Structures published

Total: 255

Fe_11.52Lu₈O₅₆Ti_12.48

T.V. Drokina G.A. Petrakovskii M.S. Molokeev A. Arauzo J. Bartolome

Physics Procedia (2014) 75, 0 580-588

a=9.80934(10)Å b=13.50693(14)Å c=7.303017(72)Å

α=90° β=90° γ=90°

Al₂₄Eu_0.12O_38,1.88(Sr)

Bin Ma Qingfeng Guo Maxim S. Molokeev Zhenfei Lv Jun Yao Lefu Mei Zhaohui Huang

Ceramics International (2016) 42, 5 5995-5999

a=5.568411(80)Å b=5.568411(80)Å c=22.00704(32)Å

α=90° β=90° γ=120°

B₃Eu_0.24O₁₅P_3,2.76(Ba)

Lina Zhang Minghao Fang Zhaohui Huang Yangai Liu Xin Min Hao Tang Kai Chen Ming Guan Maxim S. Molokeev

Science of Advanced Materials (2016) 8, 5 1086-1092

a=7.104645(63)Å b=7.104645(63)Å c=6.986941(72)Å

α=90° β=90° γ=120°

Al₂₄Eu_0.16O_38,1.84(Sr)

Bin Ma Qingfeng Guo Maxim S. Molokeev Zhenfei Lv Jun Yao Lefu Mei Zhaohui Huang

Ceramics International (2016) 42, 5 5995-5999

a=5.568011(81)Å b=5.568011(81)Å c=22.00807(31)Å

α=90° β=90° γ=120°

Catena-{tris(mu~2~-1,3-diethyl-2-thiobarbiturato-O,O')}-europium(III)

C₂₄H₃₃EuN₆O₆S₃

N.N. Golovnev M.S. Molokeev S.N. Vereshchagin

Journal of Structural Chemistry (2016) 57, 1 167-174

a=11.0205(2)Å b=11.8811(3)Å c=12.7312(2)Å

α=100.9330(10)° β=109.7040(10)° γ=101.1610(10)°

Bis( 2-1,3-diethyl-2-thiobarbiturato O,O')-bis(1,3-diethyl-2-thiobarbiturato O)- tetra(butan-1-ol)-di-cobalt(II)

C₄₈H₈₄Co₂N₈O₁₂S₄

N.N. Golovnev M.S. Molokeev A.I. Smolentsev M.K. Lesnikov

Russian Journal of Coordination Chemistry (2017) 43, 2 82-85

a=10.7185(5)Å b=21.9851(11)Å c=12.7235(7)Å

α=90° β=92.196(2)° γ=90°

La_1.33Mo₄Na_1.33O₁₆Sr_1.33

Chang Sung Lim Aleksandr S. Aleksandrovsky Maxim S. Molokeev Aleksandr S. Oreshonkov Victor V. Atuchin

Journal of Alloys and Compounds (2017) 713, 0 156-163

a=5.36033(10)Å b=5.36033(10)Å c=11.82739(26)Å

α=90° β=90° γ=90°

B₃₀Nd₅O_60,15(Rb)

V.V. Atuchin A.K. Subanakov A.S. Aleksandrovsky B.G. Bazarov J.G. Bazarova S.G. Dorzhieva T.A. Gavrilova A.S. Krylov M.S. Molokeev A.S. Oreshonkov A.M. Pugachev Yu.L. Tushinova A.P. Yelisseyev

Advanced Powder Technology (2017) 28, 5 1309-1315

a=13.52363(38)Å b=13.52363(38)Å c=31.1617(10)Å

α=90° β=90° γ=120°

Er_0.27La_1.07Mo₄O_16,1.333(NaSr)

Chang Sung Lim Aleksandr S. Aleksandrovsky Maxim S. Molokeev Aleksandr S. Oreshonkov Victor V. Atuchin

Journal of Alloys and Compounds (2017) 713, 0 156-163

a=5.34061(11)Å b=5.34061(11)Å c=11.77693(24)Å

α=90° β=90° γ=90°

Er_0.13La_0.93Mo₄O₁₆Yb_0.27,1.333(NaSr)

Chang Sung Lim Aleksandr S. Aleksandrovsky Maxim S. Molokeev Aleksandr S. Oreshonkov Victor V. Atuchin

Journal of Alloys and Compounds (2017) 713, 0 156-163

a=5.32926(14)Å b=5.32926(14)Å c=11.74788(30)Å

α=90° β=90° γ=90°

Er_0.07La_0.67Mo₄O₁₆Yb_0.60,1.333(NaSr)

