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Amorphous Silica Vs Crystalline
The distinction between amorphous silicon and crystalline silicon
Between heaven and earth, the material forms are different, and the shape of silicon is different from amorphous and crystalline. Amorphous silicon has a disordered atomic arrangement, like a loose cloud and fog, without a specific lattice structure, like a chaotic state. The texture is relatively loose, the electron mobility is relatively low, and in terms of electrical properties, it is like a dim night light. Although it has the ability to conduct electricity, it is not bright and bright.
Looking at crystalline silicon, the atoms are arranged in a regular and orderly manner, and the lattice structure is regular, just like a strict army formation. Its electron mobility is high, like a horse galloping on Kangzhuang Avenue. It has excellent electrical conductivity and is widely used in photovoltaic and semiconductor fields. It is the core material of electronic equipment, such as pearl shining, leading the progress of science and technology.
Although amorphous silicon has slightly inferior electrical performance, its preparation cost is lower and the process is relatively simple. For example, it is a simple child in the neighborhood. It is also useful in some cost-sensitive scenarios, such as some components of thin-film solar cells. It can occupy a place with its low-cost advantage.
Although crystalline silicon has excellent performance, the preparation process is complicated and expensive. Like the delicate child of a famous family, it is pampered. However, due to its excellent performance, it is irreplaceable in high-end semiconductor chip manufacturing and other fields, just like the pearl in the crown, dazzling.
The two have their own strengths and weaknesses. Amorphous silicon is known for its cost-friendliness, and crystalline silicon is known for its excellent performance. In the process of technological development, they complement each other, such as the wings of a bird and the two wheels of a car, to jointly promote the expansion of the application of silicon materials and lead humanity towards a brighter future.
Between heaven and earth, the material forms are different, and the shape of silicon is different from amorphous and crystalline. Amorphous silicon has a disordered atomic arrangement, like a loose cloud and fog, without a specific lattice structure, like a chaotic state. The texture is relatively loose, the electron mobility is relatively low, and in terms of electrical properties, it is like a dim night light. Although it has the ability to conduct electricity, it is not bright and bright.
Looking at crystalline silicon, the atoms are arranged in a regular and orderly manner, and the lattice structure is regular, just like a strict army formation. Its electron mobility is high, like a horse galloping on Kangzhuang Avenue. It has excellent electrical conductivity and is widely used in photovoltaic and semiconductor fields. It is the core material of electronic equipment, such as pearl shining, leading the progress of science and technology.
Although amorphous silicon has slightly inferior electrical performance, its preparation cost is lower and the process is relatively simple. For example, it is a simple child in the neighborhood. It is also useful in some cost-sensitive scenarios, such as some components of thin-film solar cells. It can occupy a place with its low-cost advantage.
Although crystalline silicon has excellent performance, the preparation process is complicated and expensive. Like the delicate child of a famous family, it is pampered. However, due to its excellent performance, it is irreplaceable in high-end semiconductor chip manufacturing and other fields, just like the pearl in the crown, dazzling.
The two have their own strengths and weaknesses. Amorphous silicon is known for its cost-friendliness, and crystalline silicon is known for its excellent performance. In the process of technological development, they complement each other, such as the wings of a bird and the two wheels of a car, to jointly promote the expansion of the application of silicon materials and lead humanity towards a brighter future.
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