Nakagawa, N.Hanasaki, S.Ishiwata, H.Masuda, M.Ochi,K.Kuroki, S.Iguchi, T.Sakaki, Y.Ikemoto, T.Moriwaki, K.Ueda, Y.Tokura,and J.Fujioka

    Physical Review B, 104, 115111-1-7(2021).

 

[109]“Enhancing Thermopower and Nernst Signal of High-Mobility Dirac Carriers by Fermi Level Tuning in the Layered Magnet EuMnBi2

K.Tsuruda, K.Nakagawa, M.Ochi, K.Kuroki, M.Tokunaga, H.Murakawa, N.Hanasaki, and H.Sakai

    Advanced Functional Materials, 2021, 2102275(2021).

 

[108]“An electrically conducting molecular crystal composed of a magnetic iron (III) complex (S=1/2) with a large aromatic ligand, 1,2-naphthlalocyanine (C4th isomer): towards the development of molecular spintronics”

Masayuki Yamaguchi, Sayaka Iwamura, Kosuke Mine, Hiroshi Murakawa, Noriaki Hanasaki, and Masaki Matsuda

    Dalton Transactions, 50, 5789(2021).

 

[107]“Tunable spin-valley coupling in layered polar Dirac metals”

Masaki Kondo, Masayuki Ochi, Tatsuhiro Kojima, Ryosuke Kurihara, Daiki Sekine, Masakazu Matsubara, Atsushi Miyake , Masashi Tokunaga, Kazuhiko Kuroki, Hiroshi Murakawa, Noriaki Hanasaki, and Hideaki Sakai

    Communications Materials, 2, 49-1-7(2021).

 

[106]“181Ta nuclear quardrupole resonance study of the noncentrosymmetric superconductor PbTaSe2

K.Yokoi, M.Yashima, H.Murakawa, H.Mukuda, K.Yamauchi, T.Oguchi, H.Sakai, and N.Hanasaki

    Physical Review B, 102, 214504-1-5(2020).

 

[105]“Resonant X-ray Diffraction Study of Antiferromagnetic Transition in GdNiC2

Susumu Shimomura, Noriaki Hanasaki, Hironori Nakao,and Hideya Onodera

    JPS Conference Proceedings, 30, 011081-1-6 (2020).

 

[104]“Angular dependence of interlayer magnetoresistance for antiferromagnetic Dirac semimetal AMnBi2(A=Sr, Eu)”

M. Kondo, H. Sakai, M. Komada, H. Murakawa,and N. Hanasaki

    JPS Conference Proceedings, 30, 011016-1-6 (2020).

 

[103]“Bulk quantum Hall effect of spin-vally coupled Dirac fermions in the polar aniferromagnet BaMnSb2

H. Sakai, H. Fujimura, S. Sakuragi, M. Ochi, R. Kurihara, A. Miyake, M. Tokunaga, T. Kojima, D. Hashizume, T. Muro, K. Kuroda, Takeshi Kondo, T. Kida, M. Hagiwara, K. Kuroki, M. Kondo, K. Tsuruda, H. Murakawa,and N. Hanasaki

    Physical Review B, 101, 081104(R)-1-7 (2020).

 

[102]“Angle-dependent nontrivial phase in the Weyl semimetal NbAs with anisotropic Fermi surface”

M. Komada, H. Murakawa, M. S. Bahramy, T. Kida, K. Yokoi, Y. Narumi, K. Kindo, M. Hagiwara, H. Sakai, and N. Hanasaki

    Physical Review B, 101, 045135-1-6 (2020).

 

[101]“Intermolecular interactions of tetrabenzoporphyrin - and phthalocyanine - based charge - transfer complexes”

Miki Nishi, Yuki Hayata, Norihisa Hoshino,Noriaki Hanasaki, Tomoyuki Akutagawa, and Masaki Matsuda

    Dalton Transactions 48, 17723-17728(2019).

 

[100]“Large Enhancement of Thermoelectric Efficiency Due to a Pressure-Induced Lifshitz Transition in SnSe”

T. Nishimura, H. Sakai , H. Mori , K. Akiba, H. Usui ,M. Ochi ,K. Kuroki ,A. Miyake ,M. Tokunaga ,Y. Uwatoko ,K. Katayama ,H. Murakawa ,and N. Hanasaki

    Physical Review Letters, 122, 226601-1-6 (2019).

 

[99] “Defect-induced electronic structures on SnSe surfaces”

Kanta Asakawa, Fumikazu Oguro , Yasuo Yoshida , Hideaki Sakai, Noriaki Hanasaki ,and Yukio Hasegawa

    Japanese Journal of Applied Physics, 58, SIIA061-1-3 (2019).

