What is the main application field of IR (PIQ) 3 TRIS [1-PHENYLISOQUINOLINE-C2, N] IRIDIUM (III) (PURIFIED BY SUBLIMATION)

In the field of lighting, due to its unique photoluminescence properties, it can be used to prepare high-efficiency organic Light Emitting Diodes (OLEDs), so that the illumination light source can reach high brightness and high color purity, such as in OLED displays, to help it present colorful images and improve display quality. In terms of chemical sensing, it has a sensitive response to specific substances, and can be used as chemical sensors to identify and detect specific molecules or ions, which can help environmental monitoring and biological analysis, such as the detection of environmental pollutants and specific biomarkers in organisms. In the field of photocatalysis, its photophysical properties can participate in photocatalytic reactions, driving various chemical reactions, such as photocatalytic decomposition of water to produce hydrogen, or organic synthesis reactions, paving the way for new energy development and green chemical synthesis. Due to its excellent properties, this compound has shown important value in many cutting-edge scientific and technological fields, promoting the development of related industries and technological innovation.

What are the specific steps of sublimation and purification of IR (PIQ) 3 TRIS [1-PHENYLISOQUINOLINE-C2, N] IRIDIUM (III) (PURIFIED BY SUBLIMATION)

In order to purify the solid of [Ir (PIQ)
(1-phenylisoquinoline-C ², N) iridium (III), purified by sublimation), the steps are as follows:

The starting material must be pure and have few impurities, which is the key. First take an appropriate amount of crude product containing [Ir (PIQ)
and put it in the sublimation device. The sublimation device needs to be well sealed to ensure that the system is pure and free of foreign interference.

The heating process is extremely important and should be heated slowly. Because [Ir (PIQ)
is sensitive to temperature, rapid heating can easily cause decomposition or sublimation to be too fast, making it difficult to collect. Raise the temperature to the sublimation temperature range of [Ir (PIQ) 🥰] at a steady rate, about a specific temperature range (this specific temperature needs to be accurately determined according to specific experimental conditions and material characteristics).

During the heating process, observe it closely. When the material shows signs of sublimation, the gaseous state [Ir (PIQ) 🥰] is sublimated in the cold place of the device. At this time, the temperature should be controlled to make the sublimation continue to be stable.

When the sublimation is completed, carefully remove the part that collects the sublimated [Ir (PIQ) 🥰]. This pure [Ir (PIQ) 🥰] solid has reached a high purity and can be used for subsequent high-end experiments or applications. Throughout the process, clean environment, precise temperature control and meticulous operation are all key to success.

What are the performance advantages of IR (PIQ) 3 TRIS [1-PHENYLISOQUINOLINE-C2, N] IRIDIUM (III) (PURIFIED BY SUBLIMATION)

This is [ (1-phenylisoquinoline-C2, N) iridium (III) (purified by sublimation) ], which has many advantages.

This substance has excellent luminous properties. In the field of organic electroluminescent devices, it can emit strong and pure color light, resulting in high luminous efficiency and good color purity of the device, making the display screen more vivid and realistic. And its stability is quite strong, it can withstand certain temperature, humidity and environmental changes, and can maintain stable performance under different conditions, so that the life of related devices can be extended, and the reliability and durability of applications are better. Furthermore, its structure is highly modifiable, and chemists can precisely adjust its photophysical and electrochemical properties by changing the substituent or ligand structure to meet the needs of various applications, such as the preparation of different color luminescent materials or specific functional devices. Due to its many excellent properties, it has shown broad application prospects in many fields such as organic Light Emitting Diode display, lighting and optoelectronic devices, and has attracted much attention from scientific research and industry.

What is the price range of IR (PIQ) 3 TRIS [1-PHENYLISOQUINOLINE-C2, N] IRIDIUM (III) (PURIFIED BY SUBLIMATION) in the market?

The question you are asking is about the market price range of "IR (PIQ) 🥰 + TRIS [1-phenylisoquinoline-C 2O, N] iridium (III) (purified by sublimation) ". However, the price of this chemical substance varies for a variety of reasons.

First, it is difficult to prepare. If the preparation requires exquisite craftsmanship and rare raw materials, the price will be high. The method of sublimation and purification, or increasing its cost, also affects the price.

Second, the trend of supply and demand. If there are many people who want it, and there are few products, the price will increase; conversely, if the supply exceeds the demand, the price may decrease.

Third, the difference in quality. Although it has been sublimated and purified, it is produced by different manufacturers, and the quality may be different, resulting in different prices.

As far as I know, this chemical is not a common product, and the market price is rarely easy to find the exact number. Or due to the above reasons, the price fluctuates quite a lot. Or for scientific research, small quantities, or to hundreds of gold per gram; if a large number of industrial use, due to the scale effect, the unit price may be reduced. However, this is all speculation. If you really want to know its price, you should consult a merchant specializing in chemical materials, or check it carefully on the chemical trading platform, and you can get a more accurate price range.

What makes IR (PIQ) 3 TRIS [1-PHENYLISOQUINOLINE-C2, N] IRIDIUM (III) (PURIFIED BY SUBLIMATION) unique compared to other similar products

This substance is tris (1-phenylisoquinoline-C2, N) iridium (III) (purified by sublimation), which has its own unique characteristics compared with other similar products.

First, the method of sublimation and purification makes this substance quite pure. The sublimation process is like filtering out impurities with delicate spells, leaving only pure essence. After this process, the substance has very few impurities. In many high-end application scenarios, such as the manufacture of organic Light Emitting Diode (OLED), the pure quality can ensure the luminous efficiency and stability, and present a gorgeous and long-lasting light effect, just like the bright and stable shining star in the night sky.

Second, its unique molecular structure, tris (1-phenylisoquinoline-C2, N) iridium (III), gives special photophysical properties. 1-Phenylisoquinoline ligands surround the center of iridium to build a delicate electron cloud distribution, making it have unique luminescence characteristics. The emission spectrum is precisely controllable and can emit specific color light. In display technology, colors can be precisely adjusted, just like an artist outlines colorful colors with delicate strokes, achieving high-resolution and wide-gamut display, bringing a realistic visual feast to the viewer.

Third, it performs well in stability. The structure endows it with good thermal and chemical stability. In high temperatures or complex chemical environments, it is like wearing a strong armor and is not easy to decompose or deteriorate. This allows it to perform stably under various harsh working conditions, providing reliable protection for long-term stable operation of equipment, such as lighting equipment, which can emit stable light for a long time and accompany people for a long time.