博碩士論文 109327018 詳細資訊




以作者查詢圖書館館藏 以作者查詢臺灣博碩士 以作者查詢全國書目 勘誤回報 、線上人數:103 、訪客IP:18.191.168.142
姓名 朱紹維(Shao-Wei Chu)  查詢紙本館藏   畢業系所 光機電工程研究所
論文名稱 鈣鈦礦發光二極體熱特性模擬及優化之研究
相關論文
★ 利用銦錫氧化物設計太陽能電池之電極對轉換效率之效益★ Modified Hartmann mask於氣體折射率 量測之應用
★ 側聚光型太陽能電池系統之聚光元件設計與製作★ 結合繞射光柵與平凸透鏡之光束分頻元件於聚 光型太陽光電 / 太陽熱混合系統之應用
★ 波前檢測應用於氣體折射率量測★ 多重曲率之聚光元件應用於聚光型太陽能電池系統
★ 太陽光模擬系統之設計與製作★ 有機發光二極體熱特性模擬研究
★ 有機發光二極體激子光電特性模擬研究★ 太陽光與固態照明自動化混光技術研究
★ 高分子光柵應用於太陽光分光元件★ 利用色差分光之太陽能分光系統
★ 有機發光二極體光熱電特性整合模擬之研究★ 隨機奈米粒子模型應用於OLED 出光增益之研究
★ 太陽選擇性塗層與熱平行堆疊運用於太陽熱電發電系統之實時模擬研究★ 陰影疊紋式力-位移量測技術之研究
檔案 [Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   [檢視]  [下載]
  1. 本電子論文使用權限為同意立即開放。
  2. 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
  3. 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。

摘要(中) 鈣鈦礦作為一種結構統稱,該類結構之材料因有出色的光學特性而受到半導體產業的重視,其應用之一為鈣鈦礦發光二極體(以下簡稱鈣鈦礦LED)。鈣鈦礦LED相比於其他的常見發光二極體有原料容易取得、價格廉價、可溶液加工等優勢,因此作為新一代的發光元件備受矚目。然而現階段鈣鈦礦LED仍有許多不足之處,工作過程之產熱將會影響其性能與壽命的表現,故本研究將著重探討鈣鈦礦發光二極體之熱特性。
本文利用模擬軟體建構鈣鈦礦LED之熱模擬模型,並與樣品實驗交叉比對,後藉由更改結構與材料對模型進行改良,並透過模擬驗證不同措施對散熱性能的提升效果。
本研究主要分爲實驗與模擬相互驗證,以及結構優化設計:首先於實驗中給予鈣鈦礦發光二極體樣品穩定電源,並量測其溫度,後透過軟體建立樣品模型,並在相同條件下進行模擬,隨後比對兩者結果以驗證模擬模型之準確度;其次是結構優化設計,本研究提出了三種措施,包含:1) 對電極的間距進行調整;2) 於模型中加入電子與電洞傳輸層;3) 變更模型電極之材料,並模擬分析上述不同方案對於鈣鈦礦LED元件的散熱性能影響。
摘要(英) Perovskite has received much attention in the semiconductor industry because of its excellent optical properties. One of the applications of this material is the perovskite light-emitting diode (PeLED). Compared with other common light-emitting diodes (LED), PeLED has plenty of advantages, such as compatibility with solution process lower price. However, there are still many deficiencies in PeLED in current stage. The heat generation during the working process may affect its performance and lifetime. Therefore, this study will focus on the thermal characteristics of the PeLED.
In this thesis, a thermal simulation model of PeLED had been constructed in the simulation software, COMSOL. Also, the model has been compared with the experiments of the PeLED sample. After the verification, improved the thermal performance of PeLED was improved by adjusting the structure and materials in the model. Through the simulation, the performance of each measure on the improvement of heat dissipation was verified.
This research is mainly divided into two parts: the verification of the model through the comparisons with experiments and the simulation of the proposed measures with different structures and materials. In the experiment, a stable power was provided to a PeLED sample, and then its temperature was measured with a thermocouple. In the simulation, the sample model was established in the software under the conditions agreeing with the experiment. Compared with the experimental results, the simulation results have showed the acceptable accuracy. The second part was to change the structures and materials of the PeLED in the verified model for improving its thermal performance. Three measures, including: 1) adjusting the spacing between electrodes, 2) adding electron transfer layer and hole transfer layer to the device, and 3) using different electrode materials are proposed and simulated in this study. The analyses of the heat dissipation performance of the PeLED for every measure are discussed in this thesis.