 

[98] “Nanoscale ice-type structural fluctuation in spinel titanates”

S. Torigoe, T. Hattori , K. Kodama , T. Honda, H. Sagayama ,K. Ikeda , T. Otomo ,H. Nitani ,H. Abe ,H. Murakawa ,H. Sakai ,and N. Hanasaki

    Physical Review B, 98, 134443-1-7 (2018).

 

[97] “Quantitative evaluation of Dirac physics in PbTe”

Kazuto Akiba, Atsushi Miyake , Hideaki Sakai , Keisuke Katayama, Hiroshi Murakawa , Noriaki Hanasaki , Sadao Takaoka ,Yoshiki Nakanishi ,Masahito Yoshizawa ,and Masashi Tokunaga

    Physical Review B, 98, 115144-1-11 (2018).

 

[96] “Microwave nonreciprocity of magnon excitations in the noncentrosymmetric antiferromagnet Ba2MnGe2O7

Y. Iguchi, Y. Nii , M. Kawano , H. Murakawa, N. Hanasaki , and Y. Onose

    Physical Review B, 98, 064416-1-5 (2018).

 

[95] “An electrically conducting crystal composed of an octahedrally ligated porphyrin complex with high-spin iron(Ⅲ)”

Miki Nishi, Ryuta Ishii , Mitsuo Ikeda , Noriaki Hanasaki, Norihisa Hoshino , Tomoyuki Akutagawa , Michinori Sumimoto, and Masaki Matsuda

    Dalton Transactions, 47, 4070-4075 (2018).

 

[94] “Enhanced magnetoresistance in the binary semimetal NbAs2 due to improved crystal quality”

K. Yokoi, H. Murakawa , M. Komada , T. Kida , M. Hagiwara , H. Sakai and N. Hanasaki

    Physical Review Materials, 2, 024203-1-5 (2018).

 

[93] “Electrochemical synthesis of phthalocyanine-molecular mixed crystals in dilute solution”

R. Ishii, H. Murakawa , M. Nishi , M. Matsuda , H. Sakai and N. Hanasaki

    Journal of Crystal Growth, 487, 92-95 (2018).

 

[92] “PVD thin film growth of M(Pc)(CN)2 axially substituted metal-phtalocyanines”

Felix Küster, Marco Grünewald , Mitsuo Ikeda , Noriaki Hanasaki, and Torsten Fritz

    Journal of Phthalocyanines and Porphyrins , 21, 739-744 (2017).

 

[91] “A new strategy for inducing dipole moments in charge-transfer complexes: introduction of asymmetry into axially ligated iron phthalocyanines”

Masaki Matsuda, Sayaka Iwamura , Yumi Hamada , Hiroko Ohishi , Miki Nishi , Yoshio Nogami , Mitsuo Ikeda , Akinori Kanda , Yusuke Funasako , Tomoyuki Mochida , Akiko Nakao , and Noriaki Hanasaki

    Dalton Transactions , 46, 11800-11805 (2017).

 

[90] 「金属フタロシアニン系伝導体における分子設計と巨大磁気抵抗効果」、松田真生、花咲徳亮、日本物理学会誌,  72 (6),  415-421  (2017).

 

[89] “Axially Ligated Phthalocyanine Conductors with Magnetic Moments”

Tamotsu Inabe, and Noriaki Hanasaki

    Magnetochemistry , 3, 18-1-11 (2017).

 

[88] “Synthesis and Characterization of Iodide-coordinated Dinuclear Molecular Single Crystal Cr2(μ-I)2I4(C8N2H4)4

Hiroshi Murakawa, Moriyoshi Komada , and Noriaki Hanasaki

    Chemistry Letters , 46, 554-556 (2017).

 

[87] “Interplay between charge-density wave and antiferromagnetic order in GdNiC2

N.Hanasaki, S.Shimomura, K.Mikami, Y.Nogami, H.Nakao, and H.Onodera

    Physical Review B , 95, 085103-1-5 (2017).

 

[86] “A giant negative magnetoresistance effect in an iron tetrabenzoporphyrin complex”

Miki Nishi, Mitsuo Ikeda, Akinori Kanda, Noriaki Hanasaki, Norihisa Hoshino, Tomoyuki Akutagawa, and Masaki Matsuda

    Dalton Transactions , 45, 16604-16609 (2016).

 

[85] “Phthalocyanine-Based Single-Component Molecular Conductor [MnIII(Pc)(CN)]2O”

Mitsuo Ikeda, Hiroshi Murakawa, Masaki Matsuda, and Noriaki Hanasaki

    Inorganic Chemistry , 55, 7314-7316 (2016).

