AI Article Synopsis
- This text discusses the development of a novel nanocatalyst that combines various functions, such as catalysis and microenvironment heating, into a single structure.
- This catalyst enables selective hydrogenation of unsaturated aldehydes/ketones to alcohols at low temperatures (40 °C) and moderate pressure (3 bar), achieving over 98% selectivity, in contrast to traditional methods that require harsher conditions.
- The design improves reaction kinetics through localized increases in temperature and pressure in a nano-sized space, allowing for stable product formation and reduced over-hydrogenation risks.
Article Abstract
Catalysts with designable intelligent nanostructure may potentially drive the changes in chemical reaction techniques. Herein, a multi-function integrating nanocatalyst, Pt-containing magnetic yolk-shell carbonaceous structure, having catalysis function, microenvironment heating, thermal insulation, and elevated pressure into a whole is designed, which induces selective hydrogenation within heating-constrained nanoreactors surrounded by ambient environment. As a demonstration, carbonyl of α, β-unsaturated aldehydes/ketones are selectively hydrogenated to unsaturated alcohols with a >98% selectivity at a nearly complete conversion under mild conditions of 40 °C and 3 bar instead of harsh requirements of 120 °C and 30 bar. It is creatively demonstrated that the locally increased temperature and endogenous pressure (estimated as ≈120 °C, 9.7 bar) in the nano-sized space greatly facilitate the reaction kinetics under an alternating magnetic field. The outward-diffused products to the "cool environment" remain thermodynamically stable, avoiding the over-hydrogenation that often occurs under constantly heated conditions of 120 °C. Regulation of the electronic state of Pt by sulfur doping of carbon allows selective chemical adsorption of the CO group and consequently leads to selective hydrogenation. It is expected that such a multi-function integrated catalyst provides an ideal platform for precisely operating a variety of organic liquid-phase transformations under mild reaction conditions.
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| http://dx.doi.org/10.1002/adma.202302793 | DOI Listing |
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