關鍵字(中) ★ 鈣鈦礦發光二極體
★ 熱模擬
★ 樣品實驗
★ 散熱性能優化
關鍵字(英) ★ Perovskite light-emitting diode
★ Thermal simulation
★ Sample experiment
★ Heat dissipation performance
論文目次 目錄
摘要 I
Abstract II
致謝 IV
第一章、緒論 1
1-1前言 1
1-2文獻回顧 3
1-3研究動機 6
1-4論文架構 8
第二章、基礎理論 9
2-1鈣鈦礦發光二極體之發光原理 9
2-2鈣鈦礦發光二極體之光學特性 10
2-3鈣鈦礦發光二極體之發熱原理 12
2-3-1複合效應 12
2-3-2焦耳熱 14
2-4熱電模擬耦合理論 14
2-5鈣鈦礦發光二極體結構 16
2-6小結 18
第三章、鈣鈦礦發光二極體模擬與實驗介紹 19
3-1 實驗儀器介紹 19
3-1-1儀器校準實驗 21
3-1-2內插法 24
3-2單一與陣列鈣鈦礦發光二極體之模擬 25
3-2-1間距優化 30
3-3摻雜電子與電洞傳輸層鈣鈦礦發光二極體 31
3-6小結 34
第四章、模擬與實驗結果 35
4-1樣品概述 35
4-2單一鈣鈦礦LED晶片模擬 36
4-3陣列鈣鈦礦LED樣品模擬 39
4-4陣列樣品之變間距模擬 42
4-4-1最小間距模擬 42
4-4-2最大間距模擬 43
4-4-3不同間距模擬 44
4-5間距調整對散熱性能影響 45
4-6摻雜電子與電洞傳輸層鈣鈦礦LED模擬 50
4-6-1摻雜與未摻雜電子與電洞傳輸層 50
4-7電極材料對元件之散熱效應 54
4-8小結 55
第五章、結論與未來展望 57
5-1結論 57
5-2未來展望 58
參考文獻 59
參考文獻 參考文獻
[1] 劉啟鑫,「深紫外發光二極體光熱特性模擬及優化之研究」,國立中央大學,碩士論文,民國 110 年。
[2] A. Albatayneh, "Influence of the Advancement in the LED Lighting Technologies on the Optimum Windows-to-Wall Ratio of Jordanians Residential Buildings." Energies 14, 2021.
[3] 黃柏霖,「隨機奈米粒子模型應用於OLED出光增益之研究」,國立中央大學,碩士論文,民國 107 年。
[4] 林中冠、賴敏良、李君婷,「新世代鈣鈦礦材料:合成、光電特性及應用」,物理雙月刊,2018。
[5] on line resources︰JDI首款MicroLED原型機亮相 亮度達3000 nits。
取自:https://kknews.cc/digital/y5xez9k.html
[6] on line resources︰科學家研製出長壽命鈣鈦礦白光發光二極管。
取自:https://ppfocus.com/hk/0/scebde6b2.html
[7] on line resources︰Micro LED螢幕走到哪兒了。
取自:https://www.eettaiwan.com/20210621nt61-micro-led-monitor/
[8] on line resources︰OLED、Mini LED、Micro LED顯示技術全面比較。
取自:https://xueqiu.com/1553799558/151612390
[9] on line resources︰全無機Cs-based鈣鈦礦量子點發光顯示元件。
取自: https:// pb.ps-taiwan.org/catalog/ins.php?index_m1_id=5&index_id=351
[10] on line resources︰京東方、三安光電、華星光電等國內Micro LED勢力待發。
取自: https://kknews.cc/news/vlprrgq.html
[11] Gillzyb,「鈣鈦礦電池:太陽能產業的新星」,綠能趨勢網,2014。
[12] L. N. Quan, "Perovskites for light emission." Advanced Materials, 30, 2018.
[13] P. Du, "Efficient and large-area all vacuum-deposited perovskite light-emitting diodes via spatial confinement." Nature Communications, 12, 2021.
[14] A. Kojima, "Organometal halide perovskites as visible-light sensitizers for photovoltaic cells." Journal of the american chemical society, 131, 2009.
[15] J. Li, "Single‐layer light‐emitting diodes using organometal halide perovskite/poly (ethylene oxide) composite thin films." Advanced materials , 27, 2015.
[16] Z. Chen, "Utilization of trapped optical modes for white perovskite light-emitting diodes with efficiency over 12%." Joule 5, 2021.
[17] W. C. Chen, "High luminescence and external quantum efficiency in perovskite quantum-dots light-emitting diodes featuring bilateral affinity to silver and short alkyl ligands." Chemical Engineering Journal 414, 2021.
[18] L. Zhao, "Thermal management enables bright and stable perovskite light‐emitting diodes." Advanced Materials 32, 2020.
[19] K. Zhang, "Opportunities and challenges in perovskite LED commercialization." Journal of Materials Chemistry C 9, 2021.
[20] F. Zhang, "High‐Efficiency Pure‐Color Inorganic Halide Perovskite Emitters for Ultrahigh‐Definition Displays: Progress for Backlighting Displays and Electrically Driven Devices." Small Methods 2, 2018.
[21] 黃莘閎,「有機發光二極體之軟性基板散熱設計及壽命改善之研究」,國立中央大學,碩士論文,民國 108 年。
[22] Z. Song, J. Zhao, and Q. Liu, "Luminescent perovskites: recent advances in theory and experiments." Inorganic Chemistry Frontiers 6, 2019.
[23] K. Zhang, "Opportunities and challenges in perovskite LED commercialization." Journal of Materials Chemistry C 9, 2021.
