Furo[3,4-b]furo[3',4':5,6]pyrazino[2,3-f]furo[3',4':5,6]pyrazino[2,3-h]quinoxaline-1,3,6,8,11,13-hexaone

95%

Reagent Code: #122470
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CAS Number 105618-29-9

science Other reagents with same CAS 105618-29-9

blur_circular Chemical Specifications

scatter_plot Molecular Information
Weight 444.23 g/mol
Formula C₁₈N₆O₉
thermostat Physical Properties
Melting Point >350 °C
Boiling Point 979.2±60.0 °C(Predicted)
inventory_2 Storage & Handling
Density 2.331±0.06 g/cm3(Predicted)
Storage 2-8°C, inert gas

description Product Description

This compound is primarily utilized in the field of organic electronics due to its unique conjugated structure, which allows for efficient electron transport. It is often incorporated into organic semiconductors for use in devices such as organic light-emitting diodes (OLEDs) and organic photovoltaic cells (OPVs). Its high stability and ability to form thin films make it suitable for creating flexible and lightweight electronic components. Additionally, it is explored in the development of sensors and optoelectronic devices, where its optical and electrical properties can be harnessed for improved performance. Research is also ongoing to investigate its potential in advanced materials for energy storage and conversion applications.

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Size Availability Unit Price Quantity
inventory 100mg
10-20 days ฿46,071.00
inventory 50mg
10-20 days ฿28,800.00

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Furo[3,4-b]furo[3',4':5,6]pyrazino[2,3-f]furo[3',4':5,6]pyrazino[2,3-h]quinoxaline-1,3,6,8,11,13-hexaone
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This compound is primarily utilized in the field of organic electronics due to its unique conjugated structure, which allows for efficient electron transport. It is often incorporated into organic semiconductors for use in devices such as organic light-emitting diodes (OLEDs) and organic photovoltaic cells (OPVs). Its high stability and ability to form thin films make it suitable for creating flexible and lightweight electronic components. Additionally, it is explored in the development of sensors and op

This compound is primarily utilized in the field of organic electronics due to its unique conjugated structure, which allows for efficient electron transport. It is often incorporated into organic semiconductors for use in devices such as organic light-emitting diodes (OLEDs) and organic photovoltaic cells (OPVs). Its high stability and ability to form thin films make it suitable for creating flexible and lightweight electronic components. Additionally, it is explored in the development of sensors and optoelectronic devices, where its optical and electrical properties can be harnessed for improved performance. Research is also ongoing to investigate its potential in advanced materials for energy storage and conversion applications.

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