...示,目前一般见到的薄膜大多是非矽晶(Amorphous)类,虽然技术稳定,但效率低;宇通直接选择挑战高效率、低成本的微非矽晶(Micromorph),因Micromorph薄膜太阳能电池具有双层吸光层,有较不受环境改变影响效率、单位瓦数全年发电度数较高等优势。 .
基于12个网页-相关网页
另外,薄膜硅技术也被开发出来,将非晶硅或者微晶硅薄膜放到玻璃那样的平的大面积衬底上。
Besides, thin-film silicon technologies have also been developed to place a thin film of amorphous or microcrystalline silicon onto flat large-area substrates such as glass.
结果表明:薄膜由非晶硅结构转变为微晶硅结构,微晶硅晶粒尺寸在纳米级。
The results indicate that the amorphous film gradually transfers into microcrystalline Si, and the grain size is nanometer order of magnitude.
本文研究了激光诱导化学气相沉积法制备纳米氮化硅的工作原理,提出了减少游离硅的措施,利用双光束激发制备了超微的、非晶纳米氮化硅粉体。
It is used in many areas. In this paper, the general principles of LICVD (laser induced chemical vapor deposition) were investigated and the measures to reduce dissociated si were put forward.
应用推荐