- Page 1: Prototyping of Microfluidic Systems
- Page 5 and 6: joining the substrate, optical laye
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- Page 9 and 10: Many thanks to the collaborators in
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- Page 13 and 14: Contents Preface i Abstract ii Resu
- Page 15 and 16: CONTENTS xiii 5 Optical waveguides
- Page 17 and 18: Chapter 1 Introduction In the last
- Page 19 and 20: 1.1 Downscaling 3 Figure 1.1: Scali
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- Page 24 and 25: 8 Theoretical aspects - microfluidi
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- Page 38 and 39: 22 Polymer materials - mainly Topas
- Page 40 and 41: 24 Polymer materials - mainly Topas
- Page 42 and 43: 26 Polymer materials - mainly Topas
- Page 44 and 45: 28 Polymer materials - mainly Topas
- Page 46 and 47: 30 Polymer materials - mainly Topas
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36 Fabrication methods results are
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38 Fabrication methods An impressiv
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40 Fabrication methods Average roug
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42 Fabrication methods a b c d e 1m
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44 Fabrication methods Generally, t
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46 Fabrication methods branch. Sec-
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48 Fabrication methods and the heig
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50 Fabrication methods Topas on Top
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52 Fabrication methods Table 4.2: C
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54 Fabrication methods Figure 4.8:
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56 Fabrication methods that the str
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58 Fabrication methods the excimer
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60 Fabrication methods 500 µm 500
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62 Fabrication methods wedge tests
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Chapter 5 Optical waveguides in Top
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5.1 Waveguide fabrication 67 It sho
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5.2 Propagation loss measurements 6
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5.3 Thermal treatment of the surfac
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5.3 Thermal treatment of the surfac
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5.3 Thermal treatment of the surfac
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5.4 Optical cuvette absorbance meas
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5.4 Optical cuvette absorbance meas
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5.5 A refractive index sensor 81 fr
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5.5 A refractive index sensor 83 a
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5.6 Summary 85 5.5.3 Improvements I
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Until further notice, Chapter 6 is
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96 Discussion and outlook transpare
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References [1] A. Manz, N. Graber,
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REFERENCES 101 [20] David Walton an
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REFERENCES 103 [41] Kiha Lee and Da
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REFERENCES 105 prototyping of polym
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REFERENCES 107 [81] M. Grumann, J.