244651
Tin(IV) oxide
−325 mesh, 99.9% trace metals basis
Synonym(s):
Stannic dioxide, Tin dioxide, Stannic oxide
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About This Item
Linear Formula:
SnO2
CAS Number:
Molecular Weight:
150.71
EC Number:
MDL number:
UNSPSC Code:
12352303
PubChem Substance ID:
NACRES:
NA.23
Quality Level
Assay
99.9% trace metals basis
form
powder
greener alternative product characteristics
Design for Energy Efficiency
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particle size
−325 mesh
density
6.95 g/mL at 25 °C (lit.)
application(s)
battery manufacturing
greener alternative category
SMILES string
O=[Sn]=O
InChI
1S/2O.Sn
InChI key
XOLBLPGZBRYERU-UHFFFAOYSA-N
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General description
Tin(IV) oxide (SnO2) is an n-type wide band gap semiconductor with high transmittance at nearIR and visible region. It is scratch resistant and chemically inert.
We are committed to bringing you Greener Alternative Products, which belong to one of the four categories of greener alternatives. Tin oxide enhances lithium-ion batteries with high energy density, improved cycling stability, and efficient charge/discharge rates, supporting more sustainable energy storage. Click here for more information.
Application
Tin(IV) oxide has been used to prepare thin films of TiO2-doped SnO2 oxide nanocomposites.
It can be used as astarting material to prepare niobium and zinc-doped titanium-tin-oxidesolid-solution ceramics, which are applicable in the field of electronicdevices.
It can be used as astarting material to prepare niobium and zinc-doped titanium-tin-oxidesolid-solution ceramics, which are applicable in the field of electronicdevices.
Storage Class Code
11 - Combustible Solids
WGK
nwg
Flash Point(F)
Not applicable
Flash Point(C)
Not applicable
Personal Protective Equipment
dust mask type N95 (US), Eyeshields, Gloves
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Gun-Joo Sun et al.
Nanotechnology, 24(2), 025504-025504 (2012-12-15)
Networked SnO(2) nanowire sensors were achieved using the selective growth of SnO(2) nanowires and their tangling ability, particularly on on-chip V-groove structures, in an effort to overcome the disadvantages imposed on the conventional trench-structured SnO(2) nanowire sensors. The sensing performance
Li-Ping Li et al.
Chemical communications (Cambridge, England), 49(17), 1762-1764 (2013-01-25)
ZnSn(OH)(6) and binary-component SnO(2)-ZnSn(OH)(6) were introduced as affinity probes for phosphopeptide enrichment for the first time. Two strategies, either ZnSn(OH)(6) and SnO(2) serial enrichment or binary-component SnO(2)-ZnSn(OH)(6) enrichment in a single run, were proposed to enhance multi-phosphopeptide enrichment and to
Dawei Su et al.
Chemical communications (Cambridge, England), 49(30), 3131-3133 (2013-03-13)
An in situ hydrothermal synthesis approach has been developed to prepare SnO2@graphene nanocomposites. The nanocomposites exhibited a high reversible sodium storage capacity of above 700 mA h g(-1) and excellent cyclability for Na-ion batteries. In particular, they also demonstrated a
Linlin Li et al.
Nanoscale, 5(1), 134-138 (2012-11-14)
Novel eggroll-like CaSnO(3) nanotubes have been prepared by a single spinneret electrospinning method followed by calcination in air for the first time. The electrospun sample as a lithium-ion battery electrode material exhibited improved cycling stability and rate capability by virtue
Yinzhu Jiang et al.
ACS applied materials & interfaces, 4(11), 6216-6220 (2012-10-31)
Porous SnO₂/graphene composite thin films are prepared as anodes for lithium ion batteries by the electrostatic spray deposition technique. Reticular-structured SnO₂ is formed on both the nickel foam substrate and the surface of graphene sheets according to the scanning electron
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