Chang Sung Lim Aleksandr S. Aleksandrovsky Maxim S. Molokeev Aleksandr S. Oreshonkov Victor V. Atuchin

Journal of Alloys and Compounds (2017) 713, 0 156-163

a=5.30628(10)Å b=5.30628(10)Å c=11.68195(25)Å

α=90° β=90° γ=90°

[tetrakis(mu~2~-thiobarbiturato-O,O')- bis(thiobarbiturato-O)-hexaaqua-disamarium]

C₁₂H₁₅N₆O₉S₃Sm

N.N. Golovnev M.S. Molokeev I.V. Sterkhova S.N. Vereshchagin I.I. Golovneva

Journal of Structural Chemistry (2017) 58, 3 539-543

a=14.0717(10)Å b=10.0842(6)Å c=15.3230(11)Å

α=90° β=110.408(2)° γ=90°

Catena-bis(mu3-Barbiturato-O,O,O')-(mu2-aqua)-aqua-barium(II)

C₈H₁₀BaN₄O₈

L.A. Solovyov N.N. Golovnev M.S. Molokeev M.K. Lesnikov

Journal of Coordination Chemistry (2017) 70, 12 1984-1993

a=7.5017(3)Å b=9.5304(12)Å c=9.8090(6)Å

α=65.533(5)° β=74.971(4)° γ=83.420(5)°

Bis(pefloxacinium 2-thiobarbiturate) hydrate

C₁₇H₂₁FN₃O_3,C₄H₃N₂O_3,1.281(H₂O)

N.N. Golovnev M.S. Molokeev M.K. Lesnikov I.V. Sterkhova V.V. Atuchin

Journal of Molecular Structure (2017) 1149, 0 367-372

a=10.3252(3)Å b=13.8631(4)Å c=16.9586(3)Å

α=101.2430(10)° β=92.5140(10)° γ=109.4710(10)°

2-thiobarbiturate trihydrate

C₁₇H₂₁FN₃O_3,C₄H₃N₂O₂S_,3(H₂O)

N.N. Golovnev M.S. Molokeev M.K. Lesnikov I.V. Sterkhova V.V. Atuchin

Journal of Molecular Structure (2017) 1149, 0 367-372

a=8.4651(6)Å b=9.3753(6)Å c=15.8077(9)Å

α=89.484(2)° β=88.735(2)° γ=78.147(2)°

Pefloxacinium 2-thiobarbiturate

C₁₇H₂₁FN₃O_3,C₄H₃N₂O₂S

N.N. Golovnev M.S. Molokeev M.K. Lesnikov I.V. Sterkhova V.V. Atuchin

Journal of Molecular Structure (2017) 1149, 0 367-372

a=12.0768(9)Å b=14.7120(11)Å c=12.2222(9)Å

α=90° β=95.109(3)° γ=90°

Catena-(mu~4~-2-Thiobarbiturato-O,O',S,S)- (2-Thiobarbiturato-S)-tris(mu~2~-aqua)-aqua-di-sodium

C₈H₁₄N₄Na₂O₈S₂

N.N. Golovnev M.S. Molokeev I.V. Sterkhova V.V. Atuchin M.Y. Sidorenko

Journal of Coordination Chemistry (2016) 69, 21 3219-3230

a=6.7075(6)Å b=11.0451(10)Å c=20.4865(17)Å

α=90° β=90° γ=90°

Catena-(mu~4~-2-Thiobarbiturato-O,O',S,S)- (mu~2~-2-Thiobarbiturato-S,S)-tris(mu~2~-aqua)-di-sodium

C₈H₁₂N₄Na₂O₇S₂

N.N. Golovnev M.S. Molokeev I.V. Sterkhova V.V. Atuchin M.Y. Sidorenko

Journal of Coordination Chemistry (2016) 69, 21 3219-3230

a=10.4177(10)Å b=10.9492(8)Å c=13.6822(11)Å

α=90° β=110.206(2)° γ=90°

C₁₆H₃₀MnN₄O₈S_2,H₂O

Nicolay N. Golovnev Maxim S. Molokeev Irina V. Sterkhova Maxim K. Lesnikov Victor V. Atuchin

Polyhedron (2017) 134, 0 120-125

a=11.8868(3)Å b=13.8324(3)Å c=29.9847(8)Å

α=90° β=90° γ=90°

C₁₆H₂₆MnN₄O₆S₂

Nicolay N. Golovnev Maxim S. Molokeev Irina V. Sterkhova Maxim K. Lesnikov Victor V. Atuchin

