A joint research team creatively proposed a novel spectrum sensing technique for 6g-oriented intelligent IoT communications, seeking a feasible way to provide the underlying support for perceptual interference and intelligent identification between large-scale coexistence and aliasing IoT users in future 6G scenario.

A research team from the Shanghai Advanced Research Institute (SARI) of the Chinese Academy of Sciences reported a facile tactic that enables exceedingly efficient CO2 electroreduction to CO by virtue of low-coordination chloride ion (Cl-) adsorption on a silver hollow fiber (Ag HF) electrode.

The Big Data Science Center (BDSC) at the Shanghai Synchrotron Radiation Facility (SSRF), Shanghai Advanced Research Institute (SARI), Chinese Academy of Sciences, Zhangjiang Laboratory, is the first scientific superfacility in China, and one of the first worldwide. With its state-of-the-art developments it aims to dramatically accelerate and automate the multidisciplinary research of all the users at large national scientific facilities, thus effectively increasing the rate of their scientific discoveries and the resulting technological advancements, with a clear societal impact.

A research team at Shanghai Advanced Research Institute proposed a new approach to fabricating the Gd2O3 structure by vat photopolymerization 3D printing.The research results were published in Ceramics International.

A research team at Shanghai Advanced Research Institute reported a novel photo-curing 3D-printing method to manufacture directly the structured nickel-based electrocatalysts with unique gluten-like cubic structure and strong catalyst-substrate interaction.The research results were published in Nano Energy.

A research team from Shanghai Advanced Research Institute reported on the first demonstration of an external seeding mechanism, termed echo-enabled harmonic cascade (EEHC) for generating coherent and ultrashort soft x-ray pulses.

A research team from the Shanghai Advanced Research Institute (SARI) of the Chinese Academy of Sciences designed a zeolite-encaged Au single-atom catalyst with Au1-O-SiOX motifs, which shows remarkable catalytic activity and selectivity towards propene hydroformylation.

A research group reported a real-time observation of the accelerated solid-liquid-gas etching progress of gold nanorods by introducing gas nanobubbles and revealed the underlying microscopic mechanism dependent on liquid layer thickness.

A research team led by Prof. WEI Wei and CHEN Wei reported a hierarchical micro/nanostructured silver hollow fiber electrode that reduces CO2 to CO with CO2 conversions exceeding 54% at a high space velocity of 31000 mL？gcat-1？h-1 under ambient conditions, maintaining stable large current densities (~1.26 A？cm-2) and high CO faradaic efficiencies (~93%). The results were published in the latest Nature Communications.

a research team led by Prof. SUN Yuhan and Prof. ZHONG Liangshu at Shanghai Advanced Research Institute (SARI) of the Chinese Academy of Sciences reported a ZSM-5 (Z-5) supported PdCu catalyst for selective oxidation of CH4 to oxygenates using O2 in the presence of H2. The as-obtained PdCu/Z-5 catalyst exhibited a high oxygenates yield of 1178 mmol/gPd/h with oxygenates selectivity of 95% at 120 °C. The research results were published in the latest issue of Angew. Chem. Int. Ed.

Direct conversion of methane to chemicals at mild conditions is regarded as the “Holy Grail” reaction in catalysis science, which has attracted numerous research interests from both industrial and academics. Inspired by these challenges, a research team led by Prof. Yuhan Sun and Prof. Liangshu Zhong at Shanghai Advanced Research Institute (SARI) of the Chinese Academy of Sciences reported the direct conversion of methane to acetic acid (CH3COOH) with ultrahigh selectivity in oxygenated products by direct coupling of CH4, CO and H2O2 over ZSM-5 supported Fe binuclear sites under 30 °C. The research results were published in Chem.

Recently, a research group from Shanghai Advanced Research Institute (SARI) of the Chinese Academy of Sciences has fabricated bifunctional catalysts combining versatile zeolites and CoMnAl oxide.These catalysts exhibited high stability and high space-time yield of para-xylene under mild reaction conditions.