 

[84] “High Magnetic Field Study on Giant Negative Magnetoresistance in the Molecular Conductor TPP[Cr(Pc)(CN)2]2

Mitsuo Ikeda, Takanori Kida, Time Tahara, Hiroshi Murakawa, Miki Nishi, Masaki Matsuda, Masayuki Hagiwara, Tamotsu Inabe,and Noriaki Hanasaki

    Journal of the Physical Society of Japan, 85, 064713-1-6 (2016).

 

[83] “Multiple charge density wave transitions in the antiferromagnets RNiC2(R=Gd,Tb)”

S.Shimomura, C.Hayashi, N.Hanasaki, K.Ohnuma, K.Kobayashi, H.Nakano, M.Mizumaki, and H.Onodera

    Physical Review B, 93, 165108-1-11 (2016).

 

[82] “Observation of all-in type tetrahedral displacements in nonmagnetic pyrochlore niobates”

S.Torigoe, Y.Ishimoto, Y.Aoishi, H.Murakawa, D.Matsumura, K.Yoshii, Y.Yoneda,

Y.Nishihata, K.Kodama, K.Tomiyasu, K.Ikeda, H.Nakao, Y.Nogami, N.Ikeda, T.Otomo, and N.Hanasaki

    Physical Review B, 93, 085109-1-5 (2016).

 

[81] “Effect of Localized Spin Concentration on Giant Magnetoresistance in Molecular Conductor TPP[FexCo1-x(Pc)(CN)2]2

M.Ikeda, A.Kanda, H.Murakawa, M.Matsuda, T.Inabe, H.Tajima, and N.Hanasaki

    Journal of the Physical Society of Japan, 85, 024713-1-9 (2016).

 

[80] “Giant ferromagnetic pi-d interaction in a phthalocyanine molecule”

H.Murakawa, A.Kanda, M.Ikeda,M.Matsuda, and N.Hanasaki

    Physical Review B, 92, 054429-1-6 (2015).

 

[79] “One-dimensional phthalocyanine-based conductor with S=3/2 isotopic magnetic centers”

Y.Takita, H.Hasegawa, Y.Takahashi,J.Harada,A.Kanda,N.Hanasaki, and T.Inabe

    Journal of Porphyrins and Phthalocyanines, 18, 814-823 (2014).

 

[78] “Metal-Insulator Transition and Thermoelectric Properties in Hexagonal Barium Titanates”

S. Tsuchihashi, A.Kanda, H. Murakawa, and N.Hanasaki

    JPS Conference Proceedings, 3, 017033-1-5 (2014).

 

[77] “Bistable Multifunctionality and Switchable Strong Ferromagnetic-to-Antiferromagnetic Coupling in a One-Dimensional Rhodium(I)-Semiquinonato Complex”

M.Mitsumi, T.Nishitani, S.Yamasaki, N.Shimada, Y.Komatsu, K.Toriumi, Y.Kitagawa, M.Okumura, Y.Miyazaki, N.Gorska, A.Inaba, A.Kanda, and N.Hanasaki

    Journal of American Chemical Society, 136, 7026-7037 (2014).

 

[76] “Magnetoelectric Effect in FeSb2O4 Single Crystals”

A.Iyama, Y.Wakabayashi, N.Hanasaki, and T.Kimura

    Japanese Journal of Applied Physics, 53, 05FB02-1-3 (2014).

 

[75] “Ligand and Charge Dependence for Absorption Edge in XANES spectra of TPP[Fe(Pc)L2]2 systems”

K.Takahashi, A.Watanabe, K.Niki, N.Hanasaki, A.Kanda, and T.Fujikawa

    JPS Conference Proceedings, 1, 012108-1-6 (2014).

 

[74] “Metamagnetic Transition and Its Related Magnetocapacitance Effect in Phthalocyanine-Molecular Conductor Exhibiting Giant Magnetoresistance”

N.Hanasaki, T.Tateishi, H.Tajima, M.Kimata, M.Tokunaga, M.Matsuda, A.Kanda, H.Murakawa, T.Naito, and T.Inabe

    Journal of the Physical Society of Japan, 82, 094713-5pages (2013).

 

[73] “Magnetic torque experiments on TPP[Fe(Pc)L2]2 (L=Br and Cl):Antiferromagnetic short range ordering of d electrons, Antiferromagnetic ordering of pi electrons, and anisotropy energy”

K.Torizuka, H.Tajima, M.Inoue, N.Hanasaki, M.Matsuda, Derrick E.C. Yu, T.Naito, and T.Inabe

    Journal of the Physical Society of Japan, 82, 034719-14pages (2013).

 

[72] “Thermoelectric Effect in Hexagonal Tungsten Oxides"

T.Okusako, T.Tokuyama, Y.Nogami, and N.Hanasaki

    Journal of the Physical Society of Japan, 81, SB028-1-4 (2012).

