利用分光式反射儀量測滾筒上之薄膜厚度

Guan-Yu Chen; 陳冠宇

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45434

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王倫(Lon Wang)
dc.contributor.author	Guan-Yu Chen	en
dc.contributor.author	陳冠宇	zh_TW
dc.date.accessioned	2021-06-15T04:19:57Z	-
dc.date.available	2011-10-28
dc.date.copyright	2009-10-28
dc.date.issued	2009
dc.date.submitted	2009-10-26
dc.identifier.citation	[1] A.E. Grigorescu and C.W. Hagen, 'Resists for sub-20-nm electron beam lithography with a focus on HSQ: state of the art,' Nanotechnology, Vol. 20, No. 29, 292001, 2009. [2] B.J. Lin , 'NGL comparable to 193-nm lithography in cost, footprint, and power consumption,' Microelectronic Engineering, Vol.86, No. 4, pp. 442-447, 2009. [3] T.L. Chang, K.Y. Cheng, T.H. Chou, C.C. Su, H.P. Yang, and S.W. Luo, 'Hybrid-polymer nanostructures forming an anti-reflection film using two-beam interference and ultraviolet nanoimprint lithography,' Microelectronic Engineering, Vol. 86, No. 4, pp. 874-877, 2009. [4] D.Y. Khang, H. Kang, T. Kim, and H.H. Lee, 'Low-pressure nanoimprint lithography,' Nano Letters, Vol. 4, No. 4, pp. 633-637, 2004. [5] G.Y. Jung, E. Johnston-Halperin, W. Wu, Z.N. Yu, S.Y. Wang, W.M. Tong, Z.Y. Li, J.E. Green, B.A. Sheriff, A. Boukai, Y. Bunimovich, J.R. Heath, and R.S. Williams, 'Circuit fabrication at 17 nm half-pitch by nanoimprint lithography,' Nano Letters, Vol. 6, No. 3, pp. 351-354, 2006. [6] H. Schift, 'Nanoimprint lithography: An old story in modern times? A review,' Journal of Vacuum Science & Technology B, Vol. 26, No.2, pp. 458-480, 2008. [7] T.C. Huang, J.T. Wu, S.Y. Yang, P.H. Huang, and S.H. Chang, 'Direct fabrication of microstructures on metal roller using stepped rotating lithography and electroless nickel plating,' Microelectronic Engineering, Vol. 86, No. 4, pp. 615-618, 2009. [8] F.E. Irons, 'An interferometric measurement of the wall thickness of a cylindrical glass tube with application to a draining liquid-film,' Measurement Science & Technology, Vol. 6, No. 9, pp. 1356-1361, 1995. [9] Y.N. Lin, T.J. Liu, and S.J. Hwang, 'Minimum wet thickness for double-layer slide-slot coating of poly(vinyl-alcohol) solutions,' Polymer Engineering and Science, Vol. 45, No. 12, pp. 1590-1599, 2005. [10] S. Snow, and S.C. Jacobsen, 'Microfabrication processes on cylindrical substrates - Part I: Material deposition and removal,' Microelectronic Engineering, Vol. 83, No. 11, pp. 2534-2542, 2006. [11] S.Y. Hwang, S.H. Hong, H.Y. Jung, and H. Lee, 'Fabrication of roll imprint stamp for continuous UV roll imprinting process,' Microelectronic Engineering, Vol. 86, No. 4, pp. 642-645, 2009. [12] http://www.rpi.edu/~schubert/Educational-resources/ [13] J. Bautista-Ruiz, J. Sandoval, and C. Ortiz, 'Characterizations of coatings obtained by dip coating from sol-gel suspensions,' Revista Mexicana De Fisica, Vol. 55, No. 1, pp. 144-147, 2009. [14] M. Hemissi, H. Amardjia-Adnani, and J.C. Plenet, 'Titanium oxide thin layers deposed by dip-coating method: Their optical and structural properties,' Current Applied Physics, Vol. 9, No. 4, pp. 717-721, 2009. [15] B.G. Jung, S.H. Min, C.W. Kwon, S.H. Park, K.B. Kim, and T.S. Yoon, 'Colloidal Nanoparticle-Layer Formation Through Dip-Coating: Effect of Solvents and Substrate Withdrawing Speed,' Journal of the Electrochemical Society, Vol. 156, No. 5, pp. K86-K90, 2009. [16] J. Mostaghimi, S. Chandra, R. Ghafouri-Azar, and A. Dolatabadi, 'Modeling thermal spray coating processes: a powerful tool in design and optimization,' Surface and Coatings Technology, No. 163-164, pp. 1-11, 2003. [17] R. Turton, and X.X. Cheng, 'The scale-up of spray coating processes for granular solids and tablets,' Powder Technology, Vol. 150, No. 2, pp. 78-85, 2005. [18] C.K. Yang, D.S.H. Wong, and T.J. Liu, 'The effects of polymer additives on the operating windows of slot coating,' Polymer Engineering and Science, Vol. 44, No. 10, pp. 1970-1976, 2004.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45434	-
