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一般說明
该WO3-x 纳米粒子墨水可用于狭缝染料,旋转涂布和刮刀涂布,从而用作印刷电子器件中的空穴传输层。氧化钨纳米颗粒墨水是基于氧化钨(WO3)纳米颗粒在异丙醇中的胶体悬浮液的一种孔选择性界面层墨水。WO3颗粒的平均大小已优化为12-16nm左右。氧化钨纳米颗粒在亲水性和疏水性基体上具有较高的加工性能和易成层性。WO3-x 纳米粒子墨水普遍适用于普通和倒置结构的太阳能电池。
退火温度<100°C。
退火温度<100°C。
應用
WO3 纳米粒子墨水可以作为空穴提取层(HEL)材料应用于OPV电池中。氧化钨纳米粒子墨水可与PEDOT:PSS配方混合,以微调电子和形态干层特性(例如导电性、表面粗糙度或层孔隙率)。
其他說明
使用前:超声波和(可选)通过0.45 μm PTFE过滤器过滤
工作条件:在氮气(或低湿度)下使用和薄膜干燥
后处理:在80°C-120°C下对沉积的WO3-x 薄膜进行退火
工作条件:在氮气(或低湿度)下使用和薄膜干燥
后处理:在80°C-120°C下对沉积的WO3-x 薄膜进行退火
法律資訊
Avantama Ltd.的产品。
訊號詞
Danger
危險聲明
危險分類
Eye Irrit. 2 - Flam. Liq. 2 - STOT SE 3
標靶器官
Central nervous system
儲存類別代碼
3 - Flammable liquids
水污染物質分類(WGK)
WGK 1
閃點(°F)
53.6 °F - closed cup
閃點(°C)
12 °C - closed cup
其他客户在看
High Fill Factor Polymer Solar Cells Incorporating a Low Temperature Solution Processed WO3 Hole Extraction Layer
Advanced Energy Materials, 2, 1433-1438 (2012)
Inverted structure organic photovoltaic devices employing a low temperature solution processed WO3 anode buffer layer
Organic Electronics, 13(11), 2479-2484 (2012)
A universal method to form the equivalent ohmic contact for efficient solution-processed organic tandem solar cells
Journal of Material Chemistry A, 2, 14896?14902-14896?14902 (2014)
Scientific reports, 9(1), 8778-8778 (2019-06-21)
This paper presents perovskite solar cells employed with WO3 nanoparticles embedded carbon top electrode. WO3 nanoparticles works as an inorganic hole-transport material (HTM) to promote the hole-extraction in the perovskite/carbon interface as revealed by efficiency, electrochemical impedance and external quantum
Interface Design to Improve the Performance and Stability of Solution-Processed Small-Molecule Conventional Solar Cells
Advanced Energy Materials (2014)
商品
Find advantages of inorganic interface layer inks for organic electronic & other applications.
Professor Tokito and Professor Takeda share their new materials, device architecture design principles, and performance optimization protocols for printed and solution-processed, low-cost, highly flexible, organic electronic devices.
Recent progress in the area of solution-processed functional materials has led to the development of a variety of thin-film optoelectronic devices with significant promise in the industrial and consumer electronics fields.
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