Woodhead Publishing Series in Electronic and Optical Materials [Updated at 2016.03.24]

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Number of Files:
84
Content Size:
2.4GB
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2016-03-25
Keywords:
WoodheadPublishingSeriesinElectronicandOpticalMaterialsUpdatedat20160324
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File Name
Size
01. Circuit Analysis (1997).pdf
10.42MB
02. Signal Processing in Electronic Communications - For Engineers and Mathematicians (1997).pdf
11.61MB
03. Pattern Recognition and Image Processing (1998).pdf
86.04MB
04. Digital filters and signal processing in electronic engineering (1998).pdf
10.9MB
05. Cable Engineering for Local Area Networks (2000).pdf
40.79MB
06. Designing a Structured Cabling System to Iso 11801 2nd ed (2002).pdf
2.31MB
07. Microscopy Techniques for Materials Science (2002).pdf
11.35MB
08. Materials for energy conversion devices (2005).pdf
4.93MB
09. Digital Image Processing - Mathematical and Computational Methods (2005).pdf
67.49MB
10. Nanolithography and Patterning Techniques in Microelectronics (2005).pdf
18.79MB
11. Digital Signal Processing - Mathematical and Computational Methods, Software Development and Applications (2006).pdf
34.6MB
12. Handbook of Advanced Dielectric, Piezoelectric and Ferroelectric Materials (2008).pdf
41.79MB
13. Materials for Fuel Cells (2008).pdf
5.1MB
14. Solid-state Hydrogen Storage Materials and Chemistry (2008).pdf
22.82MB
15. Laser Cooling of Solids (2009).pdf
40.57MB
16. Polymer Electrolytes - Fundamentals and Applications (2010).pdf
9.28MB
17. Advanced Piezoelectric Materials - Science and Technology (2010).pdf
22.64MB
18. Optical Switches - Materials and Design (2010).pdf
13.99MB
19. Advanced Adhesives in Electronics - Materials, properties and applications (2011).pdf
11.67MB
20. Thin Film Growth - Physics, materials science and applications (2011).pdf
31.68MB
21. Electromigration in Thin Films and Electronic Devices - Materials and Reliability (2011).pdf
6.71MB
22. In situ Characterization of Thin Film Growth (2011).pdf
10.01MB
23. Silicon-Germanium (SiGe) Nanostructures - Production, Properties and Applications in Electronics (2011).pdf
25.85MB
24. High Temperature Superconductors (2011).pdf
20.67MB
25. Introduction to the physics of nanoelectronics (2012).pdf
17.03MB
26. Printed Films - Materials science and applications in sensors, electronics and photonics (2012).pdf
19.69MB
27. Laser growth and processing of photonic devices (2012).pdf
49.2MB
28. Quantum Optics with Semiconductor Nanostructures (2012).pdf
29.22MB
29. Ultrasonic Transducers - Materials and design for sensors, actuators and medical applications (2012).pdf
30.53MB
30. Waste electrical and electronic equipment (WEEE) handbook (2012).pdf
8MB
31. Applications of ATILA FEM software to smart materials - Case studies in designing devices (2013).pdf
44.87MB
32. MEMS for automotive and aerospace applications (2013).pdf
14.69MB
33. Semiconductor Lasers - Fundamentals and Applications (2013).pdf
23.16MB
34. Handbook of terahertz technology for imaging, sensing and communications (2013).pdf
39.6MB
35. Handbook of Solid-State Lasers - Materials, Systems And Applications (2013).pdf
49.98MB
36. Organic light-emitting diodes (OLEDs) - Materials, devices and applications (2013).pdf
31.91MB
37. Lasers for medical applications - Diagnostics, therapy and surgery (2013).pdf
38.72MB
38. Semiconductor Gas Sensors (2013).pdf
23.52MB
39. Handbook of organic materials for optical and (opto)electronic devices - Properties and applications (2013).pdf
16.04MB
40. Metallic Films for Electronic, Optical and Magnetic Applications - Structure, Processing and Properties (2014).pdf
35.24MB
41. Handbook of Laser Welding Technologies (2013).pdf
38.86MB
42. Nanolithography - The Art of Fabricating Nanoelectronic and Nanophotonic Devices and Systems (2014).pdf
41.63MB
