公开(公告)号：US20100068871A1

公开(公告)日：2010-03-18

申请号：US12463942

申请日：2009-05-11

Applicant: Yonglai Tian ,  Rao V. Mulpuri ,  Siddarth G. Sundaresan ,  Albert V. Davydov

Inventor： Yonglai Tian ,  Rao V. Mulpuri ,  Siddarth G. Sundaresan ,  Albert V. Davydov

IPC: H01L21/20

CPC classification number: H01L21/02631 ,  C23C14/025 ,  C23C14/04 ,  C23C14/0635 ,  C23C14/28 ,  C23C14/541 ,  C30B11/12 ,  C30B23/066 ,  C30B29/36 ,  C30B29/60 ,  H01L21/02491 ,  H01L21/02513 ,  H01L21/02529 ,  H01L21/02603 ,  H01L21/02609 ,  Y10S438/931

Abstract: The present invention grows nanostructures using a microwave heating-based sublimation-sandwich SiC polytype growth method comprising: creating a sandwich cell by placing a source wafer parallel to a substrate wafer, leaving a small gap between the source wafer and the substrate wafer; placing a microwave heating head around the sandwich cell to selectively heat the source wafer to a source wafer temperature and the substrate wafer to a substrate wafer temperature; creating a temperature gradient between the source wafer temperature and the substrate wafer temperature; sublimating Si- and C-containing species from the source wafer, producing Si- and C-containing vapor species; converting the Si- and C-containing vapor species into liquid metallic alloy nanodroplets by allowing the metalized substrate wafer to absorb the Si- and C-containing vapor species; and growing nanostructures on the substrate wafer once the alloy droplets reach a saturation point for SiC. The substrate wafer may be coated with a thin metallic film, metal nanoparticles, and/or a catalyst.

Abstract translation: 本发明使用基于微波加热的升华夹心SiC多型生长方法生长纳米结构，其包括：通过将源晶片平行于衬底晶片制造夹层电池，在源晶片和衬底晶片之间留下小的间隙; 将微波加热头围绕夹层电池放置，以将源晶片选择性地加热到源晶片温度，并将衬底晶片选择性地加热到衬底晶片温度; 在源晶片温度和衬底晶片温度之间产生温度梯度; 从源晶片升华含Si和C的物质，产生含Si和C的蒸气物质; 通过允许金属化的基底晶片吸收含Si和C的蒸气物质，将含Si和C的蒸汽物质转化成液体金属合金纳米质子; 并且一旦合金液滴达到SiC的饱和点，就在衬底晶圆上生长纳米结构。 衬底晶片可以涂覆有薄金属膜，金属纳米颗粒和/或催化剂。

公开(公告)号：US07994027B2

公开(公告)日：2011-08-09

申请号：US12463942

申请日：2009-05-11

Applicant: Yonglai Tian ,  Rao V. Mulpuri ,  Siddharth G. Sundaresan ,  Albert V. Davydov

Inventor： Yonglai Tian ,  Rao V. Mulpuri ,  Siddharth G. Sundaresan ,  Albert V. Davydov

IPC: H01L21/20 ,  C30B23/00

CPC classification number: H01L21/02631 ,  C23C14/025 ,  C23C14/04 ,  C23C14/0635 ,  C23C14/28 ,  C23C14/541 ,  C30B11/12 ,  C30B23/066 ,  C30B29/36 ,  C30B29/60 ,  H01L21/02491 ,  H01L21/02513 ,  H01L21/02529 ,  H01L21/02603 ,  H01L21/02609 ,  Y10S438/931

Abstract: The present invention grows nanostructures using a microwave heating-based sublimation-sandwich SiC polytype growth method comprising: creating a sandwich cell by placing a source wafer parallel to a substrate wafer, leaving a small gap between the source wafer and the substrate wafer; placing a microwave heating head around the sandwich cell to selectively heat the source wafer to a source wafer temperature and the substrate wafer to a substrate wafer temperature; creating a temperature gradient between the source wafer temperature and the substrate wafer temperature; sublimating Si- and C-containing species from the source wafer, producing Si- and C-containing vapor species; converting the Si- and C-containing vapor species into liquid metallic alloy nanodroplets by allowing the metalized substrate wafer to absorb the Si- and C-containing vapor species; and growing nanostructures on the substrate wafer once the alloy droplets reach a saturation point for SiC. The substrate wafer may be coated with a thin metallic film, metal nanoparticles, and/or a catalyst.

Abstract translation: 本发明使用基于微波加热的升华夹心SiC多型生长方法生长纳米结构，其包括：通过将源晶片平行于衬底晶片制造夹层电池，在源晶片和衬底晶片之间留下小的间隙; 将微波加热头围绕夹层电池放置，以将源晶片选择性地加热到源晶片温度，并将衬底晶片选择性地加热到衬底晶片温度; 在源晶片温度和衬底晶片温度之间产生温度梯度; 从源晶片升华含Si和C的物质，产生含Si和C的蒸气物质; 通过允许金属化的基底晶片吸收含Si和C的蒸气物质，将含Si和C的蒸汽物质转化成液体金属合金纳米质子; 并且一旦合金液滴达到SiC的饱和点，就在衬底晶圆上生长纳米结构。 衬底晶片可以涂覆有薄金属膜，金属纳米颗粒和/或催化剂。