Technology Trends of Catalysts in Hydrogenation Reactions: A Patent Landscape Analysis.

The purpose of this review is to present an overview of the patent landscape for catalysts used in hydrogenation reactions. Based on patent data extracted from PatBase®, we use predefined patent classifications as well as a keyword-based search for our analyses. The results indicate that the number of patent families that protect heterogeneous catalysts grows twice as fast as that for their homogeneous counterparts. Furthermore, the data show a shift towards abundant and non-toxic elements in heterogeneous catalysis, while the noble metals continue to dominate the patent landscape of homogeneous catalysis. A subsequent geographical analysis reveals that the high growth rates in heterogeneous catalysis, especially for nickel and iron, are driven by China. Conversely, patenting activities with regard to homogeneous catalysts mainly take place in the USA, the EU, and Japan. The subsequent keyword-based search illustrates the continuous industrial relevance of enantioselective hydrogenation and transfer hydrogenation, as well as the rapidly increasing body of patents in hydrodeoxygenation. Setting these finding into context, we present and apply two concepts that are commonly used in patent analyses, namely the technology life cycle and the S-curve. We conclude that hydrogenation catalysis has not reached its peak economic relevance yet and will continue to spark valuable patents and innovations in the future.

Nonaqueous capillary electrophoresis as separation technique to support metabolism studies by means of electrochemistry and mass spectrometry.

The first combination of electrochemistry (EC), NACE, and ESI-MS to mimic the metabolic fate of drugs is described. While the combination of EC, HPLC, and ESI-MS has been used for this purpose before, NACE is able to deliver valuable additional information about possible metabolites of harmane when compared to HPLC. In this paper, NACE is used as a comprehensive separation technique in metabolism studies of harmane, a naturally occurring monoaminooxidase inhibitor, since it exhibits beneficial properties for the separation of polar compounds. Harmane is known to be metabolized via the oxidative metabolism catalyzed by cytochrome P450 enzymes, which are the most important metabolizing superfamily of enzymes in the human liver. The application of HPLC and NACE enabled the detection of 37 products in total, with 14 different mass-to-charge ratios. A total of 31 products could be detected in HPLC-MS and 26 in NACE-MS analysis. The combination of both NACE and RP-HPLC allows the identification of significantly more potential metabolites than any of the separation techniques alone.