Malcolm H Higton

Title: The Innovations of Malcolm H Higton

Introduction

Malcolm H Higton is a notable inventor based in Poole, GB. He has made significant contributions to the field of electroluminescent technology, holding a total of 3 patents. His work focuses on enhancing the performance and efficiency of electroluminescent displays.

Latest Patents

One of Higton's latest patents is for high contrast electroluminescent displays. This invention features a d.c. or a.c. electroluminescent panel that includes a transparent substrate, a transparent first electrode film, a thin film phosphor layer, a black or dark powder back layer of electrically conductive material, and a second electrode film. The application of voltage across the phosphor layer causes it to emit light, and the black powder back-layer significantly enhances the contrast of the panel.

Another notable patent concerns electroluminescent devices without particle conductive coating. This invention involves an electroluminescent panel suitable for unidirectional and alternating voltage orders. It consists of a transparent glass substrate, a thin transparent front electrode film made of indium-tin-oxide, and a first thin layer of phosphor in the form of powder particles. The surface of these particles is free of any metallic coating, and it includes an electrically conducting dark powder layer that serves as a control layer.

Career Highlights

Higton is associated with Phosphor Products Company Limited, where he continues to innovate in the field of electroluminescent technology. His work has contributed to advancements in display technology, making it more efficient and effective.

Collaborations

Some of his notable coworkers include Aron Vecht and Norman J Werring. Their collaboration has likely played a role in the development of Higton's innovative patents.

Conclusion

Malcolm H Higton's contributions to electroluminescent technology demonstrate his commitment to innovation and improvement in display systems. His patents reflect a deep understanding of the materials and processes involved in creating high-quality electroluminescent displays.