 

[71] “XANES analysis of phthalocyanine molecular conductor"

K.Takahashi, T.Konishi, T.Fujikawa, N.Hanasaki, N.Kawamura, M.Mizumaki, M.Matsuda, D.Ethelbhert C. Yu, T.Naito, T.Inabe, and H.Tajima

    e-Journal of Surface Science and Nanotechnology, 85, 10, 92-96 (2012).

 

[70] “Magnetic field switching of the charge-density-wave state in the lanthanide intermetallic SmNiC2

N.Hanasaki, Y.Nogami, M.Kakinuma, S.Shimomura, M.Kosaka, and H.Onodera

    Physical Review B, 85, 092402-1-5 (2012).

 

[69] “Successive transition in Rare-earth intermetallic compound GdNiC2

N.Hanasaki, K.Mikami, S.Torigoe, Y.Nogami, S.Shimomura, M.Kosaka, and N.Onodera

Journal of Physics: Conference Series, 320, 012072-1- 4 (2011).

 

[68] “X-ray Absorption Spectra in Pyrochlore Niobates

S.Torigoe, Y.Ishimoto, N.Hanasaki, Y.Nogami, D.Matsumura, K.Yoshii, Y.Yoneda, and Y.Nishihata

Journal of Physics: Conference Series, 320, 012078-1-4 (2011).

 

[67] “Hydrothermal Synthesis of Hexagonal Vanadium Oxide”

T.Tokuyama, T.Okusako, K.Mikami, N.Hanasaki, and Y.Nogami

Journal of Physics: Conference Series, 320, 012073-1-5 (2011).

 

[66] “Charge order competition leading to nonlinearity in organic thyristor family ”

Y. Nogami, N.Hanasaki, M.Watanabe, K.Yamamoto, T.Ito, N.Ikeda, H.Ohsumi, H.Toyokawa, Y.Noda, I.Terasaki, H. Mori , and T.Mori

    Journal of the Physical Society of Japan, 79, 044606-1-5 (2010).

 

[65] “Interplay between charge-density waves and superconductivity in the organic conductor b’’-(BEDT-TTF)2AuBr2

    R.Kondo, M.Higa, S.Kagoshima, N.Hanasaki, Y.Nogami, and H.Nishikawa

    Physical Review B, 81, 024519-1-10 (2010).

 

[64] “Giant magnetoresistance response by the p-d interaction in an axially ligated phthalocyanine conductor with two-dimensional p-p stacking structure ”

M.Ishikawa, T.Asari, M.Matsuda, H.Tajima, N.Hanasaki, T.Naito, and T.Inabe

    Journal of Materials Chemistry, 20, 4432-4438 (2010).

 

[63] “Magneto-electric effect in charge-ordered LuFe2O4

T.Kambe, T.Komatsu, T.Michiuchi, H.Hayakawa, D.Ohishi, N.Hanasaki, N.Ikeda, and K.Yoshii

Journal of Physics: Conference Series 200, 012077 (2010).

 

[62] “Nonequilibrium charge ordering in q-(BEDT-TTF)2MM’(SCN)4 (M=Rb, Cs; M’=Co, Zn)”

I.Terasaki, S.Tasaki, S.Ajisaka, Y.Nogami, N.Hanasaki, M.Watanabe, H.Mori, and T.Mori

Physica B, 405, S217-S220 (2010).

 

[61] “Magnetic torque measurements of TPP[Fe(Pc)Br2]2

M.Inoue, K.Torizuka, H.Tajima, M.Matsuda, Derrick Ethelbhert C. Yu, T.Naito, T.Inabe, and N.Hanasaki

Physica B, 405, S331-S333 (2010).

 

[60] “Synchrotron X-ray study of charge density waves in ο-TaS3

K.Inagaki, M.Tsubota, K.Ichimura, S.Tanda, K.Yamamoto N.Hanasaki, Y.Nogami, N.Ikeda, T.Ito, and H.Toyokawa

Journal of Physics: Conference Series, 150, 0420681-1-4 (2009).

 

[59] “Variable magnetotransport properties in the TPP[Fe(Pc)L2]2 system (TPP = tetraphenylphosphonium, Pc=phthalocyaninato, L=CN, Cl and Br)”

Derrick Ethelbhert C.Yu, T.Naito, M.Matsuda, H.Tajima, A.Kikuchi, T.Taketsugu, N.Hanasaki, and T.Inabe

    Journal of Materials Chemistry, 19, 718-723 (2009).

 

[58] “Emergence of a diffusive metal state with no magnetic order near the Mott transition in frustrated pyrochlore-type molybdates”

    S.Iguchi, N.Hanasaki, M.Kinuhara, N.Takeshita, C.Terakura, Y.Taguchi, H.Takagi, and Y.Tokura

    Physical Review Letters, 102, 1036407-1-4 (2009).

