Others
Manufacturer supply top purity Barium molybdate 7787-37-3 with GMP standards
- Molecular Formula: Ba*MoO4
- Molecular Weight: 297.268
- Appearance/Colour: White powder
- Melting Point: 1600 °C
- PSA: 80.26000
- Density: 4.65 g/mL at 25 °C(lit.)
- LogP: -0.47520
Barium molybdate(Cas 7787-37-3) Usage
|
General Description |
Barium molybdate is a chemical compound with the formula BaMoO4, consisting of barium (Ba), molybdenum (Mo), and oxygen (O) atoms. It is a white, odorless solid that is insoluble in water. Barium molybdate is used in a variety of industrial applications, including as a corrosion inhibitor in oil and gas production, as a pigment in ceramics and paints, and as a catalyst in the production of various chemicals. It is also used in the manufacture of electronics, glass, and photographic chemicals. Barium molybdate is considered to be relatively non-toxic, but prolonged exposure to high concentrations should be avoided as it may cause irritation to the respiratory system and skin. |
InChI:InChI=1/Ba.Mo.4O/q+2;;;;2*-1/rBa.MoO4/c;2-1(3,4)5/q+2;-2
7787-37-3 Relevant articles
Report of the Double-Molybdate Phase Cs2Ba(MoO4)2with a Palmierite Structure and Its Thermodynamic Characterization
Colineau, Eric,De Zoete, Nathan,Griveau, Jean-Christophe,Rutten, Maikel,Smith, Anna L.,Van Eijck, Lambert
, p. 13162 - 13173 (2020)
The existence of a novel double-molybdat...
Structural and Thermodynamic Investigation of the Perovskite Ba2NaMoO5.5
Bou?xière, Daniel,Clavier, Nicolas,Epifano, Enrica,Guéneau, Christine,Kauric, Guilhem,Martin, Philippe M.,Smith, Anna L.,Van Eijck, Lambert
, (2020)
Neutron diffraction, X-ray absorption sp...
Synthesis, crystal structure and TEM study of the new hollandite-type Ba~8/7Mo8O16
Barrier,Gougeon,Retoux
, p. 120 - 126 (2001)
Investigation of the Cs-Ba-Mo-O system b...
Structural and electrical properties of double perovskite: (BaSr)FeMoO6
Choudhary, R. N. P.,Das, Rutuparna
, (2021)
In this article, the structural, micro-s...
HEATS OF FORMATION OF SOME SODIUM AND BARIUM VANADATES AND MOLYBDATES.
Kubaschewski,Hoster,Schlim
, p. 367 - 369 (1981)
An isoperibol room-temperature calorimet...
Photoluminescence properties of BaMoO4 amorphous thin films
Marques, Ana Paula Azevedo,De Melo, Dulce M.A.,Longo, Elson,Paskocimas, Carlos A.,Pizani, Paulo S.,Leite, Edson R.
, p. 2346 - 2353 (2005)
BaMoO4 amorphous and crystalline thin fi...
Formation of periodic precipitation patterns: A moving boundary problem
George, Jacob,Varghese, George
, p. 8 - 12 (2002)
A new scenario for the formation of Lies...
Thermal stability of alkali and alkaline-earth substituted LAMOX oxide-ion conductors
Selmi,Galven,Corbel,Lacorre
, p. 93 - 102 (2010)
The high temperature demixing/recombinat...
Novel carbon and sulfur-tolerant anode material FeNi3?PrBa(Fe,Ni)1.9Mo0.1O5+:δ for intermediate temperature solid oxide fuel cells
Xue, Shuangshuang,Shi, Nai,Wan, Yanhong,Xu, Zheqiang,Huan, Daoming,Zhang, Shaowei,Xia, Changrong,Peng, Ranran,Lu, Yalin
, p. 21783 - 21793 (2019)
Suppression of carbon deposition and sul...
New microwave dielectric ceramics BaLn2(MoO4) 4 (Ln = Nd and Sm) with low loss
Zhou, Di,Pang, Li-Xia,Guo, Jing,Wu, Ying,Zhang, Gao-Qun,Dai, Wei,Wang, Hong,Yao, Xi
, p. 2800 - 2803 (2011)
In the present work, a pure monoclinic p...