43. Laser Spectroscopy for Sensing - Fundamentals, techniques and applications (2014).pdf
13.34MB
44. Chalcogenide glasses - Preparation, properties and applications (2014).pdf
45.28MB
45. Handbook of MEMS for wireless and mobile applications (2013).pdf
48.88MB
46. Subsea Optics and Imaging (2013).pdf
65.67MB
47. Carbon Nanotubes and Graphene for Photonic Applications (2013).pdf
31.22MB
48. Optical Biomimetics - Materials and applications (2012).pdf
7.34MB
49. Optical Thin Films and Coatings - From materials to applications (2013).pdf
32.96MB
50. Computer Design of Diffractive Optics (2012).pdf
39.89MB
51. Smart sensors and MEMS - Intelligent devices and microsystems for industrial applications (2014).pdf
51.89MB
52. Fundamentals of Femtosecond Optics (2013).pdf
15.51MB
53. Nanostructured Semiconductor Oxides for the Next Generation of Electronics and Functional Devices (2014).pdf
17.7MB
54. Nitride semiconductor light-emitting diodes (LEDs) - Materials, performance and applications (2014).pdf
57.55MB
55. Sensor Technologies for Civil Infrastructures Vol. 1 - Sensing Hardware and Data Collection (2014).pdf
43.94MB
56. Sensor Technologies for Civil Infrastructures Vol. 2 - Applications in Structural Health Monitoring (2014).pdf
15.14MB
57. Graphene - Properties, Preparation, Characterisation and Devices (2014).pdf
27.56MB
58. Silicon-on-Insulator (SOI) Technology - Manufacture and Applications (2014).pdf
18.87MB
59. Biological Identification - DNA Amplification and Sequencing, Optical Sensing, Lab-On-chip and Portable Systems (2014).pdf
17.85MB
60. High Performance Silicon Imaging - Fundamentals and Applications of CMOS and CCD Sensors (2014).pdf
20.46MB
61. Nanosensors for Chemical and Biological Applications (2014).pdf
11.46MB
62. Composite Magnetoelectrics - Materials, Structures, and Applications (2015).pdf
37.94MB
63. Quantum Information Processing with Diamond - Principles and Applications (2014).pdf
7.11MB
64. Advances in Non-Volatile Memory and Storage Technology (2014).pdf
39.55MB
65. Laser Surface Engineering - Processes and Applications (2015).pdf
26.28MB
66. Power Ultrasonics - Applications of High-Intensity Ultrasound (2015).pdf
96.2MB
67. Advances in delay-tolerant networks (dtns) - architecture and enhanced performance (2014).pdf
7.75MB
68. Handbook of Flexible Organic Electronics - Materials, Manufacturing and Applications (2014).pdf
25.93MB
69. Machine-to-Machine (M2M) Communications - Architecture, Performance and Applications (2015).pdf
18.28MB
70. Ecological Design of Smart Home Networks - Technologies, Social Impact and Sustainability (2015).pdf
6.31MB
71. Industrial Tomography - Systems and Applications (2015).pdf
58.59MB
72. Vehicular Communications and Networks - Architectures, Protocols, Operation and Deployment (2015).pdf
15.58MB
73. Modeling, Characterization and Production of Nanomaterials - Electronics, Photonics and Energy Applications (2015).pdf
49.67MB
74. Reliability Characterisation of Electrical and Electronic Systems (2015).pdf
12.6MB
76. Epitaxial Growth of Complex Metal Oxides (2015).pdf
35.92MB
77. Semiconductor Nanowires Materials, Synthesis, Characterization and Applications (2015).pdf
53.63MB
78. Superconductors in the Power Grid - Materials and Applications (2015).pdf
29.34MB
79. Optofluidics, Sensors and Actuators in Microstructured Optical Fibers (2015).pdf
26.85MB
80. Magnetic Nano- and Microwires - Design, Synthesis, Properties and Applications (2015).pdf
59.14MB
81. Robust Design of Microelectronics Assemblies Against Mechanical Shock, Temperature and Moisture (2015).pdf
18.64MB
82. Biomimetic Technologies - Principles and Applications (2015).pdf
31.15MB
83. Directed Self-assembly of Block Co-polymers for Nano-manufacturing (2015).pdf
25.14MB
84. Photodetectors - Materials, Devices and Applications (2016).pdf
55MB
86. Advances in Chemical Mechanical Planarization (CMP) (2016).pdf
22.12MB

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