 

[57] “Magnetic torque and ac and dc magnetic susceptibility measurements on PTMA0.5[Fe(Pc)(CN)2]CH3CN : Origin of spontaneous magnetization in [Fe(Pc)(CN)2] molecular conductors”

    H.Tajima, G.Yoshida, M.Matsuda, J.I.Yamaura, N.Hanasaki, T.Naito, and T.Inabe

    Physical Review B, 80, 024424-1-8 (2009).

 

[56] “Nonlinear Transport Phenomena in Highly One-dimensional MIII(Pc)(CN)2 Chains with p-d Interaction (M = Co and Fe and Pc =Phthalocyaninato)”

    M.Ishikawa, S.Yamashita, T.Naito, M.Matsuda, H.Tajima, N.Hanasaki, T.Akutagawa, T.Nakamura, and T.Inabe

    Journal of the Physical Society of Japan, 78, 104709-1-6 (2009).

 

[55] “Stoichiometric study of the dielectric and magnetic properties in charge frustrated system LuFe2O4

T.Michiuchi, Y.Yokota, T.Komatsu, H.Hayakawa, T.Kuroda, D.Maeda, Y.Matsuo, S.Mori, K.Yoshii, N.Hanasaki, T.Kambe, and N.Ikeda

Ferroeletrics, 378, 175-180 (2009).

 

[54] “Commensurate-incommensurate transition of charge density waves in o-TaS3

K.Inagaki, M.Tsubota, K.Ichimura, S.Tanda, K.Yamamoto, N.Hanasaki, Y.Nogami, N.Ikeda, T.Ito, and H.Toyokawa

Physica B, 404, 396-398 (2009).

 

[53] “Anomalous Nernst effects in pyrochlore molybdates with spin chirality ”

    N.Hanasaki, K.Sano, Y.Onose, T.Ohtsuka, S.Iguchi, I.Kezsmarki, S.Miyasaka, S.Onoda, N.Nagaosa, and Y.Tokura

    Physical Review Letters, 100, 106601-1-4 (2008).

 

[52] “Non-thermal evidence for current-induced melting of charge order in q-(BEDT-TTF)2CsZn(SCN)4

    M.Watanabe, K.Yamamoto, T.Ito, Y.Nakashima, M.Tanabe, N.Hanasaki, N.Ikeda, Y.Nogami, H.Ohsumi, H.Toyokawa, Y.Noda, H.Mori, I.Terasaki, F.Sawano, T.Suko, H.Mori, and T.Mori

Journal of the Physical Society of Japan, 77, 065004-1-5 (2008).

 

[51] “Field-induced discommensuration in charge density waves in o-TaS3

    K.Inagaki, M.Tsubota, K.Higashiyama, K.Ichimura, S.Tanda, K.Yamamoto, N.Hanasaki, N.Ikeda, Y.Nogami, T.Ito, and H.Toyokawa

    Journal of the Physical Society of Japan, 77, 093708-1-4 (2008).

 

[50] “Magnetic torque and heat capacity measurements on TPP[Fe(Pc)(CN)2]2

    H.Tajima, G.Yoshida, M.Matsuda, K.Nara, K.Kajita, Y.Nishio, N.Hanasaki, T.Naito, and T.Inabe

    Physical Review B, 78, 064424-1-8 (2008).

 

[49] 「金属フタロシアニン錯体」、稲辺保、武次徹也、田島裕之、松田真生、花咲徳亮、固体物理(アグネ),  43 (11),  795-808  (2008).

 

[48] “Scaling of anomalous Hall resistivity in Nd2(Mo1-xNbx)2O7 with spin chirality”

    S.Iguchi, N.Hanasaki, and Y.Tokura

    Physical Review Letters, 99, 077202-1-4 (2007).

 

[47] “Nature of transition between a ferromagnetic metal and a spin-glass insulator in pyrochlore molybdates”

    N.Hanasaki, K.Watanabe, T.Ohtsuka, I.Kezsmarki, S.Iguchi, S.Miyasaka, and Y.Tokura

    Physical Review Letters, 99, 086401-1-4 (2007).

 

[46] 「磁場によって電気抵抗が激減する分子性物質」、松田真生、田島裕之、花咲徳亮、内藤俊雄、稲辺保、固体物理(アグネ),  42(2), 123-132 (2007).

 

[45]“Giant negative magnetoresistance reflecting molecular symmetry in dicyano (phthalocyaninate)iron compounds”

    N.Hanasaki, M.Matsuda, H.Tajima, E.Ohmichi, T.Osada, T.Naito, and T.Inabe

    Journal of the Physical Society of Japan, 75, 033703-1-4 (2006).

