Hang Xiao's research while affiliated with Columbia University and other places
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Publications (6)
The effects of γ′ phase volume fraction, morphology and size on tensile deformation behaviour of Ni-based superalloys at 300 K were studied using molecular dynamics simulation. The differences caused by different parameters were discussed in terms of atomic structure evolution, dislocation motion and stress–strain curve. The results showed that whe...
The distributed consensus mechanism is the backbone of the rapidly developing blockchain network. Blockchain platforms consume vast amounts of electricity based on the current consensus mechanism of Proof of Work. Here, we point out an advanced consensus mechanism named Proof of Stake that can eliminate the extensive energy consumption of the curre...
Metal phthalocyanines molecular catalysts exhibit the unique ability of CO2 electrochemical reduction reaction (CO2ERR) thanks to their well-defined macrocycle structure. In this work, we introduced different substituting functional groups at the phthalocyanine ring of cobalt phthalocyanine to study the relationship of molecular structure optimizat...
The study of soft deployable structures is an emergent field that is highly correlated with metamaterial design, soft robotics, medical devices, etc. This paper studies a novel two-dimensional (2D) soft deployable structure that has a fractal layout with hierarchically coupled thin walls, which buckles upon actuation and deforms into a "peacock tai...
Nanomaterials have been treated as effective dopants for enhancing mechanical and ion-conductive properties of polymer membranes. Among various nanomaterials, metal–organic frameworks are attracting enormous attention from researchers because of their intriguing structural and functional properties. Here we report a gentle and simple synthesis meth...
Interactions between the active components with the support are one of the fundamentally factors in determining the catalytic performance of a catalyst. Contrast to the comprehensive understanding on the strong metal-support interactions (SMSI) in metal-based catalysts, it remains unclear for the interactions among different oxides in mixed oxide c...
Citations
... They found that the modified phthalocyanine-based catalysts could significantly enhance the CO 2 reduction with the order of activity CoTNPc > CoOCPc > CoPc > CoTAPc. The nitrosubstituted cobalt phthalocyanine showed the best catalytic performance, the maximum FE CO and current density were 94% and 12.6 mA⋅cm −2 at −0.877 V vs. RHE respectively [143]. ...
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... All of these features contribute to the performance of our HCM gripper in this paper. Due to the same theory used, the shape and properties of HCM grippers can be derived similarly [16], [17], [22]. Thus, the timescale of the snapping process of the HCM fingers can be estimated as ...
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... For example, it is not easy to develop solid-state electrolyte materials both showing superior electrical and mechanical properties for the lack of effective synthesis method and proper composite materials. On the one hand, some polymer electrolytes with strong affinity to ions are always with high crystallinity and inferior mechanical properties [15][16][17]. On the other hand, many polymer electrolytes with good mechanical properties usually show unsatisfying electrical properties because of the slow ionic kinetics under working conditions [18][19][20]. ...