Order and Disorder: Toward the Thermodynamically Stable α-BaMoO2F4from the Metastable Polymorph
Jo, Hongil,Lee, Min Hyung,Ok, Kang Min
, p. 1875 - 1882 (2021)
A fully ordered noncentrosymmetric bariu...
Synthesis and structural characterization of Ba(Ln 2/3 IIIB1/3VI)O3 (LnIII=Dy, Gd and Sm; BVI=Mo or W) complex perovskites
Fuentes, Antonio F.,Garza-Garcia,Escalante-Garcia,Mendoza-Suarez,Boulahya, Khalid,Amador
, p. 299 - 305 (2003)
We describe in this work the synthesis a...
Erbium-Doped Upconversion Phosphor in the Li2MoO4–BaMoO4–Y2(MoO4)3 System
Batueva, S. Yu.,Kozhevnikova, N. M.
, p. 286 - 291 (2020)
Abstract—: We have investigated subsolid...
Neutron diffraction study of the crystal structure of BaMoO4: A suitable precursor for metallic BaMoO3 perovskite
Nassif, Vivian,Carbonio, Raul E.,Alonso, Jose A.
, p. 266 - 270 (1999)
BaMoO3, metallic and Pauli paramagnetic,...
Magnetic and structural studies of the double perovskites Ba 2REMoO6
McLaughlin
, p. 354 - 357 (2006)
A magnetic, electronic and structural st...
Aqueous mineralization process to synthesize uniform shuttle-like BaMoO4 microcrystals at room temperature
Wu, Xueying,Du, Jin,Li, Haibo,Zhang, Maofeng,Xi, Baojuan,Fan, Hai,Zhu, Yongchun,Qian, Yitai
, p. 3288 - 3295 (2007)
Single-crystalline BaMoO4 microcrystals ...
Solvothermal morphology studies: Alkali and alkaline earth molybdates
Michailovski, Alexej,Krumeich, Frank,Patzke, Greta R.
, p. 1029 - 1047 (2004)
A convenient and systematic solvothermal...
Phase formation, structural and microstructural characterization of novel oxynitride-perovskites synthesized by thermal ammonolysis of (Ca,Ba)MoO4 and (Ca,Ba)MoO3
Logvinovich,Aguirre,Hejtmanek,Aguiar,Ebbinghaus,Reller,Weidenkaff
, p. 2243 - 2249 (2008)
Reactions of AMoO4 and AMoO3 (A=Ca2+, Ba...
Microwave-assisted synthesis of barium molybdate by a citrate complex method and oriented aggregation
Ryu, Jeong Ho,Yoon, Jong-Won,Lim, Chang Sung,Shim, Kwang Bo
, p. 1468 - 1476 (2005)
BaMoO4 powders, which have scheelite typ...
Synthesis, Characterization and Optical Properties of BaMoO4 Synthesized by Microwave Induced Plasma Method
Klinbumrung, Arrak,Phuruangrat, Anukorn,Thongtem, Titipun,Thongtem, Somchai
, p. 725 - 731 (2018)
BaMoO4 crystals were synthesized by a 90...
BaMoO4 powders processed in domestic microwave-hydrothermal: Synthesis, characterization and photoluminescence at room temperature
Cavalcante,Sczancoski,Tranquilin,Joya,Pizani,Varela,Longo
, p. 2674 - 2680 (2008)
In this paper, BaMoO4 powders were prepa...
Catalytic behavior of AMoOx (A = Ba, Sr) in oxidation of 2-propanol
Kubo, Jun,Ueda, Wataru
, p. 906 - 912 (2009)
Perovskite-type oxides, BaMoO3 and SrMoO...
Microwave and infrared dielectric response of temperature stable (1-x) BaMoO 4-x TiO 2 composite ceramics
Guo, Jing,Zhou, Di,Wang, Hong,Chen, Yuehua,Zeng, Yi,Xiang, Feng,Wu, Ying,Yao, Xi
, p. 232 - 237 (2012)
The (1-x)BaMoO4-xTiO2 (x = 0.0, 0.2, 0.3...
Controllable route to barium molybdate crystal and their photoluminescence
Lei,Ye,Ding,Bi,Xiao,Sun,Fan,Yang,Wang
, p. 102 - 105 (2015)
A simple precipitation route has been de...
