The cyclability of aqueous zinc‐ion batteries is greatly influenced by Zn dendrites and
parasitic reactions. Although separator modifications have proven to be effective in …

Aqueous zinc‐ion battery (AZB) is a promising candidate for next‐generation energy storage
owing to inherent safety and low cost. However, AZBs are currently plagued by Zn dendrite …

Metal anodes with the merits of high theoretical capacity and low electrochemical potential
are promising candidates for the construction of high-energy-density rechargeable …

Since the last century, we have witnessed the development of molecular magnetism which
deals with magnetic materials based on molecular species, ie, organic radicals and metal …

A solid-state zinc-ion battery can fundamentally eliminate dendrite formation and hydrogen
evolution on the zinc anode from aqueous systems. However, enabling fast zinc ion+ …

Secondary batteries using multivalent cations as ionic charge carriers have attracted
increasing attention in recent years due to the high theoretical energy density provided by …

Separation of acetylene (C 2 H 2) from ethylene (C 2 H 4) or carbon dioxide (CO 2) is a vital
and difficult task in petrochemical industry. Owing to the similar physical properties, it is very …

Next-generation batteries based on more sustainable working ions could offer improved
performance, safety, and capacity over lithium-ion batteries while also decreasing the cost …

Next-generation batteries based on sustainable multivalent working ions, such as Mg2+,
Ca2+, or Zn2+, have the potential to improve the performance, safety, and capacity of current …

The discovery of mechanically soft solid‐state materials with fast Mg‐ion conduction is
crucial for the development of solid‐state magnesium batteries. In this paper, novel …