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Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation

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Last updated 24 março 2025
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Regioselective generation and reactivity control of subnanometric
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
The relative energies and associated volume changes for Si/Ge, Si
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Enhanced performance for propane dehydrogenation through Pt
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Zeolite-confined subnanometric PtSn mimicking mortise-and-tenon
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Germanosilicate confined subnanonetric Pt clusters for efficient
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Direct dehydrogenation of propane over Pd nanoparticles
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
华东师大科研团队成功创制高效丙烷脱氢催化新材料-华东师范大学
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Nanomaterials, Free Full-Text
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Evolution of Cu Species in Zeolites. (A,B) Illustration of the
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Accelerating syngas-to-aromatic conversion via spontaneously
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Germanium-enriched double-four-membered-ring units inducing
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Structural modulation and direct measurement of subnanometric
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
PDF] Highly Productive Propane Dehydrogenation Catalyst Using
Germanium-enriched double-four-membered-ring units inducing zeolite-confined subnanometric Pt clusters for efficient propane dehydrogenation
Propane Dehydrogenation over Pt Clusters Localized at the Sn
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