[24] M.J. Moran, "Introduction to thermal systems engineering: thermodynamics, fluid mechanics, and heat transfer." John Wiley & Sons, 2002.
[25] A.C. Wei, "Integration of optical and thermal models for organic light-emitting diodes", Electronics, 8, 2019.
[26] P. Schwamb, T. C. G. Reusch, C. J. Brabec,“Passive cooling of large-area organic light-emitting diodes.”Org. Electron, 14, 2013.
[27] Z. C. Li, "Applications of organic additives in metal halide perovskite light-emitting diodes." ACTA PHYSICA SINICA 68, 2019.
[28] on line resources︰鈣鈦礦熱力學穩定性的新規律。
取自:http://www.ifuun.com/a201802079830890/
[29] on line resources︰關於熱電偶。
取自:https://kknews.cc/zh-tw/news/g93nzpy.html
[30] on line resources︰瞭解熱電偶、測溫線、感溫線的基本原理。
取自:https://www.researchmfg.com/2021/06/thermocouple/
[31] on line resources︰TES Electrical Electronic Corp。
取自:http://www.tes.com.tw/product_detail.asp?seq=120
[32] on line resources︰Phase Diagram for Water。
取自:https://courses.lumenlearning.com/cheminter/chapter/phase-diagram-
for-water/
[33] on line resources︰TES Electrical Electronic Corp。
取自:TES-1310數位式溫度錶說明書
[34] L. Zhao, "Improved outcoupling efficiency and stability of perovskite light‐emitting diodes using thin emitting layers." Advanced Materials 31, 2019.
[35] Y. C. Ye, "Minimizing Optical Energy Losses for Long‐Lifetime Perovskite Light‐Emitting Diodes." Advanced Functional Materials, 31, 2021.
[36] online resources︰COMSOL database。
取自:https://www.pitotech.com.tw/index.html
[37] A. Kanak, "Thermal conductivity of CsPbBr3 halide perovskite: Photoacoustic measurements and molecular dynamics analysis." AIP Conference Proceedings, 2305, 2020.
[38] D. Yang, "Dielectric properties of a CsPbBr 3 quantum dot solution in the terahertz region." Applied optics, 56, 2017.
[39] D. Malyshkin, "New phase transition in CsPbBr3." Materials Letters 278, 2020.
[40] online resources︰MatWeb material property data。
取自:https://www.matweb.com/search/DataSheet.aspx?MatGUID=
df314cfade1e4eaf8441be108969ebb0
[41] O. Kamoun, "Nanostructured Fe, Co-Codoped MoO3 Thin Films." Micromachines, 10, 2019.
[42] L. D. López‐Carreño, A. Pardo, M. Zuluaga, O. L. Cortés‐Bracho, J. Torres, & J. E. Alfonso, "Electrical transport properties of MoO3 thin films prepared by laser assisted evaporation. " physica status solidi c, 4, 2007.
[43] D. F. Smith, "Low temperature heat capacity and entropy of molybdenum trioxide and molybdenum disulfide." Journal of the American Chemical Society 78, 1956.
[44] online resources︰MatWeb material property data。
取自:https://www.matweb.com/search/DataSheet.aspx?MatGUID=
173a8f1e7cec4ce7af5dc3b90d10f756
[45] S. Park, R. Kang, & S. Cho, "Effect of an Al-doped ZnO electron transport layer on the efficiency of inverted bulk heterojunction solar cells. " Current Applied Physics, 20, 2020.
[46] online resources︰Material Property Database
取自:http://www.mit.edu/~6.777/matprops/ito.htm
[47] D. Thuau, I. Koymen, and R. Cheung. "A microstructure for thermal conductivity measurement of conductive thin films." Microelectronic engineering 88, 2011.
[48] L. Wang, J. Wen, C. Yang, & B. Xiong, "Potential of ITO thin film for electrical probe memory applications. " Science and technology of advanced materials, 19, 2018.
[49] online resources︰CAS Database。
取自:https://www.chembk.com/en/chem/TPBi
[50] Y. Chen, M. Zhang, X. Zhang, Z. Lei, X. Zhang, L. Hao, & W. Huang, "Multilayered phosphorescent polymer light-emitting diodes using a solution-processed n-doped electron transport layer. " Journal of Luminescence, 186, 2017.
[51] U. Lang, "Microscopical investigations of PEDOT: PSS thin films." Advanced Functional Materials 19, 2009.
[52] X. Fan, "PEDOT: PSS for flexible and stretchable electronics: modifications, strategies, and applications. " Advanced Science, 6, 2019.
[53] J. Liu, "Thermal conductivity and elastic constants of PEDOT: PSS with high electrical conductivity." Macromolecules 48, 2015.
指導教授 韋安琪(An-Chi Wei) 審核日期 2022-8-25
推文 facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu   
網路書籤 Google bookmarks   del.icio.us   hemidemi   myshare   

若有論文相關問題,請聯絡國立中央大學圖書館推廣服務組 TEL:(03)422-7151轉57407,或E-mail聯絡  - 隱私權政策聲明