Phase-Controlled Synthesis of Nickel-Iron Nitride Nanocrystals Armored with Amorphous N-Doped Carbon Nanoparticles Nanocubes for Enhanced Overall Water Splitting.

Transition metal nitrides (TMNs) nanostructures possess distinctive electronic, optical, and catalytic properties, showing great promise to apply in clean energy, optoelectronics, and catalysis fields. Nonetheless, phase-regulation of NiFe-bimetallic nitrides nanocrystals or nanohybrid architectures confronts challenges and their electrocatalytic overall water splitting (OWS) performances are underexplored. Herein, novel pure-phase Ni2+ x Fe2- x N nanocrystals armored with amorphous N-doped carbon (NC) nanoparticles nanocubes (NPNCs) are obtained by controllable nitridation of NiFe-Prussian-blue analogues derived oxides/NC NPNCs under Ar/NH3 atmosphere. Such Ni2+ x Fe2- x N/NC NPNCs possess mesoporous structures and show enhanced electrocatalytic activity in 1 m KOH electrolyte with the overpotential of 101 and 270 mV to attain 10 and 50 mA cm-2 current toward hydrogen and oxygen evolution reactions, outperforming their counterparts (mixed-phase NiFe2 O4 /Ni3 FeN/NC and NiFe oxides/NC NPNCs). Remarkably, utilizing them as bifunctional catalysts, the assembled Ni2+ x Fe2- x N/NC||Ni2+ x Fe2- x N/NC electrolyzer only needs 1.51 V cell voltage for driving OWS to approach 10 mA cm-2 water-splitting current, exceeding their counterparts and the-state-of-art reported bifunctional catalysts-based devices, and Pt/C||IrO2 couples. Additionally, the Ni2+ x Fe2- x N/NC||Ni2+ x Fe2- x N/NC manifests excellent durability for OWS. The findings presented here may spur the development of advanced TMNs nanostructures by combining phase, structure engineering, and hybridization strategies and stimulate their applications toward OWS or other clean energy fields.

[Clinical research on post-stroke dysphagia treated with nape acupuncture and rehabilitation training].

OBJECTIVE: To observe the improvement in post-stroke dysphagia after treatment of nape acupuncture and rehabilitation training. METHODS: Eighty patients who were in compliance with the inclusive criteria were randomized into a conventional treatment group and a nape acupuncture group, 40 cases in each one, according to the admission sequence. In the conventional treatment group, on the basis of general medication, the rehabilitation training of swallowing function was applied. In the nape acupuncture group, on the basic treatment as the conventional treatment group, nape acupuncture group was given. RESULTS: After treatment, the improvements in bedside water swallowing test, SSA, VFSS and pharynx transit time were all superior to those before treatment for the patients in the two groups (all P < 0.05). The improvements in bedside water swallowing test, SSA, VFSS and pharynx transit time in the nape acupuncture group were all superior to those in the conventional treatment group (all P < 0.05). The total effective rate was 85.0% (34/40) in the nape acupuncture group, which was higher than 65.0% (26/40) in the conventional treatment group, indicating the significantly statistical difference between the two groups (P < 0.05). CONCLUSION: Nape acupuncture combined with rehabilitation training significantly improves swallowing function of the patients after stroke.