Kristen Tandy scite author profile

The rapid development of charge transporting and light-emitting organic materials in the last decades has advanced device performance, highlighting the high potential of light-emitting transistors (LETs). Demonstrated for the first time over 15 years ago, LETs have transformed from an optoelectronic curiosity to a serious competitor in the race for cheaper and more efficient displays, also showing promise for injection lasers. Thus, what is an LET, how does it work, and what are the current challenges for its integration into mainstream technologies? Herein, some light is shed on these questions. This work also provides the fundamental working principle of LETs, materials that have been used, and device physics and architectures involved in the progression of LET technology. The state-of-the-art development of LETs is also explored as prospect avenues for the future of research and applications in this area.

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Defining the light emitting area for displays in the unipolar regime of highly efficient light emitting transistors

Ullah

Armin

Tandy

et al. 2015

Sci Rep

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Light-emitting field effect transistors (LEFETs) are an emerging class of multifunctional optoelectronic devices. It combines the light emitting function of an OLED with the switching function of a transistor in a single device architecture. The dual functionality of LEFETs has the potential applications in active matrix displays. However, the key problem of existing LEFETs thus far has been their low EQEs at high brightness, poor ON/OFF and poorly defined light emitting area - a thin emissive zone at the edge of the electrodes. Here we report heterostructure LEFETs based on solution processed unipolar charge transport and an emissive polymer that have an EQE of up to 1% at a brightness of 1350 cd/m2, ON/OFF ratio > 104 and a well-defined light emitting zone suitable for display pixel design. We show that a non-planar hole-injecting electrode combined with a semi-transparent electron-injecting electrode enables to achieve high EQE at high brightness and high ON/OFF ratio. Furthermore, we demonstrate that heterostructure LEFETs have a better frequency response (fcut-off = 2.6 kHz) compared to single layer LEFETs. The results presented here therefore are a major step along the pathway towards the realization of LEFETs for display applications.

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Unlocking the full potential of light emitting field-effect transistors by engineering charge injection layers

Tandy

Ullah

Burn

et al. 2013

Organic Electronics

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Efficient and bright polymer light emitting field effect transistors

Ullah

Tandy

Yambem

et al. 2015

Organic Electronics

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Kristen Tandy

Simultaneous Enhancement of Brightness, Efficiency, and Switching in RGB Organic Light Emitting Transistors

Organic Light‐Emitting Transistors: Advances and Perspectives

Defining the light emitting area for displays in the unipolar regime of highly efficient light emitting transistors

Unlocking the full potential of light emitting field-effect transistors by engineering charge injection layers

Efficient and bright polymer light emitting field effect transistors

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