Cover Image
市場調查報告書

半導體產業中2D材料的發展性 - 電子領域中期待見到高度成長,使用2D材料的半導體

Opportunities for 2D Materials in Semiconductor Industry - 2D Material-Based Semiconductors Expected To Find High Growth Potential In Electronics, Optoelectronics and Sensors

出版商 Technical Insights (Frost & Sullivan) 商品編碼 369104
出版日期 內容資訊 英文 76 Pages
商品交期: 最快1-2個工作天內
價格
Back to Top
半導體產業中2D材料的發展性 - 電子領域中期待見到高度成長,使用2D材料的半導體 Opportunities for 2D Materials in Semiconductor Industry - 2D Material-Based Semiconductors Expected To Find High Growth Potential In Electronics, Optoelectronics and Sensors
出版日期: 2016年07月19日 內容資訊: 英文 76 Pages
簡介

自從石墨烯在2000年代初期被發現以來,2D材料因其橫跨產業的高度適用性,在世界受到廣泛的討論。然而由於石墨天然能帶隙的缺乏,促使許多研究人員去探索其他種類的2D材料,導致對2D硫族化物、2D氧化奈米片、磷烯、及混合2D材料的重視。這些材料都具備天然能帶隙而適用於半導體領域,是以利用這些材料的半導體可望在電子、光電、感測器產業中受到主流關注。

本報告以逐漸超越石墨烯聲勢的2D硫族化物、2D氧化奈米片、磷烯、及混合2D材料為對象,聚焦於其特性及性質,考察其對產業整體的影響。除了繪製在電子、光電及感測器等領域的普及、未來技術與製品藍圖之外,專利分析的徹底調查、這些材料的走紅機會、2D材料導入方案模型分析等內容也一併提供如後。

執行摘要

  • 調查範圍
  • 調查方法
  • 重要發現 - 研究開發的主要焦點在於找到最便宜的合成技術

第1章 2D材料的概要

  • 研究人員關注石墨烯之後的2D材料

第2章 影響2D材料導入的因子

  • 促進因素 - 奈米規模設備的合成及製造方法進步
  • 促進因素 - 奈米規模材料的特性評估與模擬相關進步
  • 促進因素 - 摩爾定律的指數成長率
  • 挑戰 - 對機制的不夠理解導致不穩定的材料
  • 挑戰 - 研究人員間缺乏一定共識
  • 製造方法、成本、法規等因素也會影響導入決策

第3章 石墨烯以外的2D材料

  • 2D硫族化物 - 直接能帶隙的寬廣是造成差別的主要因子
  • 2D硫族化物 - 研究開發的角點在於瞭解材料在設備結構中的動能
  • 磷烯 - 展現了高度載流子平均漂移速度及熱導率
  • 磷烯 - 研究開發的焦點在於理解材料特性
  • 2D氧化奈米片 - 在奈米結構上可表現高度彈性
  • 2D氧化奈米片 - 研究開發著重於增加應用範圍的可能性
  • 混合2D材料 - 允許客製化特性
  • 混合2D材料 - 研究開發聚焦於在各材料間取得穩定整合

第4章 智慧財產權分析

  • 2D硫族化物 - 專利申請數量激增
  • 2D硫族化物 - 韓國在專利申請上獲得聲望
  • 2D硫族化物 - 企業和大學間的專利申請蔓延
  • 2D硫族化物 - 申請專利的主要焦點在於將材料實裝到設備上的方法
  • 混合2D材料 - 2015年開始專利申請數激增
  • 混合2D材料 - 韓國專利事務所支配了專利申請數
  • 混合2D材料 - 大學成為主要專利權人
  • 混合2D材料 - 從專利申請數來看,主要重點領域在於製備方法
  • 磷烯 - 美國佔了專利申請數量的大多數
  • 磷烯 - 大學的專利申請數量格外顯著
  • 2D氧化奈米片 - 專利申請數穩定成長
  • 2D氧化奈米片 - 東亞的專利事務所佔申請數的大半
  • 2D氧化奈米片 - 製造技術的申請件數最多
  • 從2D材料專利分析所得之重要發現
  • 從2D材料專利分析所得之重要發現 - 大學及研究機構主宰了專利申請

