28-1320
Silver nitrate
SAJ first grade, ≥99.8%
Synonym(s):
Nitric acid silver(I) salt
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About This Item
Linear Formula:
AgNO3
CAS Number:
Molecular Weight:
169.87
UNSPSC Code:
12352302
PubChem Substance ID:
MDL number:
Product Name
Silver nitrate, SAJ first grade, ≥99.8%
InChI
1S/Ag.NO3/c;2-1(3)4/q+1;-1
SMILES string
[O-][N+]([O-])=O.[Ag+]
InChI key
SQGYOTSLMSWVJD-UHFFFAOYSA-N
grade
SAJ first grade
vapor density
5.8 (vs air)
assay
≥99.8%
form
solid
availability
available only in Japan
mp
212 °C (dec.) (lit.)
storage temp.
15-25°C
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Application
- In Situ Fabrication of Silver Nanoparticle-Decorated Polymeric Vesicles for Antibacterial Applications.: This article discusses the use of silver nitrate in the synthesis of polymeric vesicles decorated with silver nanoparticles, aimed at enhancing antibacterial properties. This approach represents a significant advancement in the development of targeted antibacterial therapies, showcasing the role of silver nitrate in the field of medical materials science (Zhang et al., 2024).
- Impact of Metal Salt Oxidants and Preparation Technology on Efficacy of Bacterial Cellulose/Polypyrrole Flexible Conductive Fiber Membranes.: This study leverages the oxidizing properties of silver nitrate to enhance the conductivity and flexibility of polymeric fiber membranes. The findings contribute to advancements in wearable electronics and sensors, demonstrating the versatility of silver nitrate in engineering applications (Tao et al., 2024).
- Control of the Hydroquinone/Benzoquinone Redox State in High-Mobility Semiconducting Conjugated Coordination Polymers.: This paper presents the use of silver nitrate in controlling redox states in semiconducting polymers, highlighting its crucial role in the development of high-performance electronic materials. The research underscores the application of silver nitrate in enhancing the electrical properties of novel polymeric materials (Huang et al., 2024).
signalword
Danger
Hazard Classifications
Aquatic Acute 1 - Aquatic Chronic 1 - Eye Dam. 1 - Met. Corr. 1 - Ox. Sol. 2 - Repr. 1B - Skin Corr. 1A
Storage Class
5.1B - Oxidizing hazardous materials
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
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Liming Wang et al.
ACS nano, 9(6), 6532-6547 (2015-05-23)
To predict potential medical value or toxicity of nanoparticles (NPs), it is necessary to understand the chemical transformation during intracellular processes of NPs. However, it is a grand challenge to capture a high-resolution image of metallic NPs in a single
Irina Blinova et al.
Environmental science and pollution research international, 20(5), 3456-3463 (2012-11-13)
Although silver nanoparticles (NPs) are increasingly used in various consumer products and produced in industrial scale, information on harmful effects of nanosilver to environmentally relevant organisms is still scarce. This paper studies the adverse effects of silver NPs to two
Tao Xu et al.
Organic letters, 14(21), 5416-5419 (2012-10-24)
A silver-catalyzed intramolecular oxidative aminofluorination of alkynes has been developed by using NFSI as a fluorinating reagent. This reaction represents an efficient method for the synthesis of various 4-fluoroisoquinolines and 4-fluoropyrrolo[α]isoquinolines.
Benjamin P Colman et al.
PloS one, 8(2), e57189-e57189 (2013-03-08)
A large fraction of engineered nanomaterials in consumer and commercial products will reach natural ecosystems. To date, research on the biological impacts of environmental nanomaterial exposures has largely focused on high-concentration exposures in mechanistic lab studies with single strains of
Lara Settimio et al.
Environmental pollution (Barking, Essex : 1987), 191, 151-157 (2014-05-20)
The fate and lability of added soluble Ag in soils over time was examined by measurement of labile metal (E-value) by isotopic dilution using the (110m)Ag radioactive isotope and the solid-phase speciation of Ag by X-ray absorption near edge structure
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