Structures by: Maekawa H.

Total: 15

(C102H96O24),3(C6H6),12(C3H7NO),6(CHCl3),42(H2O)

(C102H96O24),3(C6H6),12(C3H7NO),6(CHCl3),42(H2O)

Shimoyama, DaisukeSekiya, RyoMaekawa, HiroyukiKudo, HirotoHAINO, Takeharu

CrystEngComm (2020)

a=20.360(7)Å   b=20.360(7)Å   c=25.461(11)Å

α=90°   β=90°   γ=120°

(C102H96O24),4(C7H14),10(C3H7NO),2(CHCl3),4(H2O)

(C102H96O24),4(C7H14),10(C3H7NO),2(CHCl3),4(H2O)

Shimoyama, DaisukeSekiya, RyoMaekawa, HiroyukiKudo, HirotoHAINO, Takeharu

CrystEngComm (2020)

a=14.996(5)Å   b=15.490(5)Å   c=19.749(6)Å

α=69.675(4)°   β=70.062(4)°   γ=82.109(4)°

(C102H96O24),4(C6H12),10(C3H7NO),2(CHCl3),4(H2O)

(C102H96O24),4(C6H12),10(C3H7NO),2(CHCl3),4(H2O)

Shimoyama, DaisukeSekiya, RyoMaekawa, HiroyukiKudo, HirotoHAINO, Takeharu

CrystEngComm (2020)

a=15.062(3)Å   b=15.485(3)Å   c=19.841(4)Å

α=69.180(2)°   β=69.948(2)°   γ=81.943(2)°

(C102H96O24),3(C7H8),12(C3H7NO),6(CHCl3),12(H2O)

(C102H96O24),3(C7H8),12(C3H7NO),6(CHCl3),12(H2O)

Shimoyama, DaisukeSekiya, RyoMaekawa, HiroyukiKudo, HirotoHAINO, Takeharu

CrystEngComm (2020)

a=20.144(5)Å   b=20.144(5)Å   c=25.290(7)Å

α=90°   β=90°   γ=120°

(C102H96O24),6(C5H12),10(C3H7NO),2(CHCl3),2(H2O)

(C102H96O24),6(C5H12),10(C3H7NO),2(CHCl3),2(H2O)

Shimoyama, DaisukeSekiya, RyoMaekawa, HiroyukiKudo, HirotoHAINO, Takeharu

CrystEngComm (2020)

a=15.207(9)Å   b=15.514(9)Å   c=19.951(12)Å

α=69.268(7)°   β=69.788(8)°   γ=81.759(8)°

C31H42CuN3O4

C31H42CuN3O4

Takaichi, JuneOhkubo, KeiSugimoto, HidekiNakano, MotohiroUsa, DaisukeMaekawa, HiroakiFujieda, NobutakaNishiwaki, NagatoshiSeki, ShuFukuzumi, ShunichiItoh, Shinobu

Dalton transactions (Cambridge, England : 2003) (2013) 42, 7 2438-2444

a=13.6036(4)Å   b=11.5230(4)Å   c=19.6796(6)Å

α=90.0000°   β=106.8925(8)°   γ=90.0000°

C40.50H63ClCuN4O4

C40.50H63ClCuN4O4

Takaichi, JuneOhkubo, KeiSugimoto, HidekiNakano, MotohiroUsa, DaisukeMaekawa, HiroakiFujieda, NobutakaNishiwaki, NagatoshiSeki, ShuFukuzumi, ShunichiItoh, Shinobu

Dalton transactions (Cambridge, England : 2003) (2013) 42, 7 2438-2444

a=40.5296(17)Å   b=9.2215(4)Å   c=24.1373(9)Å

α=90.0000°   β=112.2690(14)°   γ=90.0000°

?

Li3N2H4I

Matsuo, MotoakiSato, ToyotoMiura, YoheiOguchi, HiroyukiZhou, YuMaekawa, HidekiTakamura, HitoshiOrimo, Shin-ichi

Chemistry of Materials (2010) 22, 9 2702

a=7.09109(5)Å   b=7.09109Å   c=11.50958(10)Å

α=90.0°   β=90.0°   γ=120.0°

C12H9F3O3

C12H9F3O3

Zhang, TianyuanShimizu, YuheiFukaya, ShuheiSawa, TomofumiMaekawa, Hirofumi

The Journal of organic chemistry (2019) 84, 18 12165-12171

a=12.4419(3)Å   b=5.90535(12)Å   c=15.1818(11)Å

α=90.0000°   β=100.222(7)°   γ=90.0000°

C41H69N11O12,0.792C4H8O2,0.558H2O

C41H69N11O12,0.792C4H8O2,0.558H2O

Øyvind JacobsenHiroaki MaekawaNien-Hui GeCarl Henrik GörbitzPål RongvedOle Petter OttersenMahmood Amiry-MoghaddamJo Klaveness

Journal of Organic Chemistry (2011) 76, 1228-1238

a=16.239(12)Å   b=18.236(14)Å   c=18.655(14)Å

α=90.00°   β=90.00°   γ=90.00°

C41H69N11O12,1.42C3H8O,0.08H2O

C41H69N11O12,1.42C3H8O,0.08H2O

Øyvind JacobsenHiroaki MaekawaNien-Hui GeCarl Henrik GörbitzPål RongvedOle Petter OttersenMahmood Amiry-MoghaddamJo Klaveness

Journal of Organic Chemistry (2011) 76, 1228-1238

a=36.417(12)Å   b=13.382(5)Å   c=11.873(4)Å

α=90.00°   β=102.360(4)°   γ=90.00°

Magnesioferrite

Al0.79Fe1.21MgO4

Nakatsuka, A.Ueno, H.Nakayama, N.Mizota, T.Maekawa, H.

Physics and Chemistry of Minerals (2004) 31, 278-287

a=8.2796Å   b=8.2796Å   c=8.2796Å

α=90°   β=90°   γ=90°

Magnesioferrite

Al0.47Fe1.52MgO4

Nakatsuka, A.Ueno, H.Nakayama, N.Mizota, T.Maekawa, H.

Physics and Chemistry of Minerals (2004) 31, 278-287

a=8.3252Å   b=8.3252Å   c=8.3252Å

α=90°   β=90°   γ=90°

Magnesioferrite

Al0.22Fe1.77Mg1.01O4

Nakatsuka, A.Ueno, H.Nakayama, N.Mizota, T.Maekawa, H.

Physics and Chemistry of Minerals (2004) 31, 278-287

a=8.3422Å   b=8.3422Å   c=8.3422Å

α=90°   β=90°   γ=90°

Magnesioferrite

Fe2MgO4

Nakatsuka, A.Ueno, H.Nakayama, N.Mizota, T.Maekawa, H.

Physics and Chemistry of Minerals (2004) 31, 278-287

a=8.3600Å   b=8.3600Å   c=8.3600Å

α=90°   β=90°   γ=90°