Polyhedron (2017) 134, 0 120-125

a=9.1341(6)Å b=13.5068(9)Å c=16.5730(11)Å

α=90° β=90° γ=90°

Bis(mu~2~-1,3-diethyl-2-thiobarbiturato-O,O')-tetrakis(1,3-diethyl- 2-thiobarbiturato-O)-decaaqua-trimanganese(II)

C₄₈H₈₆Mn₃N₁₂O₂₂S₆

Nicolay N. Golovnev Maxim S. Molokeev Irina V. Sterkhova Maxim K. Lesnikov Victor V. Atuchin

Polyhedron (2017) 134, 0 120-125

a=9.0094(8)Å b=14.0378(11)Å c=14.5823(12)Å

α=109.494(3)° β=92.834(3)° γ=106.941(3)°

Eu₂Mo₃O₁₂

Atuchin, V. V.Aleksandrovsky, A. S.Chimitova, O. D.Gavrilova, T. A.Krylov, A. S.Molokeev, M. S.Oreshonkov, A. S.Bazarov, B. G.Bazarova, J. G.

The Journal of Physical Chemistry C (2014) 118, 28 15404

a=7.55755(12)Å b=11.47093(16)Å c=11.51584(18)Å

α=90° β=109.2777(10)° γ=90°

Eu_0.08O₂₄Sc₄Si_8,3.92(Na)

Xia, Zhiguo Zhang, Yuanyuan Molokeev, Maxim S.Atuchin, Victor V.

The Journal of Physical Chemistry C (2013) 117, 40 20847

a=9.83355(36)Å b=9.07414(34)Å c=5.34456(19)Å

α=90° β=107.0207(20)° γ=90°

2(FeGe₂O₆)_,2(Li_0.50Na_0.50)

T.V. Drokina G.A. Petrakovskii M.S. Molokeev S.V. Misyul V.S. Bondarev D.A. Velikanov M. Frontzek J. Schefer

Journal of Magnetism and Magnetic Materials (2015) 385, 0 243-249

a=10.03328(13)Å b=8.81362(11)Å c=5.529646(90)Å

α=90° β=108.92143(99)° γ=90°

Fe₂Ge₄LiNaO₁₂

T.V. Drokina G.A. Petrakovskii M.S. Molokeev S.V. Misyul V.S. Bondarev D.A. Velikanov M. Frontzek J. Schefer

Journal of Magnetism and Magnetic Materials (2015) 385, 0 243-249

a=9.96920(30)Å b=8.85448(26)Å c=5.47516(18)Å

α=90° β=108.4944(11)° γ=90°

Dy₈Fe_8.58O₅₆Ti_15.42

T.V. Drokina G.A. Petrakovskii M.S. Molokeev D.A. Velikanov O.N. Pletnev O.A. Bayukov

Physics of the Solid State (2013) 55, 10 2037-2042

a=9.84698(14)Å b=13.57512(19)Å c=7.36519(10)Å

α=90° β=90° γ=90°

Eu_0.12Mg_0.70O₂₄Sc_3.30Si_8,0.676(Ca)_,3.204(Na)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.81825(20)Å b=9.04929(19)Å c=5.32748(10)Å

α=90° β=106.7129(12)° γ=90°

Eu_0.12O₂₄Sc₄Si_8,3.88(Na)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.83633(33)Å b=9.06851(30)Å c=5.34709(18)Å

α=90° β=107.0901(17)° γ=90°

Eu_0.20Mg_3.10O₂₄Sc_0.90Si_8,2.944(Ca)_,0.856(Na)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.77208(30)Å b=8.97795(29)Å c=5.27439(17)Å

α=90° β=106.0140(12)° γ=90°

Eu_0.12Mg_1.71O₂₄Sc_2.29Si_8,1.66(Ca)_,2.224(Na)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.79577(20)Å b=9.01952(19)Å c=5.30306(11)Å

α=90° β=106.3587(12)° γ=90°

Eu_0.12Mg_2.44O₂₄Sc_1.56Si_8,2.364(Ca)_,1.516(Na)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.78235(44)Å b=8.99721(41)Å c=5.28777(23)Å

α=90° β=106.1333(14)° γ=90°

Eu_0.12O₂₄Si_8,3.88(Ca)

Z. Xia Yu. Zhang M.S. Molokeev V.V. Atuchin Y. Luo

Scientific Reports (2013) 3, 3310 1-7

a=9.74888(17)Å b=8.95290(16)Å c=5.250985(93)Å

α=90° β=105.86385(91)° γ=90°

Mo₃O₁₂Tb₂

V.V. Atuchin A.S. Aleksandrovsky O.D. Chimitova A.S. Krylov M.S. Molokeev B.G. Bazarov J.G. Bazarova Zhiguo Xia