Simultaneous presence of (Si3O10)8- and (Si2O7)6- groups in new synthetic mixed sorosilicates: BaY4(Si2O7)(Si3O 10) and isotypic compounds, studied by single-crystal X-ray diffraction, Raman spectroscopy and DFT calculations
Wierzbicka-Wieczorek, Maria,Toebbens, Daniel M.,Kolitsch, Uwe,Tillmanns, Ekkehart
, p. 94 - 104 (2013)
Three new, isotypic silicate compounds, ...
Microwave-assisted synthesis of BaMoO4 nanocrystallites by a citrate complex method and their anisotropic aggregation
Ryu, Jeong Ho,Yoon, Jong-Won,Shim, Kwang Bo
, p. 144 - 149 (2006)
BaMoO4 powders, which have scheelite-typ...
Magnetic and magneto-transport properties of (Ba0.8 Sr0.2)2 - x Ndx FeMoO6
Pandey, Vibhav,Verma, Vivek,Aloysius,Bhalla,Kotnala
, p. 869 - 873 (2009)
The variation in structural, magnetic an...
Novel electrochemical technique: Grain control in preparation of polycrystalline BaMoO4 film
Cui, Chunhua,Bi, Jian,Wu, Chunyan,Zhang, Shu,Gao, Daojiang
, p. 1160 - 1163 (2008)
BaMoO4 films have been prepared by a nov...
An investigation of the optical properties and water splitting potential of the coloured metallic perovskites Sr1?xBaxMoO3
Hopper,Le,Cheng,Weller,Marschall,Bloh,Macphee,Folli,Mclaughlin
, p. 87 - 92 (2016)
The solid solution Sr1?xBaxMoO3 (x=0.00,...
Barium molybdate and barium tungstate nanocrystals synthesized by a cyclic microwave irradiation
Phuruangrat, Anukorn,Thongtem, Titipun,Thongtem, Somchai
, p. 955 - 959 (2009)
BaMoO4 and BaWO4 nanocrystals were synth...
Room-temperature preparation of BaMoO4 nano-oetahedra by mieroemulsion method
Mi, Yan,Huang, Zaiyin,Zhou, Zeguang,Hu, Feilong,Meng, Qiufeng
, p. 404 - 405 (2009)
Uniform barium molybdate nano-octahedra ...
Combining second-order Jahn-Teller distorted cations to create highly efficient SHG materials: Synthesis, characterization, and NLO properties of BaTeM2O9 (M = Mo6+ or W6+)
Ra, Hyun-Seup,Ok, Kang Min,Halasyamani, P. Shiv
, p. 7764 - 7765 (2003)
Two new oxides, BaTeMo2O9 and BaTeW2O9, ...
Electrical conductivity and thermal expansion behavior of MMoO4 (M = Ca, Sr and Ba)
Maji, Binoy Kumar,Jena, Hrudananda,Asuvathraman,Kutty, K.V. Govindan
, p. 475 - 479 (2015)
Abstract Alkaline earth (Ca, Sr, Ba) mol...
Single phase melt processed powellite (Ba,Ca)MoO4 for the immobilization of Mo-rich nuclear waste
Brinkman, Kyle,Fox, Kevin,Marra, James,Reppert, Jason,Crum, Jarrod,Tang, Ming
, p. 136 - 142 (2013)
Crystalline and glass composite material...
Influence of the cation size on the framework structures and space group centricities in AMo2O5(SeO3)2 (A = Sr, Pb, and Ba)
Oh, Seung-Jin,Lee, Dong Woo,Ok, Kang Min
, p. 5393 - 5399 (2012)
Two new quaternary mixed-metal selenites...
Metal-Doping of La5.4MoO11.1 Proton Conductors: Impact on the Structure and Electrical Properties
López-Vergara, Adrián,Porras-Vázquez, José M.,V?llestad, Einar,Canales-Vazquez, Jesús,Losilla, Enrique R.,Marrero-López, David
, p. 12811 - 12819 (2018)
La5.4MoO11.1 proton conductors with diff...
Fabrication of AMoO4 (A = Ba, Sr) film on Mo substrate by solution reaction assisted ball-rotation
Rangappa, Dinesh,Fujiwara, Takeshi,Watanabe, Tomoaki,Yoshimura, Masahiro
, p. 3155 - 3163 (2008)
Alkaline earth molybdates, such as BaMoO...
Novel shape evolution of BaMoO4 microcrystals
Gong, Qiang,Qian, Xuefeng,Cao, Hongliang,Du, Weimin,Ma, Xiaodong,Mo, Maosong
, p. 19295 - 19299 (2006)
Dendritic BaMoO4 microcrystals with leng...
