Heinrich Diesinger

Title: The Innovative Contributions of Heinrich Diesinger

Introduction

Heinrich Diesinger, an inventive mind based in Lesquin, France, has made significant strides in the realm of material science through his innovative patent. With a keen focus on the measurement of surface potentials, his work has opened new avenues for understanding material properties.

Latest Patents

One of Heinrich Diesinger's notable contributions is his patent titled "Measurement of the surface potential of a material." This invention outlines a method where, during a measurement in Kelvin Force Microscopy (KFM) mode, a detection point is strategically arranged above the surface of a material. Utilizing two piezoelectric actuators, Diesinger has devised a technique to monitor the distance of the detection point relative to the surface and its mechanical oscillation. By applying a control voltage between control electrodes of the piezoelectric actuator, the measurement results are ensured to be independent of various operating parameters. This innovation promises absolute measurements of surface potentials, making it invaluable for research in material sciences.

Career Highlights

Throughout his career, Heinrich Diesinger has contributed to prominent research institutions. He has made significant contributions at the Centre National de la Recherche Scientifique (CNRS) and the Université des Sciences et Technologies de Lille, where he honed his expertise in the field. His pioneering work has been recognized and celebrated within the scientific community, primarily for its practical applications and exceptional precision.

Collaborations

In his pursuit of innovation, Heinrich Diesinger has collaborated with esteemed colleagues, including Thierry Melin and Didier Theron. Their shared vision and expertise have enhanced the potential impact of their collective work, leading to advancements in measurement technologies and material understanding.

Conclusion

Heinrich Diesinger's contributions underscore the importance of innovation in scientific research. His work on the measurement of surface potentials demonstrates not only his ingenuity but also the potential for real-world applications in various industries. As he continues to advance the field, the implications of his inventions will likely resonate throughout material science for years to come.