Optical Materials (2014) 36, 10 1631-1635

a=10.353865(61)Å b=10.384128(64)Å c=10.656947(66)Å

α=90° β=90° γ=90°

F₁₂H₃₂N₁₂O₁₂W₄

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2012) 54, 1 155-165

a=9.1531(1)Å b=9.1531(1)Å c=9.1531(1)Å

α=90.000000° β=90.000000° γ=90.000000°

F₁₈H₄₈N₁₈O₁₈W₆

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2012) 54, 1 155-165

a=6.4537(5)Å b=9.1507(4)Å c=19.2771(7)Å

α=90.092(3)° β=90.509(3)° γ=90.231(5)°

C₃H₆N₂O₅Pb_0.5

N.N. Golovnev A.D. Vasiliev M.S. Molokeev G.V. Novikova M.V. Sergeeva

Vestnik KrasSU (2004) 2, 0 14-19

a=8.5528(7)Å b=18.049(2)Å c=8.8422(7)Å

α=90° β=90° γ=90°

Cs₂DyF₆Rb

S.V. Misjul M.S. Molokeev L.V. Osokina I.N. Saphonov

Journal of Siberian Federal University. Mathematics & Physics (2012) 5, 4 566-575

a=6.8072(8)Å b=6.8012(9)Å c=9.6379(18)Å

α=90.000000° β=90.356(7)° γ=90.000000°

B₄Mn_5.12Ni_6.84O₂₀

L.N. Bezmaternykh E.M. Kolesnikova E.V. Eremin S.N. Sofronova N.V. Volkov M.S. Molokeev

Journal of Magnetism and Magnetic Materials (2014) 364, 0 55-59

a=9.1868(10)Å b=12.3218(13)Å c=3.0010(3)Å

α=90.00° β=90.00° γ=90.00°

B₂Mn₅NiO₁₀

L.N. Bezmaternykh E.M. Kolesnikova E.V. Eremin S.N. Sofronova N.V. Volkov M.S. Molokeev

Journal of Magnetism and Magnetic Materials (2014) 364, 0 55-59

a=9.1790(17)Å b=12.344(2)Å c=3.0010(6)Å

α=90.00° β=90.00° γ=90.00°

C₃H₈FN₄O₂

A.M. Astakhov A.D. Vasiliev M.S. Molokeev L.A. Kruglyakova A.M. Sirotinin R.S. Stepanov

Journal of Structural Chemistry (2004) 45, 3 537-540

a=3.5510(10)Å b=21.834(4)Å c=9.075(2)Å

α=90° β=110.68(3)° γ=90°

C₂H₅N₅O₄

A.D. Vasiliev A.M. Astakhov M.S. Molokeev L.A. Kruglyakova R.S. Stepanov

Journal of Structural Chemistry (2004) 45, 3 532-536

a=11.1160(10)Å b=18.075(2)Å c=6.5590(7)Å

α=90° β=90° γ=90°

CH₃LiN₆O₃

A.D. Vasiliev A.M. Astakhov M.S. Molokeev L.A. Kruglyakova A.M. Sirotinin R.S. Stepanov

Journal of Structural Chemistry (2004) 45, 2 360-364

a=8.3789(5)Å b=10.1872(6)Å c=6.6709(5)Å

α=90° β=106.629(6)° γ=90°

CHN₈O₂

A.M. Astakhov A.D. Vasiliev M.S. Molokeev A.M. Sirotinin L.A. Kruglyakova R.S. Stepanov

Journal of Structural Chemistry (2004) 45, 1 175-180

a=7.2720(10)Å b=8.6430(10)Å c=10.4270(10)Å

α=90° β=93.200(10)° γ=90°

C₂H₆N₆O₃

A.M. Astakhov A.D. Vasilev M.S. Molokeev Yu.V. Kekin L.A. Kruglyakova R.S. Stepanov

Journal of Structural Chemistry (2003) 44, 2 326-329

a=4.4690(2)Å b=15.5660(10)Å c=9.4131(7)Å

α=90° β=94.896(5)° γ=90°

C₄H₅N₅O₃

A.D. Vasiliev A.M. Astakhov V.E. Zadov M.S. Molokeev O.V. Bindarovich L.A. Kruglyakova R.S. Stepanov