Synthesis, characterization and luminescent properties of green phosphor BaMoO4:Tb3+
Zhang, Jianfu,Zhu, Lili,Xie, Jianping,Chen, Yuanpeng,Wang, Zhenling
, p. 2564 - 2566 (2015)
The green phosphor BaMoO4:Tb3+ was prepa...
Well-defined barium molybdate hierarchical architectures with different morphologies: Controllable synthesis, formation process, and luminescence properties
Zhang, Cuimiao,Zhang, Lei,Song, Changying,Jia, Guang,Huo, Shuying,Shen, Shigang
, p. 185 - 191 (2014)
Uniform and well-dispersed barium molybd...
Preparation, characterization and electrical conductivity studies of nanocrystalline la doped BaMoO4
Nallamuthu,Prakash,Satyanarayana,Venkateswarlu
, p. 32 - 41 (2011)
Different compositions of scheelite type...
Structural disorder in AMoO4 (A = Ca, Sr, Ba) scheelite nanocrystals
Rabuffetti, Federico A.,Culver, Sean P.,Suescun, Leopoldo,Brutchey, Richard L.
, p. 1056 - 1061 (2014)
The crystal structure of sub-15 nm AMoO4...
Photoluminescent BaMoO4 nanopowders prepared by complex polymerization method (CPM)
De Azevedo Marques, Ana Paula,De Melo, Dulce M.A.,Paskocimas, Carlos A.,Pizani, Paulo S.,Joya, Miryam R.,Leite, Edson R.,Longo, Elson
, p. 671 - 678 (2006)
The BaMoO4 nanopowders were prepared by ...
Tm3+ doped barium molybdate: A potential long-lasting blue phosphor
Marques, Ana Paula de Azevedo,Künzel, Roseli,Umisedo, Nancy K.,Latini, Renato Mazin,Yoshimura, Elizabeth Mateus,Okuno, Emico
, p. 707 - 717 (2018)
Molybdates have applications in various ...
Microstructure and spectroscopic properties of AMoO4 (A = Ca, Ba) particles synthesized via cyclic microwave-assisted metathetic route
Lim, Chang Sung
, p. 1865 - 1868 (2014)
AMoO4 (A=Ca, Ba) particles have been suc...
Synthesis and Luminescence Properties of a CsBaGd(MoO4)3:Er3+ Phosphor with a Scheelite-Like Structure
Kozhevnikova
, p. 585 - 590 (2018)
A CsBaGd(MoO4)3:Er3+ phosphor with a sch...
Synthesis, structural and magnetic characterisation of the double perovskite A2MnMoO6 (A = Ba, Sr)
Azad,Eriksson,Ivanov,Mathieu,Svedlindh,Eriksen,Rundl?f
, p. 77 - 82 (2004)
A study of the crystallographic structur...
Bimetallic BaMoO4 nanoparticles for the C-S cross-coupling of thiols with haloarenes
Panda, Subhalaxmi,Sahu, Santosh Kumar,Behera, Pradyota Kumar,Panigrahi, Reba,Garnaik, Bamakanta,Rout, Laxmidhar
supporting information, p. 2500 - 2504 (2020/02/20)
We disclosed new bimetallic BaMoO4 nanop...
7787-37-3 Process route
-
-
barium(II) oxide
-
-
7439-98-7
molybdenum
-
-
7787-37-3
barium molybdate
-
-
7440-39-3
barium
Conditions
| Conditions | Yield |
|---|---|
|
|
|
|
In
neat (no solvent);
reduction at a porous Mo film electrode;;
|
|
|
In
neat (no solvent);
reduction at a porous Mo film electrode;;
|
-
-
Iron(III) nitrate nonahydrate
-
-
barium(II) nitrate
-
-
ammonium molybdate tetrahydrate
-
-
7787-37-3
barium molybdate
-
-
Ba2 Fe0.66 Mo1.33 O6
-
-
7439-89-6
iron
Conditions
| Conditions | Yield |
|---|---|
|
With
citric acid;
at 800 ℃;
for 12h;
Temperature;
Inert atmosphere;
|
7787-37-3 Upstream products
-
554-13-2
lithium carbonate
-
7439-98-7
molybdenum
RELATED PRODUCTS
WANT TO
PURCHASE