Organic Photodetectors in Analytical Applications

Manna, Eeshita; Xiao, Teng; Shinar, J.; Shinar, Ruth

doi:10.3390/electronics4030688

Cited by 51 publications

(25 citation statements)

References 125 publications

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“…2, b). Следует отметить, что в настоящей работе нет каких-либо дополнитель-ных слоев (например, PEDOT:PSS -poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) [3]) или других проводящих покрытий. Толщина слоя ZnPc : C 70 , изме-ренная с помощью интерферометра Линника, составляет 110 ± 10 nm.…”

Section: эксперимент приготовление образца оптические и диэлектричесunclassified

“…Наглядным примером являются жидкие кристаллы [1] и светоизлучающие органические гетероструктуры [2], а также информаци-онные дисплеи и телевизионные панели на их основе. Наряду с такими системами особое внимание уделяется и структурам для преобразования световой энергии в электрическую [3], которые, в свою очередь, могут ис-пользоваться для различных целей, таких как преобразо-вание солнечной энергии в электрическую [4]; детекти-рование оптических сигналов в различных спектральных диапазонах, включая создание детекторов " слепых" к ви-димому диапазону [5][6][7]; селективное детектирование хи-мических компонент и др. [8].…”

Section: Introductionunclassified

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Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

Палто¹,

Алпатова²,

Гейвандов³

et al. 2018

Журнал Технической Физики

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Section: эксперимент приготовление образца оптические и диэлектричесunclassified

Section: Introductionunclassified

Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

Палто¹,

Алпатова²,

Гейвандов³

et al. 2018

Журнал Технической Физики

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“…Photodetectors which can convert light into electrical signals have been highly influencing our modern society and widely used in various fields such as image sensing, optical communication, biomedical sensing, and environmental monitoring 1–5. To date, mainstream PDs are composed of crystalline inorganic semiconductors due to their excellent charge carrier mobility, highly efficient charge generation, and high stability.…”

Section: Introductionmentioning

confidence: 99%

All‐Polymer High‐Performance Photodetector through Lamination

Xia

Aguirre

et al. 2020

Adv Elect Materials

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All‐polymer and semitransparent organic photodetectors (OPDs) fabricated through lamination on flexible substrates are demonstrated. Through lamination both bilayer and bulk heterojunction (BHJ) configurations for two different all‐polymer blends are easily made, and characterized in terms of detectivity, linear dynamic range (LDR), and bandwidth. These devices show high detectivity up to 1011 Jones. The importance of measured noise rather than estimated shot noise in detectivity calculation is discussed and emphasized. With this high detectivity and with the geometric flexibility due to the polymer materials, these detectors can be attached to curved surfaces for optical detection. Their use at fingertips for heart rate sensing is demonstrated. These devices also have a very wide bandwidth of more than 300 kHz and an LDR of 75 dB. As such the, roll‐to‐roll compatible lamination method shows great potential for high‐performance OPDs fabrication.

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“…Organic light emitting diodes (OLEDs) are increasingly penetrating displays and solid state lighting (SSL) systems due to their high brightness and contrast, flexibility, relative ease of large‐scale manufacturing, and potentially higher efficiency and reduced cost; they are also promising for analytical applications . While efficiency is crucial for SSL, brightness, in particular of violet/deep blue OLEDs, is crucial for analytical applications, where the demand for compact, thin film wearable sensors continues to grow.…”

Section: Introductionmentioning

confidence: 99%

Bright Deep Blue TADF OLEDs: The Role of Triphenylphosphine Oxide in NPB/TPBi:PPh₃O Exciplex Emission

Hippola

Danilovic

Bhattacharjee

et al. 2019

Advanced Optical Materials

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Very bright (≈14 000 cd m−2) deep blue exciplex organic light emitting diodes (OLEDs) peaking at ≈435 nm, where the photopic response is ≈0.033, and with CIE color coordinates (0.1525, 0.0820), are described. The OLED properties are interestingly linked to PPh3O (triphenylphosphine oxide) and attributes of the emitting layer (EML) comprising NPB interfacing host:guest TPBi:PPh3O 5:1 weight ratio. A neat PPh3O layer that is central for device performance follows the EML (NPB/TPBi:PPh3O 5:1/PPh3O). The bright electroluminescence originates from NPB/TPBi:PPh3O exciplexes involving triplets via thermally activated delayed fluorescence, as evident from the strong quenching of the photoluminescence (PL) by oxygen and interestingly, the monomolecular emission process. The transient PL decay times of a NPB/TPBi:PPh3O 5:1/PPh3O film are 43 ns in air versus 136, 610, and weak ≈2000 ns in N2. For comparison, the respective PL decay times of films of NPB:TPBi are 16 ns in air versus 131 and 600 ns in N2, and of NPB:PPh3O they are 29 ns in air versus 56, 483, and weak ≈2000 ns in N2. It is suspected that slow emitting states are associated with a PPh3O aggregate interacting with NPB.

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Organic Photodetectors in Analytical Applications

Cited by 51 publications

References 125 publications

Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

All‐Polymer High‐Performance Photodetector through Lamination

Bright Deep Blue TADF OLEDs: The Role of Triphenylphosphine Oxide in NPB/TPBi:PPh₃O Exciplex Emission

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Organic Photodetectors in Analytical Applications

Cited by 51 publications

References 125 publications

Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

Фурье-Спектроскопия Как Метод Изучения Фотоэлектрических Свойств Органических Систем

All‐Polymer High‐Performance Photodetector through Lamination

Bright Deep Blue TADF OLEDs: The Role of Triphenylphosphine Oxide in NPB/TPBi:PPh3O Exciplex Emission

Contact Info

Product

Resources

About

Bright Deep Blue TADF OLEDs: The Role of Triphenylphosphine Oxide in NPB/TPBi:PPh₃O Exciplex Emission