NOC:Sensors and Actuators


Lecture 1 - Sensors - Part 1


Lecture 2 - Sensors - Part 2


Lecture 3 - Sensors - Part 3


Lecture 4 - Sensors - Part 4


Lecture 5 - Sensors - Part 5


Lecture 6 - Recent Microsensors based system: E-Nose


Lecture 7 - Recent Microsensors based system: Force Sensor, Basics of Actuators


Lecture 8 - Microfabrication Basics


Lecture 9 - Introduction to cleanroom


Lecture 10 - Cleanroom Protocols


Lecture 11 - Introduction to Cleanroom Equipments: Micromanipulator, Stereo Microscope, metallurgical microscope, Incubator, Static Incubator, Inverted Microscope, Oven, Autoclave, Sonicator


Lecture 12 - Fabrication Process Flow of Microheater and Micromachining


Lecture 13 - Wafer Bonding and PDMS moulding


Lecture 14 - Overview of MEMS based sensors


Lecture 15 - Introduction to Cleanroom Equipments: Impedance Analyzer, LCR Meter, Micromanipulator


Lecture 16 - Introduction to Cleanroom Equipments: Biosafety Hood and safety


Lecture 17 - Process Sensor Process Flow, Cell based Diagnosis Device


Lecture 18 - Basics of Patterning and Drug Screening Device


Lecture 19 - MEMS applications in automobile system


Lecture 20 - Arduino Interfacing for Sensors and Actuators


Lecture 21 - Demonstration of DC Motor as an actuator


Lecture 22 - Demonstration of peristaltic pump using Arduino


Lecture 23 - Demonstration of PDMS Patterning


Lecture 24 - Crystal Orientation and Si-SiO2 interface


Lecture 25 - Surface Profilometry and Physical Vapour Deposition Techniques


Lecture 26 - Introduction to COMSOL Multiphysics and Modelling Examples


Lecture 27 - Demonstration of Thermal Actuators using COMSOL


Lecture 28 - Demonstration of MQ3 Gas sensor using Arduino


Lecture 29 - Photolithography - Part 1


Lecture 30 - Signal Conditioning Circuit for Temperature Sensors


Lecture 31 - Demonstration of Microheaters in COMSOL Multiphysics


Lecture 32 - Introduction to Cleanroom facilities for biomedical applications


Lecture 33 - Physical Deposition Techniques


Lecture 34 - Demonstration on peristaltic pump in cleanroom


Lecture 35 - Installation of Oxygen Plasma System


Lecture 36 - Demonstration of IR Based Sensor using Arduino


Lecture 37 - Illustration of fabricated Microfluidic Device for biochips with PDMS moulding


Lecture 38 - Photolithography - Part 2


Lecture 39 - Photolithography - Part 3


Lecture 40 - Introduction and Demonstration of Shape Memory Alloy


Lecture 41 - Applications of Shape Memory Alloy as a light weight actuators


Lecture 42 - Discussion on Fabricated Sensor with Silicon as Substrate


Lecture 43 - Discussion and Microscopic Inspection of Fabricated Sensor with Silicon as a Substrate


Lecture 44 - Tissue Deparaffinization for Biosensors


Lecture 45 - Clean room guidelines and Cancer Dianostic tool


Lecture 46 - Basics of Pressure Sensor and Demonstration using Arduino Microcontroller


Lecture 47 - Basics of Stepper Motor and Demonstration using Arduino Microcontroller


Lecture 48 - Microscopic Inspection of Diced wafers and CNT Sensing Layer for fabricated sensor


Lecture 49 - Process flow for Microcantilever for Mechanical Phenotyping of breast cancer tissues


Lecture 50 - Applications of microcantilever for Mechanical Phenotyping of breast cancer tissues


Lecture 51 - Installation and Introduction to Physical Vapour Deposition System


Lecture 52 - Human Machine Interface for Controlling Deposition System


Lecture 53 - Flexible MEMS for phenotyping tissue properties - I


Lecture 54 - Flexible MEMS for phenotyping tissue properties - II


Lecture 55 - System Demonstration for Physical Vapor Deposition


Lecture 56 - Introduction to CAD Modelling - I


Lecture 57 - Introduction to CAD Modelling - II


Lecture 58 - Biosensors for ETM Phenotyping of breast cancer tissues for better prognosis


Lecture 59 - Biosensors for Electrothermal sensor


Lecture 60 - MEMS based sensor for catheter contact force measurement


Lecture 61 - Microfluidics based Drug Screening


Lecture 62 - Basic aspects of 3D Printing


Lecture 63 - 3D Printing Materials and Demonstration of Remote 3D Printing