The fast widening of biosensing applications, such as healthcare, drug delivery, food, and military industries, is increasing the need for generality and compatibility among different sensors. To address this challenge, we present here an innovative approach for the fast development of new electronic biosensing systems, linking a custom-designed front-end with a multi-purpose system. We envision an open tool to help designers to focus on the target molecule and related detection method instead of designing each time a dedicated electronic device. The architecture of the proposed system is based on a modular approach, where only the front-end and the software need to be custom re-designed according to the application. Considering current research and applying a rigorous definition of the technical requirements, the core of the system is designed to fit the highest number of biosensing methods. The flexibility of this approach is successfully demonstrated with three different types of biosensors, i.e., amperometric, ion-sensitive, and memristive.

中文翻译：

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通过模块化的多功能设计标准化生物传感设备开发的新方法。

生物传感应用的快速扩展，例如医疗保健，药物输送，食品和军事工业，正在增加对不同传感器之间通用性和兼容性的需求。为了应对这一挑战，我们在这里提出了一种创新方法，用于快速开发新的电子生物传感系统，将定制设计的前端与多功能系统联系在一起。我们设想了一个开放的工具来帮助设计人员专注于目标分子和相关的检测方法，而不是每次都设计专用的电子设备。所提出系统的体系结构基于模块化方法，其中仅前端和软件需要根据应用进行自定义重新设计。考虑到目前的研究并严格定义了技术要求，该系统的核心旨在适应最大数量的生物传感方法。这种方法的灵活性已成功通过三种不同类型的生物传感器证明，即安培型，离子敏感型和忆阻型。