922986

TpOx-1-Nap

• 別名: 8-(Naphthalen-1-yl)-2,3,6,11,12-pentakis(pentyloxy)triphenyleno[1,2-d]oxazole
• 実験式（ヒル表記法）: C₅₄H₆₇NO₆
• CAS番号: 2377209-30-6
• 分子量: 826.11
• MDL番号: MFCD34622456
• NACRES: NA.23

特性

• バンドギャップ: 2.94 eV, Optical, Solution state
• 品質水準: 100
• 溶解性: soluble (THF > 1 mg /mL, MeCN < 0.24 mg / mL, DCM > 1 mg /mL)
• λmax: 117,000 M^-1cm^-1 at 275 nm in ethyl acetate
• 蛍光検出: λ_em 510 nm, quantum yield 0.48 (pSS = 235 nm, Fluorescence Lifetime (ns) = 6.01)
• 軌道エネルギー: HOMO -5.45 eV (CV); LUMO -2.51 eV (CV)
• 保管温度: −20°C

詳細

詳細

Polymorph crystalline phase: Solid, Discotic Liquid Crystal, Isotropic
Thermal degradation onset = ∼380 °C
Phase transition temperature:

• Heating: Crys - Colh – 86 °C, Colh - Iso – 168 °C
• Cooling: Iso - Colh – 161 °C, Colh - Crys – 43 °C

TpOx-1-Nap is a UV excitable fluorescent material with a polycyclic aromatic donor-acceptor structure where the triphenoxazole core acts as a donor and the aromatic group on the two position of the oxazole (1-naphthalene) act as the acceptor group. The push-pull, donor-acceptor, structure facilitates intramolecular charge transfer in the excited state that results in a 235 nm emission Stokes Shift. This oxazole is also a photo-conducting Discotic Liquid Crystalline (DLC) material with mesophase transition onset temperature of 96 °C. It is designed for 355 nm and 405 nm excitation with emission at 510 nm with quantum yield of 0.48, high thermal, chemical and photostability. This luminescent compound has potential uses in fluorescent dye staining, organic electronic and photonics, and imaging applications.

アプリケーション

Fluorescent materials have a range of unique properties that allows for potential use in a range of applications:

• Fluorescent dye staining

UV fluorescent materials can be used to dope polymer and resin composites, including 3D applications, and further identified using fluorescence emission.

• Organic semiconductor for organic electronic and photonic applications

These organic discotic liquid crystals display columnar hexagonal mesophase, and were incorporated into OPV device as a hole transport layer and donor material. Similar compounds have been used in organic light emitting devices (OLEDs), organic photovoltaic device (OPVs) and organic field-effect transistor (OFETs) as hole transport material.

• Multi-photon microscopy

These UV fluorescent materials have been used in multi-photon microscopy, showing remarkable image resolution relative to commercial fluorophores in the multiphoton microscopy imaging. By perfusing it into an ex-planted human liver, it was possible to observe fluorophore staining of the hepatocytes and T-cells in the liver vasculature. During the live liver imaging these probes have been shown to perfuse effectively in human tissue and emit brightly without significant cytotoxicity during the course of the experiment.

保管および安定性

Store under nitrogen in the dark in the freezer (below 8 Celsius).

安全性情報

• 保管分類コード: 11 - Combustible Solids
• WGK: WGK 3