Journal of Structural Chemistry (2003) 44, 5 897-901

a=8.2079(7)Å b=13.0960(10)Å c=13.6500(10)Å

α=90° β=100.635(7)° γ=90°

Cs₂DyF₆Rb

S.V. Misjul M.S. Molokeev L.V. Osokina I.N. Saphonov

Journal of Siberian Federal University. Mathematics & Physics (2012) 5, 4 566-575

a=9.659(4)Å b=9.659(4)Å c=9.659(4)Å

α=90° β=90° γ=90°

FeGe₂O₇Sm

T.V. Drokina G.A. Petrakovskii D.A. Velikanov M.S. Molokeev

Physics of the Solid State (2014) 56, 6 1131-1136

a=7.17518(18)Å b=6.60803(16)Å c=12.89119(30)Å

α=90° β=117.1103(14)° γ=90°

2(O₄P)_,3(Sr)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=5.387993(28)Å b=5.387993(28)Å c=19.78604(11)Å

α=90° β=90° γ=120°

Fe_12.22O₅₆Ti_11.78Tm₈

T.V. Drokina G.A. Petrakovskii D.A. Velikanov M.S. Molokeev

Solid State Phenomena (2014) 215, 0 470-473

a=9.819765(95)Å b=13.52645(12)Å c=7.327511(65)Å

α=90° β=90° γ=90°

O₄P_,0.81(Ba)_,0.69(Sr)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=5.54011(24)Å b=5.54011(24)Å c=20.6573(11)Å

α=90° β=90° γ=120°

2(O₄P)_,3(Ba)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=5.60190(32)Å b=5.60190(32)Å c=20.9878(12)Å

α=90° β=90° γ=120°

O₁₂P_3,1.16(Ba)_,3.34(Sr)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=5.46471(11)Å b=5.46471(11)Å c=20.22347(44)Å

α=90° β=90° γ=120°

O₄P_,1.05(Sr)_,0.5(Ca)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=10.66855(20)Å b=10.66855(20)Å c=38.98320(84)Å

α=90° β=90° γ=120°

O₄P_,0.43(Sr)_,Ca

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=10.56198(31)Å b=10.56198(31)Å c=38.0712(13)Å

α=90° β=90° γ=120°

7(O₄P)_,11(Ca)

Haipeng Ji Zhaohui Huang Zhiguo Xia Maxim S. Molokeev Victor V. Atuchin Minghao Fang Yangai Liu

The Journal of Physical Chemistry C (2015) 119, 0 2038-2045

a=10.44140(20)Å b=10.44140(20)Å c=37.42080(83)Å

α=90° β=90° γ=120°

Bi₂Mo₆O_24,4(Cs)_,2(Na)

A.A. Savina V.V. Atuchin S.F. Solodovnikov Z.A. Solodovnikova A.S. Krylov E.A. Maximovskiy M.S. Molokeev A.S. Oreshonkov A.M. Pugachev E.G. Khaikina

Journal of Solid State Chemistry (2015) 225, 0 53-58

a=10.652543(80)Å b=10.652543(80)Å c=40.96937(36)Å

α=90° β=90° γ=120°

Ga₈Ge₁₂O_48,12(Ca)

Chengyin Liu Zhiguo Xia Maxim S. Molokeev Quanlin Liu

Journal of the American Ceramic Society (2015) 98, 6 1870-1876

a=12.25619(10)Å b=12.25619(10)Å c=12.25619(10)Å

α=90° β=90° γ=90°

Er_0.24Gd_6.96O₄₈W₁₂Yb_0.80

Mengyan Yin Yangai Liu Lefu Mei Maxim S. Molokeev Zhaohui Huang Minghao Fang

RSC Advances (2015) 5, 0 73077-73082

a=7.65407(21)Å b=11.41403(28)Å c=11.39088(33)Å

α=90° β=109.7436(19)° γ=90°

BLa₅O₁₃Si₂

Zhiguo Xia Maxim S. Molokeev Won Bin Im Sanjith Unithrattil Quanlin Liu

The Journal of Physical Chemistry C (2015) 119, 17 9488-9495

a=9.55299(24)Å b=9.55299(24)Å c=7.21426(23)Å

α=90° β=90° γ=120°

F₂La_7.22O₂₄Si_6,2.782(Sr)

Qingfeng Guo Libing Liao Maxim S. Molokeev Lefu Mei Haikun Liu

Materials Research Bulletin (2015) 72, 0 245-251

a=9.85486(31)Å b=9.85486(31)Å c=7.30224(25)Å

α=90° β=90° γ=120°

Al₄Mg₂O₁₈Si₅

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.78698(45)Å b=9.78698(45)Å c=9.33739(48)Å

α=90° β=90° γ=120°

Al_8.33Mg₄O₃₆Si_9.67,0.085(K₄)

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.79306(41)Å b=9.79306(41)Å c=9.33885(46)Å

