而在大面积低质量衬底上实现效率高达14.7%。这一成果表明了薄膜外延太阳能电池工业化生产的潜力。
And efficiencies of up to 14.7% were achieved on large-area low-quality substrates, showing the potential of thin-film epitaxial solar cells for industrial manufacturing.
用氢气、丙酮蒸汽为源气体,通过微波增强的化学气相沉积方法,实现了在金刚石表面气相外延生长单晶金刚石薄膜。
Vapour epitaxial grown single-crystal diamond film on diamond surface was obtained by microwave reinforced chemical vapour deposition method, using hydrogen, aceton vapour as source of gas.
单晶,衬底,光电子,薄膜,外延。
Single Crystal, Substrate, Optico-Electronics, Film, Epitaxy.
应用推荐