第5章 急速擴大的從2D材料商機

  • 電子技術 - 電子技術中2D材料最大的商機
  • 電子技術 - 適用於數位及彈性電子技術的主要條件必須被滿足
  • 電子技術 - 彈性電子技術是透過2D材料進行改良的主要焦點
  • 光電技術 - 2D材料強化光的吸收與發光
  • 光電技術 - 主要用戶的需求著重於高發光與低反射特性
  • 光電技術 - 光與物質的相互作用成為透過2D材料改善設備的主要焦點
  • 感測器 - 2D材料能夠降低噪音縮小感測器尺寸
  • 感測器 - 主要用戶對感測器的需求是高感度即可逆性
  • 2D材料可以改善光感應器及彈性感應器

第6章 2D材料普及的局勢分析:2020年

  • 樂觀局勢 - 技術整備度高與許多可用的合作關係
  • Frost & Sullivan觀點 - 技術整備度中等,可用合作關係較少
  • 保守評估 - 技術整備度低,且研究開發停滯

第7章 技術與產品藍圖

  • 技術與產品藍圖 - 邏輯次序的解說
  • 技術與產品藍圖
  • 技術與產品藍圖 - 時代趨勢已經超越了摩爾法則

第8章 重要專利

  • 重要專利 - 依大學分類
  • 重要專利 - 依研究機關分類
  • 重要專利 - 依企業分類

第9章 主要聯絡人

  • 聯絡人詳細資訊
  • 免責聲明

第10章 關於FROST & SULLIVAN

  • 關於FROST & SULLIVAN
  • 價值提案 - 貴公司與事業的未來
  • 全球觀點
  • 產業聚合
  • 全方位的調查觀點
  • 卓越的執行力
  • 本公司的藍海策略
目錄
Product Code: D72E-01-00-00-00

2D Material-Based Semiconductors Expected To Find High Growth Potential In Electronics, Optoelectronics and Sensors

Since discovery of graphene in early 2000s, it has been the most widely talked about 2D material in world due to its applicability across industries.However, lack of natural bandgap in graphene has prompted many researchers to explore other type of 2D materials. This brings into focus materials such as 2D chalcogenide, 2D oxide nanosheets, phosphorene and hybrid 2D materials. All of these materials have a natural bandgap that can support its adoption in the semiconductor sector. These 2D material based semiconductors is expected to be of main focus in electronics, optoelectronics and sensors industries.

This RS discusses the emerging 2D materials beyond graphene. The materials that are discusses in this research includes 2D chalcogenide, 2D oxide nanosheets, phosphorene and hybrid 2D materials. The research services highlights the properties and characteristics of these materials, elaborates on the factors that impact the adoption of these across industries and maps the future technology and product roadmap across the three industries mentioned above. An exhaustive patent analysis, an insight on the emerging opportunities of the materials, a scenario modeling analysis that highlights the adoption of 2D materials in the 2020 has also been covered in this research service.

Table of Contents

Executive Summary

  • 1. Research Scope
  • 2. Research Process and Methodology
  • 3. Key Findings: The Main R&D Focus is to Find the Cheapest Synthesis Technique

1. An Overview of 2D Materials

  • 1. 1.1 2D Materials Beyond Graphene Gaining Interest of Researchers

2. Factors That Impact Adoption of 2D Materials

  • 1. 2.1 Drivers - Advancement of Synthesis and Production of Nanoscale Devices
  • 2. 2.2 Drivers - Advances Related to Characterization and Simulation of Nanoscale Materials
  • 3. 2.3 Drivers- Exponential Rate of Moore's Law
  • 4. 2.4 Challenges- Lack of Understanding of Mechanism Leads to Unstable Materials
  • 5. 2.5 Challenges - Lack of Consensus Among Researchers
  • 6. 2.6 Manufacturing Techniques, Cost and Regulations Also Impact Adoption Decisions