α=90° β=90° γ=120°

La₅NO₁₂Si₃

Zhiguo Xia Maxim S. Molokeev Won Bin Im Sanjith Unithrattil Quanlin Liu

The Journal of Physical Chemistry C (2015) 119, 17 9488-9495

a=9.71207(23)Å b=9.71207(23)Å c=7.18946(20)Å

α=90° β=90° γ=120°

Al_8.51Mg₄O₃₆Si_9.49,0.13(K₄)

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.79423(48)Å b=9.79423(48)Å c=9.34129(51)Å

α=90° β=90° γ=120°

Al_9.02Mg₄O₃₆Si_8.98,0.247(Rb₄)

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.79552(26)Å b=9.79552(26)Å c=9.37418(32)Å

α=90° β=90° γ=120°

Al_8.51Mg₄O₃₆Si_9.49,0.13(Rb₄)

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.79723(44)Å b=9.79723(44)Å c=9.34351(54)Å

α=90° β=90° γ=120°

Al₉Mg₄O₃₆Si_9,Rb

Jun Zhou Zhiguo Xia Mingyue Chen Maxim S. Molokeev Quanlin Liu

Scientific Reports (2015) 5, 0 12149-12153

a=9.79795(40)Å b=9.79795(40)Å c=9.36370(51)Å

α=90° β=90° γ=120°

Er_0.04In_7.96O_16,4(Sr)

Ming Guan Hong Zheng Lefu Mei Maxim S. Molokeev Jing Xie Tao Yang Xiaowen Wu Saifang Huang Zhaohui Huang

Journal of the American Ceramic Society (2015) 98, 4 1182-1187

a=9.83173(14)Å b=3.266226(48)Å c=11.49502(18)Å

α=90° β=90° γ=90°

C₂H₂N₇O₂

A.M. Astakhov A.D. Vasiliev M.S. Molokeev A.M. Sirotinin R.S. Stepanov

Journal of Structural Chemistry (2005) 46, 3 517-522

a=6.541(2)Å b=19.157(4)Å c=10.726(2)Å

α=90° β=96.24(2)° γ=90°

C₉H₁₈ClN₆Ni_0.5O₄S₃

N.N.Golovnev A.D. Vasiliev M.S. Molokeev I.I. Golovneva

Izv.Vyssh.Uchebn.Zaved.,Khim.Khim.Tek.(Russ.)(Bull.Colleg.,Chem.,Chem.Technol.) (2005) 48, 8 134-136

a=7.8691(5)Å b=25.946(2)Å c=8.2833(3)Å

α=90° β=95.394(4)° γ=90°

?

F₅H₁₂N₃O₂Ti

I.N. Flerov M.V. Gorev V.D. Fokina M.S. Molokeev A.D. Vasiliev A.F. Bovina N.M. Laptash

Physics of the Solid State (2006) 48, 8 1559-1567

a=9.23676(18)Å b=9.23676(18)Å c=9.23676(18)Å

α=90.00000° β=90.00000° γ=90.00000°

F₃K₃O₃W

M.S. Molokeev S.V. Misyul V.D. Fokina A.G. Kocharova K.S. Aleksandrov

Physics of the Solid State (2011) 53, 4 834-839

a=8.7355(3)Å b=8.6901(4)Å c=6.1569(3)Å

α=90.000000° β=135.167(3)° γ=90.000000°

F₁₂H₃₂K_4.59N_7.41O₁₂W₄

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2011) 53, 8 1672-1679

a=8.96124(9)Å b=8.96124(9)Å c=8.96124(9)Å

α=90.000000° β=90.000000° γ=90.000000°

F₃K₃O₃W

M.S. Molokeev S.V. Misyul V.D. Fokina A.G. Kocharova K.S. Aleksandrov

Physics of the Solid State (2011) 53, 4 834-839

a=6.1676(1)Å b=6.1676(1)Å c=8.7999(2)Å

α=90.000000° β=90.000000° γ=90.000000°

F₃K₃O₃W

M.S. Molokeev S.V. Misyul V.D. Fokina A.G. Kocharova K.S. Aleksandrov

Physics of the Solid State (2011) 53, 4 834-839

a=8.7958(1)Å b=8.7958(1)Å c=8.7958(1)Å

α=90.000000° β=90.000000° γ=90.000000°

Mn₇O₁₅Pb₃

N.V. Volkov L.A. Solovyov E.V. Eremin K.A. Sablina S.V. Misjul M.S. Molokeev A.I. Zaitsev M.V. Gorev A.F. Bovina N.V. Mihashenok

Physica B: Condensed Matter (2012) 407, 4 689-693

a=13.59385(7)Å b=17.30269(13)Å c=10.03054(7)Å

α=90.000000° β=90.000000° γ=90.000000°

Mn₇O₁₅Pb₃

N.V. Volkov L.A. Solovyov E.V. Eremin K.A. Sablina S.V. Misjul M.S. Molokeev A.I. Zaitsev M.V. Gorev A.F. Bovina N.V. Mihashenok

