New classes of Si-based photonic materials and device architectures via designer molecular routes

Kouvetakis J; Chizmeshya AVG

首页> 外文期刊>Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology >New classes of Si-based photonic materials and device architectures via designer molecular routes

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New classes of Si-based photonic materials and device architectures via designer molecular routes

机译：通过设计者分子路线的新型硅基光子材料和器件架构

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Ge/Sn-based group IV semiconductors with tunable band gaps across the wide IR range were synthesized using designer hydrides with tailored Si, Ge and Sn stoichiometries and structures. GeSn, SiGeSn, SiSn and SiGeSn/Ge heterostructures undergo indirect to direct band gap transitions via strain engineering and alloy composition tuning, providing the basis for integration of microelectronics with optical components into a single chip. SiGeSn systems also enable buffer layer technologies with unprecedented lattice and thermal matching capabilities for applications in monolithic integration of III - V semiconductors with Si electronics.

机译：使用具有定制的Si，Ge和Sn化学计量和结构的设计氢化物，合成了在宽IR范围内具有可调带隙的Ge / Sn基IV族半导体。 GeSn，SiGeSn，SiSn和SiGeSn / Ge异质结构通过应变工程和合金成分调整间接进行直接带隙跃迁，为将微电子器件与光学组件集成到单个芯片中提供了基础。 SiGeSn系统还使缓冲层技术具有空前的晶格和热匹配功能，可用于将III-V半导体与Si电子器件进行单片集成。

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《Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology》 |2007年第17期|共7页
作者
Kouvetakis J; Chizmeshya AVG;
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正文语种 eng
中图分类工程材料学;
关键词
QUANTUM-CASCADE STRUCTURES; GROUP-IV SEMICONDUCTORS; BUFFER LAYERS; INTERSUBBAND ELECTROLUMINESCENCE; GE1-XSNX ALLOYS; SILICON; HETEROSTRUCTURES; LASER; GAAS/ALGAAS; INTEGRATION;

机译：量子级联结构;Group-IV半导体;缓冲层;带间电致发光;GE1-XSNX合金;硅;异质结构;激光;GAAS /藻类;集成;

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1. New classes of Si-based photonic materials and device architectures via designer molecular routes [J] . Kouvetakis J, Chizmeshya AVG Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2007,第17期

机译：通过设计者分子路线的新型硅基光子材料和器件架构
2. European Materials Research Society (EMRS) Symposium on Transport and Photonics in Si-based Nanomaterials and Nanodevices - May 9-13,2-11 [J] . Henry Radamson Materials Science and Engineering . 2012,第17期

机译：欧洲材料研究协会（EMRS）硅基纳米材料和纳米器件中的传输和光子学研讨会-2月5日至9月13日
3. Nano and Giga Challenges in Electronics and Photonics From Atoms to Materials to Devices to System Architecture [J] . Materials Technology . 2006,第4期

机译：电子和光子学中的纳米和千兆挑战，从原子到材料再到器件再到系统架构
4. Recent Progresses of Si-based Photonic Materials and Devices [C] . Jinzhong Yu, Qiming Wang Proceedings of the Eighth Chinese Optoelectronics Symposium . 2006

机译：硅基光子材料与器件的最新进展
5. Material, optical and electro-optical characterization of Si and Si-based devices under the influence of high energy radiation [D] . Bhandaru, Shweta 2015

机译：高能量辐射影响下的Si和Si基器件的材料，光学和电光表征
6. Supramolecular Chemistry And Self-assembly Special Feature: Self-organization of self-assembled photonic materials intofunctional devices: Photo-switched conductors [O] . Charles Michael Drain 2002

机译：超分子化学和自组装特征：将自组装的光子材料自组织成功能设备：光电开关导体
7. Luminescence enhancement from Si-based materials by introducing a photonic crystal double-heterostructure slot waveguide microcavity [O] . Wang Yue, Wu Yuan-da, Zhang Jia-shun, 2011

机译：通过引入光子晶体双异质结构缝隙波导微腔增强硅基材料的发光
8. Novel Si-Based Materials and Device Structures by Molecular Beam Epitaxy [R] . Wang, K. L. 1986

机译：分子束外延的新型硅基材料和器件结构

New classes of Si-based photonic materials and device architectures via designer molecular routes

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