Daniela Buettner

Title: The Innovative Mind of Daniela Buettner

Introduction

Daniela Buettner, an accomplished inventor based in Aachen, Germany, has made significant strides in the field of advanced ceramic materials. With a total of three patents to her name, her innovative work focuses on enhancing the capabilities of radiation detection in various applications.

Latest Patents

Buettner's latest inventions include a novel ceramic material designed for generating light when exposed to radiation. This unique ceramic material consists of a stack of layers that feature varying compositions and dopings, making it suitable for applications in spectral computed tomography (CT) detectors for x-ray detection. Additionally, this ceramic material can be utilized as a gain medium in lasers, helping to mitigate temperature gradients and associated thermo-mechanical stresses. Another significant patent relates to a scintillator composition defined by the formula (LuGd)(GaAl)O:Ce, which is aimed at sensitive detection of ionizing radiation. This composition finds application in the detection of gamma photons, particularly in the field of Positron Emission Tomography (PET) imaging.

Career Highlights

Buettner works for Koninklijke Philips Corporation N.V., a leading company known for its involvement in healthcare, consumer lifestyle, and lighting products. Her role within the organization has allowed her to contribute to cutting-edge research and innovation in ceramic materials and radiation detection technologies.

Collaborations

Throughout her career, Daniela Buettner has collaborated with esteemed colleagues such as Cornelis Reinder Ronda and Jacobus Gerardus Boerekamp. These collaborations have facilitated shared knowledge and expertise in their respective fields, pushing the boundaries of invention and development of advanced technological materials.

Conclusion

In conclusion, Daniela Buettner stands out as a remarkable inventor with a keen focus on enhancing radiation detection through innovative ceramic materials. Her contributions, underpinned by several patents and career collaborations, continue to shape advancements in medical imaging and laser technology, securing her place as a pioneer in her field.