Physica B: Condensed Matter (2012) 407, 4 689-693

a=10.033674(48)Å b=10.033674(48)Å c=13.62879(10)Å

α=90.000000° β=90.000000° γ=120.000000°

C₁₇H₁₈Cl₄CuFN₃O₄

A.D. Vasilev N.N. Golovnev M.S. Molokeev T.D. Churilov

Journal of Structural Chemistry (2005) 46, 2 363-370

a=13.4910(10)Å b=11.0459(7)Å c=16.2990(10)Å

α=90.00° β=111.392(7)° γ=90.00°

?

D₁₂F₄N₂O₂W

I.N. Flerov V.D. Fokina M.V. Gorev E.V. Bogdanov M.S. Molokeev A.F. Bovina A.G. Kocharova

Physics of the Solid State (2007) 49, 6 1149-1156

a=5.94230(6)Å b=14.42109(12)Å c=7.14028(7)Å

α=90.00000° β=90.00000° γ=90.00000°

?

F₃H₁₂KMoN₃O₃

I.N. Flerov M.V. Gorev V.D. Fokina A.F. Bovina M.S. Molokeev E.I. Pogoreltsev N.M. Laptash

Physics of the Solid State (2007) 49, 1 141-147

a=9.01011(10)Å b=9.01011(10)Å c=9.01011(10)Å

α=90.00000° β=90.00000° γ=90.00000°

?

F₃H₁₂MoN₃O₃

I.N. Flerov V.D. Fokina A.F. Bovina E.V. Bogdanov M.S. Molokeev A.G. Kocharova E.I. Pogoreltsev N.M. Laptash

Physics of the Solid State (2008) 50, 3 515-524

a=9.13210Å b=9.13210Å c=9.13210Å

α=90.00000° β=90.00000° γ=90.00000°

Mo₂NdO₈Rb

V.V. Atuchin O.D. Chimitova T.A. Gavrilova M.S. Molokeev Sung-Jin Kim N.V. Surovtsev B.G. Bazarov

Journal of Crystal Growth (2011) 318, 1 683-686

a=5.1772(1)Å b=18.7293(4)Å c=8.2474(1)Å

α=90.000000° β=90.000000° γ=90.000000°

F₃H₆K_1.28N_1.72O₃W

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2011) 53, 8 1672-1679

a=6.3036(3)Å b=8.9891(3)Å c=6.2976(4)Å

α=90.000000° β=90.000000° γ=90.000000°

?

F₃Sc

K.S. Aleksandrov V.N. Voronov A.N. Vtyurin A.S. Krylov M.S. Molokeev A.S. Oreshonkov S.V. Goryainov A.Yu. Likhacheva A.I. Ancharov

Physics of the Solid State (2011) 53, 3 564-569

a=5.308874(3)Å b=5.308874(3)Å c=14.0704470(4)Å

α=90.00000° β=90.00000° γ=120.00000°

?

F₃Sc

K.S. Aleksandrov V.N. Voronov A.N. Vtyurin A.S. Krylov M.S. Molokeev A.S. Oreshonkov S.V. Goryainov A.Yu. Likhacheva A.I. Ancharov

Physics of the Solid State (2011) 53, 3 564-569

a=5.244449(6)Å b=5.244449(6)Å c=14.1092215(6)Å

α=90.00000° β=90.00000° γ=120.00000°

?

F₃Sc

K.S. Aleksandrov V.N. Voronov A.N. Vtyurin A.S. Krylov M.S. Molokeev A.S. Oreshonkov S.V. Goryainov A.Yu. Likhacheva A.I. Ancharov

Physics of the Solid State (2011) 53, 3 564-569

a=5.078505(9)Å b=5.078505(9)Å c=14.2773514(8)Å

α=90.00000° β=90.00000° γ=120.00000°

?

F₃Sc

K.S. Aleksandrov V.N. Voronov A.N. Vtyurin A.S. Krylov M.S. Molokeev A.S. Oreshonkov S.V. Goryainov A.Yu. Likhacheva A.I. Ancharov

Physics of the Solid State (2011) 53, 3 564-569

a=5.044912(3)Å b=5.044912(3)Å c=14.2605343(3)Å

α=90.00000° β=90.00000° γ=120.00000°

?

