Tactile and temperature sensors are the key components for e-skin fabrication. Organic transistors, a kind of intrinsic logic devices with diverse internal configurations, offer a wide range of options for sensor design and have played a vital role in the fabrication of e-skin-oriented tactile and temperature sensors. This research field has attained tremendous advancements, both in terms of materials design and device architecture, thereby leading to excellent performance of resulting tactile/temperature sensors. Herein, a systematic review of organic transistor-based tactile and temperature sensors is presented to summarize the latest progress in these devices. Particularly, we focus on spotlighting various device structures, underlying mechanisms and their performance. Lastly, an outlook for the future development of these devices is briefly discussed. We anticipate that this review will provide a quick overview of such a rapidly emerging research direction and attract more dedicated efforts for the development of next-generation sensing devices towards e-skin fabrication.

触觉和温度传感器是电子皮肤制造的关键组件。有机晶体管是一种具有多种内部配置的内在逻辑器件，为传感器设计提供了广泛的选择，并且在面向电子皮肤的触觉和温度传感器的制造中发挥了至关重要的作用。该研究领域在材料设计和设备架构方面均取得了巨大的进步，从而导致了触觉/温度传感器的出色性能。在此，对基于有机晶体管的触觉和温度传感器进行了系统综述，以总结这些器件的最新进展。特别是，我们专注于重点介绍各种设备结构，底层机制及其性能。最后，简要讨论了这些设备的未来发展前景。我们预计，这次审查将提供对这种迅速兴起的研究方向的快速概述，并将吸引更多的精力致力于开发下一代传感设备，以进行电子皮肤制造。