  [Papers of Editors’ Choice]

 

[44] “Mott-Anderson transition controlled by magnetic field in pyrochlore molybdate

    N.Hanasaki, M.Kinuhara, I.Kezsmarki, S.Iguchi, S.Miyasaka, N.Takeshita, C.Terakura, H.Takagi, and Y.Tokura

    Physical Review Letters, 96, 116403-1-4 (2006).

 

[43] “Variation of the charge dynamics in bandwidth and filling controlled metal-insulator transitions of pyrochlore-type molybdates”

    I.Kezsmarki, N.Hanasaki, K.Watanabe, S.Iguchi, Y.Taguchi, S.Miyasaka, and Y.Tokura

    Physical Review B, 73, 125122-1-10 (2006).

 

[42] “Charge disproportionation in highly one-dimensional molecular conductor TPP[Co(Pc)(CN)2]2

    N.Hanasaki, K.Masuda, K.Kodama, M.Matsuda, H.Tajima, J.Yamazaki, M.Takigawa, J.Yamaura, E.Ohmichi, T.Osada, T.Naito, and T.Inabe

    Journal of the Physical Society of Japan, 75, 104713-1-5 (2006).

 

[41] “Electrical inhomogeneity at the Mott transition in the band with controlled k-(BEDT-TTF)2Cu[N(CN)2]Br”

T.Sasaki, N.Yoneyama, A.Suzuki, I.Ito, N.Kobayashi, Y.Ikemoto, H.Kimura, N.Hanasaki, and H.Tajima

Journal of Low Temperature Physics, 142, 373-378 (2006).

 

[40] “Magneto-optical effect induced by the spin chirality in the itinerant ferromagnet Nd2Mo2O7

    I.Kezsmarki, S.Onoda, Y.Taguchi, T.Ogasawara, M.Matsubara, S.Iguchi, N.Hanasaki, N.Nagaosa, and Y.Tokura

    Physical Review B, 72, 094427-1-6 (2005).

 

[39] “Electronic correlation in the infrared optical properties of the quasi two dimensional k-type

BEDT-TTF dimer system”

T.Sasaki, I.Ito, N.Yoneyama, N.Kobayashi, N.Hanasaki, H.Tajima, T.Ito, and Y.Iwasa

Physical Review B, 69, 064508-1-7(2004).

 

[38] “Novel electroluminescence properties of thin films using soluble metallophthalocyanine

 salts”

    S.Ikeda, M.Matsuda, Y.Ando, Ji-Won Oh, N.Hanasaki, H.Tajima, and H.Akiyama

    Japanese Journal of Applied Physics, 43, L1187-L1189 (2004).

 

[37] “Charge dynamics near the electron-correlation induced metal-insulator transition in pyrochlore-type molybdates”

    I.Kezsmarki, N.Hanasaki, D.Hashimoto, S.Iguchi, Y.Taguchi, S.Miyasaka, and Y.Tokura

    Physical Review Letters, 93, 266401-1-4 (2004).

 

[36] “Anisotripic giant magnetoresistance originating from the p-d interaction in a molecule”

M.Matsuda, N.Hanasaki, H.Tajima, T.Naito, and T.Inabe

Journal of Physical and Chemistry of Solid, 65, 749-752 (2004).

 

[35] “Infrared optical conductivity and the electronic phase diagram in the organic superconductor k-(BEDT-TTF)2X”

I.Ito, T.Sasaki, N.Yoneyama, N.Kobayashi, N.Hanasaki, H.Tajima, T.Ito, and Y.Iwasa

Journal de Physique IV (France), 114, 321-322 (2004).

 

[34] “Molecular unit based on metal phthalocyanine; designed for molecular electronics”

M.Matsuda, N.Hanasaki, S.Ikeda, H.Tajima, T.Naito, and T.Inabe

Journal de Physique IV (France), 114, 541-543 (2004).

 

[33]  実験化学講座(丸善)第5版 第7巻「電気物性、磁気物性」、 

第2章「基礎電気計測計器」p.39-55  (2004).  (分担執筆)

 

[32] “Fabrication of thin films using a soluble metal phthalocyanine salt and their photocoductive

properties”

M.Matsuda, S.Ikeda, N.Hanasaki, M.Yoshita, and H.Tajima

Chemistry Letters, 32, 130-131 (2003).

 

[31] “A light-emitting diode fabricated from horse–heart cytochrome c”

H.Tajima, S.Ikeda, M.Matsuda, N.Hanasaki, Ji-Won Oh, and H.Akiyama

Solid State Communications, 126, 579-581 (2003).

 

[30] “Charge-density-wave state within Pd(dmit)2 layer in two-dimensional molecular conductor

  (IEDT)[Pd(dmit)2]”

    N.Hanasaki, H.Tajima, T.Imakubo, and R.Kato

    Journal of the Physical Society of Japan, 72, 2291-2298 (2003).