F₆InKRb₂

K.S. Aleksandrov S.V. Misyul M.S. Molokeev V.N. Voronov

Physics of the Solid State (2009) 51, 12 2505-2512

a=9.09103(11)Å b=9.09103(11)Å c=9.09103(11)Å

α=90.00000° β=90.00000° γ=90.00000°

F₆InKRb₂

K.S. Aleksandrov S.V. Misyul M.S. Molokeev V.N. Voronov

Physics of the Solid State (2009) 51, 12 2505-2512

a=6.42098(9)Å b=6.42098(9)Å c=9.1006(3)Å

α=90.000000° β=90.000000° γ=90.000000°

F₆InKRb₂

K.S. Aleksandrov S.V. Misyul M.S. Molokeev V.N. Voronov

Physics of the Solid State (2009) 51, 12 2505-2512

a=6.3958(2)Å b=6.4164(2)Å c=9.0637(2)Å

α=90.000000° β=89.886(2)° γ=90.000000°

F₃KMoO₃Rb₂

A.V. Kartashev M.S. Molokeev L.I. Isaenko S.A. Zhurkov V.D. Fokina M.V. Gorev I.N. Flerov

Solid State Sciences (2012) 14, 1 166-170

a=8.9406(8)Å b=8.9406(8)Å c=8.9406(8)Å

α=90.00° β=90.00° γ=90.00°

C₆H₁₅NO₄

M.G. Voronkov E.A. Zelbst A.D. Vasilev M.S. Molokeev G.A. Kuznetsova

Doklady Chemistry (2014) 458, 1 172

a=8.24015(11)Å b=8.24015(11)Å c=6.756612(96)Å

α=90° β=90° γ=120°

Al₆B₆K_1.071O₂₁Rb_4.929

Atuchin, V. V.Bazarov, B. G.Gavrilova, T. A.Grossman, V. G.Molokeev, M. S.Bazarova, Zh. G.

Journal of Alloys and Compounds (2012) 515, 119-122

a=8.6574(2)Å b=8.6574(2)Å c=8.6820(3)Å

α=90.000000° β=90.000000° γ=120.000000°

Al₆B₆K_4.11O₂₁Rb_1.89

Atuchin, V. V.Bazarov, B. G.Gavrilova, T. A.Grossman, V. G.Molokeev, M. S.Bazarova, Zh. G.

Journal of Alloys and Compounds (2012) 515, 119-122

a=8.5859(2)Å b=8.5859(2)Å c=8.5309(3)Å

α=90.000000° β=90.000000° γ=120.000000°

Al₆B₆K_2.73O₂₁Rb_3.27

Atuchin, V. V.Bazarov, B. G.Gavrilova, T. A.Grossman, V. G.Molokeev, M. S.Bazarova, Zh. G.

Journal of Alloys and Compounds (2012) 515, 119-122

a=8.6131(2)Å b=8.6131(2)Å c=8.5870(3)Å

α=90.000000° β=90.000000° γ=120.000000°

Enrofloxacinium tetrabromo-dichloro-tin(IV) monohydrate

C₁₉H₂₆FN₃O_3,Br_3.46Cl_2.54Sn

N.N. Golovnev M.S. Molokeev I.I. Golovneva G.A. Gluschenko

Journal of Structural Chemistry (2013) 54, 2 377

a=17.1262(19)Å b=10.3435(11)Å c=17.2582(19)Å

α=90.00° β=119.2030(10)° γ=90.00°

Potassium 2-thiobarbiturate

C₄H₃KN₂O₂S

N.N. Golovnev M.S. Molokeev M.Yu. Belash

Journal of Structural Chemistry (2013) 54, 3 566

a=11.2317(17)Å b=3.8687(6)Å c=14.557(2)Å

α=90.00° β=97.448(4)° γ=90.00°

F₄NbO_4,2(H₄N)_,0.5(H₈N₂)

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2012) 54, 1 143

a=9.43787(6)Å b=9.43787(6)Å c=9.43787(6)Å

α=90.000000° β=90.000000° γ=90.000000°

F₄NbO_4,2(H₄N)_,0.5(H₈N₂)

M.S. Molokeev S.V. Misyul

Physics of the Solid State (2012) 54, 1 143

a=6.6681(3)Å b=13.2740(5)Å c=9.4797(3)Å

α=90.000000° β=89.146(3)° γ=90.000000°

3(FO)_,MnMo_,Cs

V.V. Atuchin M.S. Molokeev G.Yu. Yurkin T.A. Gavrilova V.G. Kesler N.M. Laptash I.N. Flerov G.S. Patrin

The Journal of Physical Chemistry C (2012) 116, 18 10162

a=10.59141(4)Å b=10.59141(4)Å c=10.59141(4)Å

α=90.000000° β=90.000000° γ=90.000000°