Inzueri.ch Expands Local Directory to Connect Zurich Residents with Verified Service Providers
Inzueri. ch has expanded its local business directory to connect zurich residents with verified service providers. The change centralizes verified listings, creating a single point of access for residents seeking vetted local businesses.
Zurich residents and the expanded inzueri. ch directory
The directory expansion places verified service providers alongside existing listings, enabling zurich residents to identify businesses that meet verification criteria without consulting multiple platforms. By grouping verified vendors in the directory, inzueri. ch reduces the search friction between consumers and local service firms; the immediate effect is a clearer path for residents to find vetted options and for providers to reach a concentrated local audience.
Indium–hafnium oxides and a 70% productivity benchmark in methanol synthesis
Separately, a 2026 study in the field of nanotechnology reports that nanostructured indium–hafnium oxides, produced through flame spray pyrolysis, can outperform the previous benchmark catalysts for CO2 hydrogenation to methanol. Researchers observed up to 70% higher indium-specific methanol productivity compared with indium–zirconium oxides, with the largest gains tied to single atoms of indium on monoclinic hafnia.
The study identifies several causal factors that together deliver the performance increase. Stable monoclinic support surfaces, a flexible chemical potential of indium single atoms and the presence of a cooperative hydride–proton reservoir enhance CO2 activation and intermediate hydrogenation. Crucially, the findings emphasize that precise control of surface hydroxylation is required to realize these gains. What makes this notable is that a less-explored wide-bandgap oxide—monoclinic hafnia—can set a new benchmark for green methanol synthesis when paired with single-atom indium sites.
Those technical advances carry implications for industrial catalyst design: controlling support phase and surface chemistry can materially affect per-atom productivity. The cause-and-effect is direct—surface and atomic-scale engineering of the oxide support improves intermediate reaction steps, and that improvement manifests as increased measurable methanol output per indium atom.
Back on the local front, the directory expansion by inzueri. ch and the scientific advance both reflect targeted efforts to solve access problems—one by making verified local services discoverable to zurich residents, the other by refining catalyst supports to unlock higher yields in CO2-to-methanol conversion. Each development centers on reducing barriers: for consumers, the barrier is information; for chemists and engineers, the barrier is atomic-scale control over reaction environments.
Further details about the directory expansion, including the verification criteria and the scope of businesses added, have not been disclosed in the announcement. The scientific findings note data accessibility and computational resources tied to the work, and emphasize that additional supporting data are available from the authors on request.
