Shi Xiao-Hong scite author profile

Based on the clusters growth mechanisms, we study a percolation model where the clusters are assigned to a weight probability function and the intracluster edges are excluded. The weight probability function includes a tunable parameter 𝛼. The model can realize the phase transition from continuous to multiple discontinuous and discontinuous as the value of 𝛼 is tuned. According to the properties of the weight probability function, three typical cases which correspond to different clusters growth mechanisms are analyzed. When the system size 𝑁 is equal to 1/𝛼, probability modulation effect indicates that the percolation process generates a continuous phase transition which is similar to the classical Erdös-Rényi (ER) network model. At 𝛼 = 1, it is shown that the lower pseudotransition point is converging to 1 in the thermodynamic limit and the cluster size distribution at the lower pseudotransition point does not obey the power-law behavior, indicating a first-order phase transition. For 𝛼 = 𝑁 −1/2 , the order parameter exhibits multiple jumps and the magnitude of the jumps are randomly distributed. The numerical simulations find that the relative variance of the order parameter is nonzero on an extended interval. It indicates that the order parameter is non-self-averaging. The cluster size heterogeneity decreases oscillatorily from some moment, which also implies the phenomenon.

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The Effect of Electric Field on Carrier Mobility in Organic Semiconductors Based on Exponential Type Density of States and Genuine Transport Energy

Xiao-Hong

Yao

et al. 2020

IEEE Electron Device Lett.

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Dependence of Seebeck Coefficient on the Density of States in Organic Semiconductors

Xiao-Hong

Sun²

2017

IEEE Electron Device Lett.

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Exponential-type density of states with clearly cutting tail for organic semiconductors

Xiao-Hong

Sun

Xiong

et al. 2016

Organic Electronics

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Shi Xiao-Hong

Trap-assisted recombination in disordered organic semiconductors extended by considering density dependent mobility

Percolation Transitions of Random Networks under a Weight Probability Function

The Effect of Electric Field on Carrier Mobility in Organic Semiconductors Based on Exponential Type Density of States and Genuine Transport Energy

Dependence of Seebeck Coefficient on the Density of States in Organic Semiconductors

Exponential-type density of states with clearly cutting tail for organic semiconductors

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