Juliane Meese-Marktscheffel

USPTO Granted Patents = 28 (Patent Applications = 11)

CIPO Patents = 6 (Patent Applications = 4)

EPO Patents = 11 (Patent Applications = 25)

Average Co-Inventor Count = 5.6

ph-index = 4

Forward Citations = 66(Granted Patents)

Company Filing History:

H. C. Starck, Gmbh & Co Kg

patents

1 out of 3

H. C. Starck Gmbh & Co

H.c. Starck Tungsten Gmbh

patents

7. 1 out of 721

Bayer Intellectual Property Gmbh

patents

Years Active: 2000-2024

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28 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 11919783 - Beta-nickel hydroxide doped with aluminum (2024-03-05),

2. 11478848 - Powder comprising coated hard material particles (2022-10-25),

3. 9352977 - Powered compounds, method for the production thereof, and use thereof in lithium secondary batteries (2016-05-31),

4. 9118082 - Oxygen-consuming electrode and process for the production thereof (2015-08-25),

5. 9028710 - [object Object] (2015-05-12),

6. 8795509 - Process for producing pure ammonium perrhenate (2014-08-05),

7. 8545794 - [object Object] (2013-10-01),

8. 8454931 - Tungstic acid powder consisting of spherical tungsten particles and method for producing same (2013-06-04),

9. 8440161 - Ammonium paratungstate hydrates and ammonium paratungstate decahydrate (2013-05-14),

10. 8431107 - Method for producing ammonium heptamolybdate (2013-04-30),

11. 8226923 - Method for production of ammonium paratungstate tetrahydrate and highly pure ammonium paratungstate tetrahydrate (2012-07-24),

12. 8216533 - Method for producing ammonium paratungstate hydrates and ammonium paratungstate decahydrate (2012-07-10),

13. 8168155 - Method for production of ammonium paratungstate tetrahydrate and highly pure ammonium paratungstate tetrahydrate (2012-05-01),

14. 8052956 - Tungstic acid powder consisting of spherical tungsten particles and method for producing same (2011-11-08),

15. 7799184 - Process for the electrochemical decomposition of powders and electrolysis cells suitable therefor (2010-09-21),

Title: The Innovative Work of Juliane Meese-Marktscheffel

Introduction

Juliane Meese-Marktscheffel, based in Goslar, Germany, is a prolific inventor known for her significant contributions to material science. With a remarkable portfolio of 28 patents, she has demonstrated a commitment to advancing technology in various fields, particularly in the development of materials suitable for energy storage and catalysis.

Latest Patents

Among her latest innovations are two noteworthy patents. The first, titled "Beta-nickel hydroxide doped with aluminum," describes a process for producing β-nickel hydroxide with aluminum ions uniformly integrated into its crystal structure. This invention targets applications in lithium-ion and nickel-metal hydride batteries, in addition to serving as a precursor for Raney nickel catalysts. The second patent, "Powder comprising coated hard material particles," outlines a method for creating hard materials coated with a cobalt hydroxide compound, alongside the associated powder compositions and their uses.

Career Highlights

Juliane has worked at H.C. Starck GmbH and H.C. Starck GmbH & Co. KG, where her expertise in material development played a crucial role in the company’s innovations. Her work has not only contributed to the advancement of material science but has also impacted industries reliant on high-performance materials.

Collaborations

Throughout her career, Juliane has collaborated with notable professionals in the field, including Armin Olbrich and Viktor Stoller. These collaborations have allowed for the sharing of ideas and expertise, fostering an innovative environment that promotes cutting-edge research.

Conclusion

Juliane Meese-Marktscheffel's impressive body of work has positioned her as a key figure in the realm of material innovation. Her patents represent significant advancements that have the potential to influence multiple industries, particularly in energy solutions and catalysis. As she continues her work, the impact of her inventions is expected to grow, paving the way for further technological breakthroughs.

This text is generated by artificial intelligence and may not be accurate.