The Barcelona R&D Center (“the Center”) of Wanhua Chemical (SHA:600309; “the Company”), located at Cornella de Llobregat, has officially opened its doors as a pivotal move by the company to advance its footprint in Europe and beyond with a quicker response to the requirements of downstream customers and bolsters efforts in collaborative scientific research and innovation.
The signing of the Stockholm Convention on Persistent Organic Pollutants (POPs) in 2001 marked a historic moment, as it was the first global treaty aimed at eliminating or restricting chemicals harmful to human and environmental health.
In a new study published in Nature Energy, a research group led by Prof. Xianfeng Li from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS) collaborated with Prof. Qiang Fu’s group from DICP to construct a multi-electron transfer cathode based on bromine and iodine, attaining a specific capacity of more than 840 Ah/L and an energy density of up to 1200 Wh/L based on catholyte in full battery testing.
In a recent paper published in the journal National Science Review, researchers from the University of Science and Technology of China proposed a novel strategy to immobilize and stabilize single-atom Cu sites within a metal-organic framework-based catalyst.
Oak Ridge National Laboratory chemists invented a more efficient way to extract lithium from waste liquids leached from mining sites, oil fields and used batteries. They demonstrated that a common mineral can adsorb at least five times more lithium than can be collected using previously developed adsorbent materials.
This methodology allows for the precise activation of integrated sensors by manipulating the droplets' locations, thus detecting capacitance changes to estimate their positions without the need for visual confirmation.
Modern life relies on plastic. This lightweight, adaptable product is a cornerstone of packaging, medical equipment, the aerospace and automotive industries and more. But plastic waste remains a problem as it degrades in landfills and pollutes oceans.
Devising novel heterojunction photocatalysts applied in annihilating pharmaceuticals and chromium contamination is significant for addressing the problem of global water pollution and it's quite challenging to devise a facile approach to modulate the interfacial chemical bonds of the heterojunction.
New chemistries for batteries, semiconductors and more could be easier to manufacture, thanks to a new approach to making chemically complex materials that researchers at the University of Michigan and Samsung's Advanced Materials Lab have demonstrated.
A new automated workflow developed by scientists at Lawrence Berkeley National Laboratory (Berkeley Lab) has the potential to allow researchers to analyze the products of their reaction experiments in real time, a key capability needed for future automated chemical processes.
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