Nickel bis(benzenesulphonate) - 39819-65-3

Nickel bis(benzenesulphonate)

Catalog Number: EVT-350958
CAS Number: 39819-65-3
Molecular Formula: C12H10NiO6S2
Molecular Weight: 373 g/mol
The product is for non-human research only. Not for therapeutic or veterinary use.
Price:

Product Introduction

Description
Nickel bis(benzenesulphonate) is a coordination compound of nickel with two benzenesulphonate ligands. It has gained attention in recent years due to its potential applications in medical, environmental, and industrial research.
Applications in Various Fields
Nickel bis(benzenesulphonate) has potential applications in medical, environmental, and industrial research. In medical research, the compound has been investigated for its role in drug development, particularly as an anticancer and anti-inflammatory agent. Clinical trials and findings are still limited, but the compound shows promise as a potential therapeutic agent.
In environmental research, nickel bis(benzenesulphonate) has been studied for its effects on ecosystems and its role in pollution management. The compound has been shown to have low toxicity to aquatic organisms, making it a potential alternative to other toxic pollutants. However, further research is needed to fully understand its environmental impact and sustainability.
In industrial research, nickel bis(benzenesulphonate) has been used in manufacturing processes to improve product quality and efficiency. Health and safety considerations are important when using the compound in industrial settings, as it may pose a risk to workers and the environment.

Properties

CAS Number

39819-65-3

Product Name

Nickel bis(benzenesulphonate)

IUPAC Name

benzenesulfonate;nickel(2+)

Molecular Formula

C12H10NiO6S2

Molecular Weight

373 g/mol

InChI

InChI=1S/2C6H6O3S.Ni/c2*7-10(8,9)6-4-2-1-3-5-6;/h2*1-5H,(H,7,8,9);/q;;+2/p-2

InChI Key

IBVWKDVFDAWRFU-UHFFFAOYSA-L

SMILES

C1=CC=C(C=C1)S(=O)(=O)[O-].C1=CC=C(C=C1)S(=O)(=O)[O-].[Ni+2]

Canonical SMILES

C1=CC=C(C=C1)S(=O)(=O)[O-].C1=CC=C(C=C1)S(=O)(=O)[O-].[Ni+2]
Method of Synthesis or Extraction
Nickel bis(benzenesulphonate) can be synthesized by various methods, including precipitation, reflux, and solvothermal synthesis. The most commonly used method is precipitation, which involves the reaction of nickel chloride with sodium benzenesulphonate in water. The resulting precipitate is then washed and dried to obtain the final product. Reflux and solvothermal synthesis methods have also been reported, but they require more complex procedures and equipment.
The efficiency and yield of each method depend on various factors, such as the reaction conditions, the purity of the starting materials, and the skill of the operator. In general, precipitation is a simple and efficient method that can yield high-quality products with good purity. However, it may not be suitable for large-scale production due to the low yield and the need for multiple washing and drying steps.
Environmental and safety considerations are also important when synthesizing nickel bis(benzenesulphonate). The reaction should be carried out in a well-ventilated area to avoid exposure to toxic fumes. The starting materials and by-products should be properly disposed of to prevent environmental contamination.
Chemical Structure and Biological Activity
Nickel bis(benzenesulphonate) has a square planar geometry with two benzenesulphonate ligands coordinated to a central nickel ion. The compound has been shown to exhibit various biological activities, including antimicrobial, antitumor, and anti-inflammatory effects.
The mechanism of action and biological targets of nickel bis(benzenesulphonate) are not fully understood. However, it has been suggested that the compound may interact with cellular proteins and enzymes, leading to changes in cell function and signal transduction pathways.
The bioactivity and potency of nickel bis(benzenesulphonate) depend on various factors, such as the concentration, the exposure time, and the type of cells or organisms tested. In general, the compound has shown promising results in vitro and in vivo studies, but further research is needed to fully understand its potential therapeutic and toxic effects.
Biological Effects
Nickel bis(benzenesulphonate) has been shown to affect various cellular processes, including cell proliferation, apoptosis, and inflammation. It has also been reported to modulate signal transduction pathways, such as the MAPK and NF-κB pathways.
The potential therapeutic and toxic effects of nickel bis(benzenesulphonate) are still under investigation. Some studies have suggested that the compound may have anticancer and anti-inflammatory properties, while others have reported cytotoxic and genotoxic effects. Further research is needed to determine the optimal dose and exposure time for different applications.
Future Perspectives and Challenges
Current limitations in the use and study of nickel bis(benzenesulphonate) include the lack of standardized protocols for synthesis and testing, as well as the need for further research to fully understand its biological activity and potential applications. Possible solutions and improvements include the development of more efficient and sustainable synthesis methods, as well as the use of advanced techniques such as molecular modeling and high-throughput screening.
Future trends and prospects in the application of nickel bis(benzenesulphonate) in scientific research include the development of new therapeutic agents and the exploration of its potential in environmental and industrial settings. However, challenges such as regulatory approval and safety concerns must be addressed before the compound can be widely used in these applications.
In conclusion, nickel bis(benzenesulphonate) is a promising compound with potential applications in various fields of research. Its synthesis, chemical structure, biological activity, and applications have been discussed in this paper, as well as its future perspectives and challenges. Further research is needed to fully understand its potential and to overcome the current limitations in its use and study.

Product FAQ

Q1: How Can I Obtain a Quote for a Product I'm Interested In?
  • To receive a quotation, send us an inquiry about the desired product.
  • The quote will cover pack size options, pricing, and availability details.
  • If applicable, estimated lead times for custom synthesis or sourcing will be provided.
  • Quotations are valid for 30 days, unless specified otherwise.
Q2: What Are the Payment Terms for Ordering Products?
  • New customers generally require full prepayment.
  • NET 30 payment terms can be arranged for customers with established credit.
  • Contact our customer service to set up a credit account for NET 30 terms.
  • We accept purchase orders (POs) from universities, research institutions, and government agencies.
Q3: Which Payment Methods Are Accepted?
  • Preferred methods include bank transfers (ACH/wire) and credit cards.
  • Request a proforma invoice for bank transfer details.
  • For credit card payments, ask sales representatives for a secure payment link.
  • Checks aren't accepted as prepayment, but they can be used for post-payment on NET 30 orders.
Q4: How Do I Place and Confirm an Order?
  • Orders are confirmed upon receiving official order requests.
  • Provide full prepayment or submit purchase orders for credit account customers.
  • Send purchase orders to sales@EVITACHEM.com.
  • A confirmation email with estimated shipping date follows processing.
Q5: What's the Shipping and Delivery Process Like?
  • Our standard shipping partner is FedEx (Standard Overnight, 2Day, FedEx International Priority), unless otherwise agreed.
  • You can use your FedEx account; specify this on the purchase order or inform customer service.
  • Customers are responsible for customs duties and taxes on international shipments.
Q6: How Can I Get Assistance During the Ordering Process?
  • Reach out to our customer service representatives at sales@EVITACHEM.com.
  • For ongoing order updates or questions, continue using the same email.
  • Remember, we're here to help! Feel free to contact us for any queries or further assistance.

Quick Inquiry

 Note: Kindly utilize formal channels such as professional, corporate, academic emails, etc., for inquiries. The use of personal email for inquiries is not advised.