- Page 4 and 5: Kourosh Kalantar-zadeh RMIT Univers
- Page 6 and 7: Acknowledgments We have been fortun
- Page 8 and 9: viii Contents Chapter 3: Transducti
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60 Chapter 2: Sensor Characteristic
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62 Chapter 2: Sensor Characteristic
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64 Chapter 3: Transduction Platform
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66 Chapter 3: Transduction Platform
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136 Chapter 4: Nano Fabrication and
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212 Chapter 5: Characterization Tec
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Chapter 6: Inorganic Nanotechnology
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6.2 Density and Number of States 28
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6.2 Density and Number of States 28
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6.2 Density and Number of States 28
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2 6.2 Density and Number of States
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6.2 Density and Number of States 29
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6.2 Density and Number of States 30
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6.2 Density and Number of States 30
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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6.3.7 Surface Modification 6.3 Gas
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6.3 Gas Sensing with Nanostructured
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6.3 Gas Sensing with Nanostructured
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This is the dispersion relation for
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6.4 Phonons in Low Dimensional Stru
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335 vibrational degrees of freedom
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337 ing ballistic transport of elec
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339 Fig. 6.36 Nanoresonators made o
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6.5 Nanotechnology Enabled Mechanic
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6.5 Nanotechnology Enabled Mechanic
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6.5 Nanotechnology Enabled Mechanic
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6.5 Nanotechnology Enabled Mechanic
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6.6 Nanotechnology Enabled Optical
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6.6 Nanotechnology Enabled Optical
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6.6 Nanotechnology Enabled Optical
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6.6 Nanotechnology Enabled Optical
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6.7 Magnetically Engineered Spintro
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6.7 Magnetically Engineered Spintro
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6.7 Magnetically Engineered Spintro
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ferromagnetic haematite (a form of
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References 365 21 E. Comini, G. Fag
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References 367 58 D. E. Williams an
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References 369 96 J. J. Shi, Y. F.
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Chapter 7: Organic Nanotechnology E
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7.2 Surface Interactions 373 can be
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7.2 Surface Interactions 375 Carbox
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7.2 Surface Interactions 377 Fig. 7
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7.2 Surface Interactions 379 There
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Fig. 7.12 The schematic of physical
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Fig. 7.13 Formation of SAMs. 7.2 Su
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7.2 Surface Interactions 385 ple, t
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7.3 Surface Materials and Surface M
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7.4 Proteins in Nanotechnology Enab
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7.4 Proteins in Nanotechnology Enab
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7.4 Proteins in Nanotechnology Enab
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7.4.4 Using Proteins as Nanodevices
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Fig. 7.36 The general structure of
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7.4 Proteins in Nanotechnology Enab
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7.4 Proteins in Nanotechnology Enab
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+ 7.4 Proteins in Nanotechnology En
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7.4 Proteins in Nanotechnology Enab
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7.5 Nano-sensors based on Nucleotid
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Fig. 7.57 The structure of DNA stra
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7.5 Nano-sensors based on Nucleotid
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7.5 Nano-sensors based on Nucleotid
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7.5 Nano-sensors based on Nucleotid
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7.6 Sensors Based on Molecules with
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7.6 Sensors Based on Molecules with
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7.8 Biomagnetic Sensors 7.8 Biomagn
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7.9 Summary 471 metal oxides, carbo
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References 473 19 T. Kunitake, Ange
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63 J. X. Huang, S. Virji, B. H. Wei
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References 477 105 M. Plomer, G. G.
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References 479 145 R. F. Service, S
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7.8 References 481 185 J. Wang, D.
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Remote plasma enhanced CVD (RPECVD)
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Thin film equivalent circuit ... 32
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Optical waveguides ................
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Semiconductor-semiconductor junctio
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About the Authors Dr. Kourosh Kalan