 

[29] “Structure and physical properties of low-dimensional molecular conductors, [PXX][FeIII(Pc)(CN)2] and [PXX][CoIII(Pc)(CN)2] (PXX = peri-xanthenoxanthene, Pc = phthalocyaninato) ”

M.Matsuda, T.Asari, T.Naito, T.Inabe, N.Hanasaki, and H.Tajima

Bulletin of the Chemical Society of Japan, 76, 1935-1940 (2003).

 

[28] “Contribution of degenerate molecular orbitals to molecular orbital angular momentum in

molecular magnet Fe(Pc)(CN)2

N.Hanasaki, M.Matsuda, H.Tajima, T.Naito, and T.Inabe

Journal of the Physical Society of Japan, 72, 3226-3230 (2003).

 

[27] “Infrared reflectance spectra of a-ET2KHg(SCN)4 under high magnetic field”

H.Tajima, M.Inoue, R.Sakamoto, J.Yamazaki, and N.Hanasaki

Synthetic Metals, 133-134, 151-152 (2003).

 

[26] “One-dimensional p-d electron system in TPP[Fe(Pc)(CN)2]2, [PXX][Fe(Pc)(CN)2], and (PTMA)x[Fe(Pc)(CN)2]Y(CH3CN) : Electron spin resonance and negative magnetoresistance ”

N.Hanasaki, M.Matsuda, H.Tajima, T.Naito, and T.Inabe

Synthetic Metals, 133-134, 519-521 (2003).

 

[25] “Magnetic and optical properties of one-dimensional p-d system with axially substituted iron(III) phthalocyanine”

M.Matsuda, N.Hanasaki, H.Tajima, T.Naito, and T.Inabe

Synthetic Metals, 133-134, 547-548 (2003).

 

[24] “Magnetic properties of d-p conducting system, TPP[FeIIIxCoIII1-x(Pc)(CN)2]2

M.Matsuda, N.Hanasaki, H.Tajima, F.Sakai, T.Naito, and T.Inabe

Synthetic Metals, 135-136, 635-636 (2003).

 

[23] “Torque study of TPP[Fe(Pc)(CN)2]2 (TPP = tetraphenylphosphonium and Pc = phthalocyanine)”

N.Hanasaki, M.Matsuda, H.Tajima, T.Naito, and T.Inabe

Synthetic Metals, 137, 1227-1228 (2003).

 

[22] “Magnetoresistance study on TPP[M(Pc)(CN)2]2 [M=Fe, Co, Fe0.30Co0.70] salts”

H.Tajima, N.Hanasaki, M.Matsuda, F.Sakai, T.Naito, and T.Inabe

Journal of Solid State Chemistry, 168, 509-513(2002).

 

[21] “One-dimensional p-d system with axially substituted iron(III) phthalocyanine”

M.Matsuda, T.Naito, T.Inabe, N.Hanasaki, and H.Tajima

Molecular Crystals and Liquid Crystals, 380, 277-282 (2002).

 

[20] “Angle-dependent magnetoresistance oscillations in the quasi-two-dimensional organic conductor a-(BEDT-TTF)2NH4Hg(SCN)4

: Origin of the difference in ground state between a-(BEDT-TTF)2NH4Hg(SCN)4

   and a -(BEDT-TTF)2KHg(SCN)4

N.Hanasaki, S.Kagoshima, N.Miura, and G.Saito

Physical Review B, 63, 245116-1-8 (2001).

 

[19] “Structure and electrical and magnetic properties of (PTMA)x[M(Pc)(CN)2]y(solvent)

(PTMA= phenyltrimethylammonium and [M(Pc)(CN)2]= dicyano(phthalocyaninato)MIII with M= Co and Fe). Partial oxidation by partial solvent occupation of the cation site”

M.Matsuda, T.Naito, T.Inabe, N.Hanasaki, and H.Tajima

Journal of Material Chemistry, 11, 2493-2497 (2001).

 

[18] “Giant negative magnetoresistance of one-dimensional conductor TPP[Fe(Pc)(CN)2]2

N.Hanasaki, H.Tajima, M.Matsuda, T.Naito, and T.Inabe

Synthetic Metals, 120, 797-798 (2001).

 

[17] “Phase diagrams of (DMe-DCNQI)Li1-xCux system”

T.Yamamoto, N.Hanasaki, J.Yamaura, S.Aonuma, H.Tajima, K.Yakushi, M.Uruichi, and R.Kato

Synthetic Metals, 120, 873-874 (2001).

 

[16] “A one-dimensional macrocyclic p-ligand conductor carrying a magnetic center.

