Detalles del producto
Place of Origin: EZHOU,CHINA
Nombre de la marca: DESHENG
Certificación: ISO9001:2008
Model Number: acridine ester NSP-DMAE-NHS
Condiciones de pago y envío
Minimum Order Quantity: 10g
Precio: Negociable
Packaging Details: Plastic Bottle or Aluminium Film
Delivery Time: 1~3 DAYS AFTER RECEIVING PAYMENT
Payment Terms: T/T,L/C,Western Union,Paypal
Supply Ability: 100kg/month
Appreance: |
Yellow solid or powder |
Purity: |
≥98% |
MW: |
594.13 |
chemical formula: |
C29H26N2O10S |
Name: |
194357-64-7 |
Product Name: |
NSP-DMAE-NHS |
Appreance: |
Yellow solid or powder |
Purity: |
≥98% |
MW: |
594.13 |
chemical formula: |
C29H26N2O10S |
Name: |
194357-64-7 |
Product Name: |
NSP-DMAE-NHS |
The chemiluminescent reagent NSP-DMAE-NHS, as a novel derivative of acridine ester, is widely used in fields such as immunoassay and nucleic acid hybridization due to its excellent luminescent properties and good biological coupling ability. However, as one of the important factors affecting the stability of reagents, fluctuations in environmental temperature may cause changes in molecular structure, thereby affecting the luminescence efficiency and shelf life of reagents. This article will explore the effect of temperature on the stability of NSP-DMAE-NHS, providing reference for the rational storage and application of reagents.
Product Name |
Acridine Ester NSP-DMAE-NHS |
CAS NO |
194357-64-7 |
Molecular Weight |
590.60 |
Molecular formula |
C30H26N2O9S |
Product appearance |
Yellow solid/powder |
Product purity |
≥98%(HPLC) |
Product Advantages |
Good water solubility, stable process, and small inter batch differences |
Storage Conditions |
Avoid light and moisture |
Product packaging |
Brown glass bottle, 10mg/bottle (customizable) |
chemical property |
Chemiluminescence marker |
Application |
Research on Immunoassay, Nucleic Acid and Peptide Detection, etc |
Manufacturer |
Hubei Xindesheng |
1, Low temperature environment: a "protective umbrella" for stability
Low temperature is a commonly used method to maintain the stability of chemical reagents, and it is also applicable to acridine ester NSP-DMAE-NHS. Under refrigeration conditions, the molecular thermal motion is significantly slowed down, effectively inhibiting the hydrolysis reaction of ester bonds in the core structure of acridine esters and the decomposition of NHS active esters. This environment can significantly extend the shelf life of reagents and reduce the decay of luminescence intensity caused by degradation. For example, in long-term storage scenarios, low-temperature environments can increase the activity retention rate of NSP-DMAE-NHS to over 90%, ensuring that it can still meet high-precision detection requirements for several months.
acridine ester NSP-DMAE-NHS powder
2, Room temperature conditions: the balance point between stability and practicality
Room temperature (around 25 ℃) is a common environment for daily laboratory operations, but this temperature poses a certain challenge to the stability of acridine ester NSP-DMAE-NHS. As the temperature increases, molecular thermal motion intensifies, and the risk of ester bond breakage and NHS group hydrolysis increases synchronously. The stability of acridine ester NSP-DMAE-NHS decreases significantly. Therefore, it is not recommended to store the acridine ester NSP-DMAE-NHS at room temperature. When conducting relevant experiments, attention should also be paid to the temperature of the experimental environment. When using the acridine ester NSP-DMAE-NHS reagent, it should be removed from the freezer to reduce the residence time of the acridine ester NSP-DMAE-NHS at room temperature.
3, High temperature challenge: the 'invisible killer' of stability
High temperature (>40 ℃) will completely break the molecular balance of acridine ester NSP-DMAE-NHS, triggering a chain degradation reaction. On the one hand, the hydrolysis rate of ester bonds and NHS groups increases exponentially, leading to rapid loss of active ingredients; On the other hand, the acridine ring structure may undergo ring opening or isomerization due to thermal stress, completely losing its luminescent ability. In addition, high temperatures may also cause the aggregation or precipitation of reagents, further disrupting their uniformity. Therefore, during transportation or storage, it is necessary to strictly avoid high temperature exposure and use insulated packaging and cold chain logistics to ensure the quality of reagents.
4, The comprehensive impact of temperature fluctuations and response strategies
In practical applications, temperature fluctuations are more destructive than single high or low temperatures. Frequent alternation of heat and cold can accelerate the physical and chemical degradation of reagents such as acridine ester NSP-DMAE-NHS, leading to an irreversible decrease in luminescence performance. To address this challenge, it is recommended to adopt the following strategies: firstly, optimize storage conditions and place the reagents in a constant temperature and humidity environment; Secondly, strengthen process monitoring and track temperature changes during transportation and storage through temperature and humidity recorders; Real time feedback on environmental status and reminders to users to take measures.
Product packaging
NSP-DMAE-NHS, as a high-performance chemiluminescence reagent, plays an irreplaceable role in biochemical detection due to its unique chemiluminescence properties and wide range of applications. If you need to purchase chemiluminescence reagent NSP-DMAE-NHS in the near future, look for Hubei Xindesheng Material Technology Co., Ltd!