Structures by: Yokochi A.

Total: 15

Niobium Oxide Phosphate(V)

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.3898Å   b=6.3898Å   c=4.1055Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V)

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.3957Å   b=6.3957Å   c=4.1056Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V)

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.4038Å   b=6.4038Å   c=4.1175Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V) - Ht

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.4043Å   b=6.4043Å   c=4.1196Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V) - Ht

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.4043Å   b=6.4043Å   c=4.1217Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V) - Ht

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.4038Å   b=6.4038Å   c=4.1249Å

α=90.°   β=90.°   γ=90.°

Niobium Oxide Phosphate(V) - Ht

NbO5P

Amos, T.G.Yokochi, A.Sleight, A.W.

Journal of Solid State Chemistry (1998) 141, 303-307

a=6.4035Å   b=6.4035Å   c=4.1281Å

α=90.°   β=90.°   γ=90.°

Tl2 Nb2 O6.11

Nb2O6.11Tl2

Uma, S.Yokochi, A.Kodialam, S.Khosrovani, N.

Journal of Solid State Chemistry (2000) 155, 225-228

a=10.6712Å   b=10.6712Å   c=10.6712Å

α=90°   β=90°   γ=90°

Tl2 Nb2 O6.636

Nb2O6.636Tl2

Uma, S.Kodialam, S.Yokochi, A.Khosrovani, N.

Journal of Solid State Chemistry (2000) 155, 225-228

a=10.6273Å   b=10.6273Å   c=10.6273Å

α=90°   β=90°   γ=90°

Na0.96 Bi3.04 V2 O10

Bi3.04Na0.96O10V2

Bliesner, R.Sleight, A.W.Uma, S.Yokochi, A.

Chemistry of Materials (1,1989-) (2001) 13, 3825-3826

a=5.538Å   b=7.058Å   c=7.12Å

α=107.66°   β=112.21°   γ=95.65°

C17H34O4

C17H34O4

Marcelino GutiérrezEric H. AndrianasoloWon Kyo ShinDouglas E. GoegerAlexandre YokochiJörg SchemiesManfred JungDennis FranceSusan Cornell-KennonEun LeeWilliam H. Gerwick

Journal of Organic Chemistry (2009) 74, 5267-5275

a=5.524(4)Å   b=8.048(5)Å   c=20.295(12)Å

α=90.00°   β=97.180(14)°   γ=90.00°

Ru2Cl(O2CCH3)3(C7H9N2),3(CH2Cl2)

Ru2Cl(O2CCH3)3(C7H9N2),3(CH2Cl2)

F. A. CottonA. Yokochi

Inorganic Chemistry (1998) 37, 2723-2728

a=11.578(3)Å   b=12.5607(13)Å   c=20.903(3)Å

α=99.927(14)°   β=100.222(9)°   γ=102.075(15)°

Ru2Cl(O2CCH3)2(N2C7H9)2,3(CH2Cl2)

Ru2Cl(O2CCH3)2(N2C7H9)2,3(CH2Cl2)

F. A. CottonA. Yokochi

Inorganic Chemistry (1998) 37, 2723-2728

a=13.091(3)Å   b=19.098(4)Å   c=13.720(3)Å

α=90.00°   β=105.51(3)°   γ=90.00°

Ru2Cl(C7H9N2)3(O2CCH3),C7H10N2,C6H6

Ru2Cl(C7H9N2)3(O2CCH3),C7H10N2,C6H6

F. A. CottonA. Yokochi

Inorganic Chemistry (1998) 37, 2723-2728

a=15.979(2)Å   b=14.9294(14)Å   c=17.131(4)Å

α=90.00°   β=109.211(15)°   γ=90.00°

C46.5H41Cl10FeN8Ru2

C46.5H41Cl10FeN8Ru2

F. A. CottonA. Yokochi

Inorganic Chemistry (1997) 36, 567-570

a=9.660(2)Å   b=16.237(3)Å   c=17.724(4)Å

α=86.34(3)°   β=77.19(3)°   γ=78.34(3)°