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Liquid metals have attracted a lot of attention as self‐healing materials in many fields. However, their applications in secondary batteries are challenged by electrode failure and side reactions due to the drastic volume changes during the “liquid‐solid‐liquid” transition. Herein, a simple encapsulated, mass‐producible method is developed to prepare room‐temperature liquid metal‐infilled microcapsules...
The semiconductor industry occupies a crucial position in the fields of integrated circuits, energy, and communication systems. Effective mass (mE), which is closely related to electron transition, thermal excitation, and carrier mobility, is a key performance indicator of semiconductor. However, the highly neglected mE is onerous to measure experimentally, which seriously hinders the evaluation of...
Due to the relatively high capacity and lower cost, transition metal sulfides (TMS) as anode show promising potential in sodium‐ion batteries (SIBs). Herein, a binary metal sulfide hybrid consisting of carbon encapsulated CoS/Cu2S nanocages (CoS/Cu2S@C‐NC) is constructed. The interlocked hetero‐architecture filled with conductive carbon accelerates the Na+/e− transfer, thus leading to improved electrochemical...
Heterogeneity and drug resistance of tumor cells are the leading causes of incurability and poor survival for patients with recurrent breast cancer. In order to accurately deliver the biological anticancer drugs to different subtypes of malignant tumor cells for omnidirectional targeted treatment of recurrent breast cancer, a distinct design is demonstrated by embedding liposome‐based nanocomplexes...
Electrocatalytic alkyne semi‐hydrogenation has attracted ever‐growing attention as a promising alternative to traditional thermocatalytic hydrogenation. However, the correlation between the structure of active sites and electrocatalytic performance still remains elusive. Herein, the energy difference (∆ε) between the d‐band center of metal sites and π orbital of alkynes as a key descriptor for correlating...
The intrinsic sluggish kinetics of the oxygen evolution reaction (OER) limit the improvement of hydrogen evolution reaction (HER) performance, and substituting the anodic oxidation of biomass materials is an alternative approach, given its lower oxidation potential and higher added value compared to those of OER. In this study, a Ni3S2‐MoS2 nanoheterojunction catalyst with strong electronic interactions...