dc.description.abstract	在微影製程領域中，利用奈米壓印做圖形的轉移是常用的技術之ㄧ。在奈米壓印中，利用滾筒壓印作大面積圖案的生產與製造是最有效率的方法之ㄧ。我們實驗室以干涉微影的方法，已可在平面基材上製作次微米等級的週期性結構，也可在滾筒上製作次微米週期性結構。為因應微影製程及後續製程上的需求，在滾筒上進行干涉微影之前必須先確認滾筒上薄膜之厚度，故在本論文中我們嘗試開發出一套反射儀，不僅可量測平面基材上之薄膜厚度，也可量測滾筒上之薄膜厚度，甚至雙層薄膜之厚度。利用浸潤式塗佈的特性，我們提出在特定條件下可使用平面基材上之薄膜厚度來印證滾筒上薄膜厚度的方法，並利用商用機台確認滾筒上的薄膜厚度，解決了一般量測儀器對於彎曲表面基材進行薄膜厚度量測上的不足，因而滾筒上薄膜厚度的精密量測為此篇論文研究之重點。	zh_TW
dc.description.abstract	Abstract In lithography, nanoimprint is one of the common methods for pattern transfer. The fabrication and production of large-area patterns made by roll-to-roll process is more effective by using nanoimprint process. We used the interference lithography to fabricate sub-wavelength structures on planar substrates. The process was also applied to the roller surface. Because of the demands of the interference lithography and the subsequent process, the thickness of the thin film on the roller should be confirmed in these processes. Therefore, in this work we try to develop a focusing beam splitter reflectometer to measure the thicknesses of thin film coated not only on a planar substrate but also on a roller. Furthermore, each thickness of a double-layer film stack can be measured by using the reflectometer. To confirm the film thickness on the roller, we demonstrate a new method for thickness measurement. Because of the characteristics of dip coating, the film thickness on the roller is confirmed by comparing with the one on a planar substrate. The lack of a nonplanar substrate measurement is overcome by our home-made reflectometer. Nevertheless, this thesis is focused on the measurement of a roller’s film thickness.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T04:19:57Z (GMT). No. of bitstreams: 1 ntu-98-R96941103-1.pdf: 4391706 bytes, checksum: f3e0ab5c4a19aaf555f4a038dfbf4573 (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	Contents 摘要 III Abstract IV Statement of Contributions V Contents 1 List of Figures 3 Chapter 1. Introduction 8 1-1 Motivation 8 1-2 Organization of the Thesis 14 Chapter 2. A Beam splitting Reflectometer 15 2-1 Overview 15 2-2 Beam Splitting Reflectometer 16 2-3 Measurement of Reflectance 21 2-4 Simulation Program and Genetic Algorithm 28 Chapter 3. Film Thickness on a Planar Substrate 33 3-1 Overview 33 3-2 Measurement of Film Thickness on a Planar Substrate 35 3-2-1 Surface Roughness of the Silicon Wafer 35 3-2-2 Measurement Results and Discussion 38 3-3 Confirmation of Film Thickness on a Planar Substrate 47 3-4 Simultaneous Measurement of Double Film Thicknesses 56 3-5 Measurement of Double Film Thicknesses Layer by Layer 62 3-6 Summary 67 Chapter 4. Measurement of Film Thickness on a Roller 68 4-1 Overview of Thin Film Coating on a Cylindrical Substrate 68 4-2 Thin Film Coating on a Roller 69 4-3 Focusing Beam Splitting Reflectometer 73 4-4 Measurement of Film Thickness on a Roller 80 4-4-1 Surface Roughness of the Roller 80 4-4-2 Measurement Results of Photoresist 83 4-4-3 Confirmation of PR Film Thickness on the Roller 89 4-5 Measurement of a Double Layer Film Stack Thickness on a Roller by Using Layer by Layer Method 99 4-6 Summary 104 Chapter 5. Conclusion and Future Work 105 5-1 Conclusion 105 5-2 Future Work 106 References 108
dc.language.iso	zh-TW
dc.subject	薄膜厚度	zh_TW
dc.subject	浸潤式塗佈	zh_TW
dc.subject	反射儀	zh_TW
dc.subject	滾筒	zh_TW
dc.subject	reflectometer	en
dc.subject	dip coating	en
dc.subject	roller	en
dc.subject	thickness of thin film	en
dc.title	利用分光式反射儀量測滾筒上之薄膜厚度	zh_TW
dc.title	Measurement of Thin Film Thickness on Roller by Using Beam Splitting Reflectometer	en
dc.type	Thesis
dc.date.schoolyear	98-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳學禮(Hsuen-Li Chen),林俊宏(Chun-Hung Lin),賴富德(Fu-Der Lai)
dc.subject.keyword	浸潤式塗佈,薄膜厚度,反射儀,滾筒,	zh_TW
dc.subject.keyword	dip coating,thickness of thin film,reflectometer,roller,	en
dc.relation.page	109
dc.rights.note	有償授權
dc.date.accepted	2009-10-27
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	光電工程學研究所	zh_TW
顯示於系所單位：	光電工程學研究所

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