3. Types of Non-Graphene 2D Materials

  • 1. 3.1 2D Chalcogenide- High Direct Bandgap Is a Key Differentiating Factor
  • 2. 3.2 2D Chalcogenide - R&D Focus is to Understand Kinetic of Materials in the Devices' Structure
  • 3. 3.3 Phosphorene: Portrays High Carrier Mobility and Thermal Conductivity
  • 4. 3.4 Phosphorene: R&D Focused on Understanding the Properties of the Material
  • 5. 3.5 2D Oxide Nanosheets - Can Achieve High Flexibility on Nanostructures
  • 6. 3.6 2D Oxide Nanosheets - R&D Focus on Increasing Application Potential
  • 7. 3.7 Hybrid 2D Materials- Allows Customization of Properties
  • 8. 3.8 Hybrid 2D Materials - R&D Focus on Obtaining Stable Integration Between Materials

4. Intellectual Property (IP) Analysis

  • 1. 4.1 2D Chalcogenide: Exponential Increase in Patent Filings
  • 2. 4.2 2D Chalcogenide: South Korea Gaining Prominence in IP Filing
  • 3. 4.3 2D Chalcogenide - Filings Spread Across Companies and Universities
  • 4. 4.4 2D Chalcogenide - Methods of Incorporating Materials into Devices Is Key Focus Area in IP Filing
  • 5. 4.5 Hybrid 2D Materials- Exponential Increase in Patent Filings in 2015
  • 6. 4.6 Hybrid 2D Materials- South Korea Patent Office Dominates IP Filing
  • 7. 4.7 Hybrid 2D Materials- Universities Dominate as Key Patent Assignees
  • 8. 4.8 Hybrid 2D Materials - Preparation Methods are Key Focus Area According to Patent Filings
  • 9. 4.9 Phosphorene- USA Dominates in IP Filing
  • 10. 4.10 Phosphorene- Universities Are More Prominent in IP Filings
  • 11. 4.11 2D Oxide Nanosheets - Steady Growth in Patent Filings
  • 12. 4.12 2D Oxide Nanosheets - East Asian Patent Offices Dominate IP
  • 13. 4.13 2D Oxide Nanosheets- Production Techniques have Highest Filings
  • 14. 4.14 Key Findings from IP Analysis of 2D Materials
  • 15. 4.15 Key Findings from IP Analysis of 2D Materials- Universities and Research Entities Dominate Patent Filing

5. Emerging Opportunities for 2D Materials

  • 1. 5.1 Electronics - Highest Opportunities of 2D Materials in Electronics
  • 2. 5.2 Electronics- Key Requirements Regarding Suitability For Digital And Flexible Electronics Need To Be Fulfilled
  • 3. 5.3 Electronics- FET Becomes Major Focus of Improvement via 2D Materials
  • 4. 5.4 Optoelectronics - 2D Materials Able to Enhance Absorption and Emission of Light
  • 5. 5.5 Optoelectronics - Key Users' Needs Focus on High Photoluminescence and Low Reflectance Characteristics
  • 6. 5.6 Optoelectronics- Light Matter Interaction Becomes Major Focus of Improvement via 2D Materials for Devices
  • 7. 5.7 Sensors - 2D Materials Able to Reduce Noise and Size of the Sensors
  • 8. 5.8 Sensors: Key Users' Needs Require A Sensor that is Highly Sensitive and Reversible
  • 9. 5.9 2D Materials Able to Improve Photodetectors and Flexible Sensors

6. Scenario Analysis of 2D Materials Adoption in 2020

  • 1. 6.1 Optimistic Scenario - Technology Readiness Level Is High with Many Partnerships Available
  • 2. 6.2 Frost & Sullivan Scenario - Technology Readiness Level Is Medium with Less Number of Partnerships
  • 3. 6.3 Conservative Scenario - Technology Readiness Level Is Low with Stagnant R&D Efforts

7. Technology and Product Roadmap

  • 1. 7.1 Technology and Product Roadmap- Explanation of Logical Sequence
  • 2. 7.2 Technology and Product Roadmap
  • 3. 7.3 Technology and Product Roadmap - Trend is Going Beyond Moore's Law

8. Key Patents

  • 1. 8.1 Key Patents by Universities
  • 2. 8.2 Key Patents By Research Institutes
  • 3. 8.3 Key Patents by Companies

9. Key Contacts

  • 1. 9.1 Contact Details
  • 2. 9.2 Legal Disclaimer

10. The Frost & Sullivan Story

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
Back to Top