Susan J Steiner

Title: Innovations of Susan J Steiner

Introduction

Susan J Steiner is a notable inventor based in Trenton, NJ (US). She has made significant contributions to the field of microfabrication and biosensors, holding a total of five patents. Her work focuses on developing efficient methods for analyzing biologically significant analyte species.

Latest Patents

One of her latest patents is titled "System and method of microdispensing and arrays of biolayers provided by same." This invention describes an efficient method for the microfabrication of electronic devices adapted for the analysis of biologically significant analyte species. The techniques allow for close control over the dimensional features of various components and layers established on a suitable substrate. This control extends to the biological components that enable these devices to function as biological sensors. The materials and methods disclosed provide an effective means for the mass production of uniform wholly microfabricated biosensors. Various embodiments of the devices are especially suited for real-time analyses of biological samples in clinical settings. The invention also describes assays that can be performed using certain ligand/ligand receptor-based biosensor embodiments. Additionally, it discloses a novel method for the electrochemical detection of particular analyte species of biological and physiological significance.

Career Highlights

Susan J Steiner is currently associated with i-Stat Corporation, where she continues to innovate in the field of biosensors and microfabrication. Her work has been instrumental in advancing the capabilities of biosensors for clinical applications.

Collaborations

Some of her notable coworkers include Stephen N Cozzette and Graham Davis, who have collaborated with her on various projects.

Conclusion

Susan J Steiner's contributions to the field of microfabrication and biosensors highlight her innovative spirit and dedication to advancing technology. Her patents reflect her commitment to improving the analysis of biologically significant analyte species, making a lasting impact in the field.