Structure and electrical, optical and magnetic properties of TPP[Fe(Pc)(CN)2]2 {TPP=tetraphenylphosphonium and [Fe(Pc)(CN)2] = dicyano(phthalocyaninato)iron(III)}”

M.Matsuda, T.Naito, T.Inabe, N.Hanasaki, H.Tajima, T.Otsuka, K.Awaga, B.Narymbetov, and H.Kobayashi

Journal of Materials Chemistry, 10, 631-636 (2000).

 

[15] “Giant negative magnetoresistance in quasi-one-dimensional conductor TPP[Fe(Pc)(CN)2]2

: interplay between 3d-local moments and one-dimensional conduction electrons”

N.Hanasaki, H.Tajima, M.Matsuda, T.Naito, and T.Inabe

Physical Review B, 62, 5839-5842 (2000).

 

[14] “Giant negative magnetoresistance in one-dimensional p-d system : TPP[Fe(Pc)(CN)2]2  (TPP=tetraphenylphosphonium , Pc=phthalocyanine)”

N.Hanasaki, H.Tajima, M.Matsuda, T.Naito, and T.Inabe

Molecular Crystals and Liquid Crystals, 343, 41-46 (2000).

 

[13] “Upper critical field of the molecular superconductor b- Et2Me2P[Pd(dmit)2]2

S.Rouziere, N.Hanasaki, R.Kato, and H.Tajima

Solid State Communications, 112, 295-300 (1999).

 

[12] “Reply to “Comment on “Contribution of small closed orbits to magnetoresistance

in quasi-two-dimensional conductors”””

N.Hanasaki, S.Kagoshima, T.Hasegawa, T.Osada, and N.Miura

Physical Review B, 60, 11210-11211 (1999).

 

[11] “Hybrid-dimensional system in M(dmit)2 salts”

N.Hanasaki, H.Tajima, R.Kato, T.Imakubo, and H.Sawa

Synthetic Metals, 103, 2086 (1999).

 

[10] “AMRO study of Fermi surface nesting of (BEDT-TTF)2MHg(SCN)4 , M=K and NH4

N.Hanasaki, S.Kagoshima, N.Miura, and G.Saito

Synthetic Metals, 103, 2087-2088 (1999).

 

[9] “Physical properties of (TMET-STF)2BF4

S.Kyoden, N.Hanasaki, H.Tajima, Y.Okano, and R.Kato

Synthetic Metals, 103, 2089 (1999).

 

[8] “Contribution of small closed orbits to magnetoresistance in quasi-two-dimensional

conductors”

N.Hanasaki, S.Kagoshima, T.Hasegawa, T.Osada, and N.Miura

Physical Review B, 57, 1336-1339 (1998).

 

[7] “A new molecular superconductor b-Et2Me2P[Pd(dmit)2]2

    (dmit =2-thioxo-1,3-dithiole-4,5-dithiolate) ”

R.Kato, Y.Kashimura, S.Aonuma, N.Hanasaki, and H.Tajima

Solid State Communications, 105, 561-565 (1998).

 

[6] “Electronic states of low-dimensional organic conductors (DMeDCNQI)2Cu and a-(BEDT-TTF)2KHg(SCN)4 under pressure”

S.Kagoshima, Y.Saito, N.Hanasaki, T.Hasegawa, T.Osada, H.Sawa, R.Kato, N.Miura, and G.Saito

Review of High Pressure Science Technology, 7, 437-442 (1998).

 

[5] “The pressure approach to the origin of the anomalous state in the quasi-two-dimensional organic conductor a -(BEDT-TTF)2KHg(SCN)4

N.Hanasaki, S.Kagoshima, N.Miura, and G.Saito

Review of High Pressure Science Technology, 7, 520-522 (1998).

 

[4] “Angle dependent magnetoresistance oscillations of a-(BEDT-TTF)2KHg(SCN)4 under high pressure”

N.Hanasaki, S.Kagoshima, N.Miura, and G.Saito

Synthetic Metals, 86(1-3), 2025-2026 (1997).

 

[3] “Pressure effects to the anomalous state of quasi two-dimensional conductor

 a -(BEDT-TTF)2KHg(SCN)4

N.Hanasaki, S.Kagoshima, N.Miura, and G.Saito

Journal of the Physical Society of Japan, 65, 1010-1018 (1996).

 

[2] “The origin of anomalous angular dependent magnetoresistance oscillation effect

in a-(BEDT-TTF)2KHg(SCN)4

Y.Iye, R.Yagi, N.Hanasaki, S.Kagoshima, H.Mori, H.Fujimoto, and G.Saito

Journal of the Physical Society of Japan, 63, 674-684 (1994).

 

[1] “Study of the angular dependent magnetoresistance oscillations in a-(BEDT-TTF)2MHg(SCN)4 [M : K, NH4]”

Y.Iye, R.Yagi, N.Hanasaki, S.Kagoshima, H.Mori, H.Fujimoto, and G.Saito

Physica B, 201, 474-478 (1994).