Team:HKU-HKBU/Assembly

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(Step 5. BactoMotor in Action)
(Step 5. BactoMotor in Action)
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==='''Step 5. BactoMotor in Action'''===
==='''Step 5. BactoMotor in Action'''===
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As the Bacteria swims, they will push the motor into rotation. (clockwise as demonstrated in Fig. 5a, 5b)[[Image:HKU-HKBU ass f4a.PNG|thumb|200px|center|'''Fig.5a:''' The Directional Rotation of the Micro-Motor achieved by the Directional Controller Module]][[Image:HKU-HKBU ass f4b.gif|thumb|200px|center|'''Fig.5b:''' An animation showing the BactoMotor in action.]]
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As the Bacteria swims, they will push the motor into rotation. (clockwise as demonstrated in Fig. 5a, 5b)[[Image:HKU-HKBU ass f4a.PNG|thumb|300px|center|'''Fig.5a:''' The Directional Rotation of the Micro-Motor achieved by the Directional Controller Module]][[Image:HKU-HKBU ass f4b.gif|thumb|200px|center|'''Fig.5b:''' An animation showing the BactoMotor in action.]]
==='''Step 6. Using the Speed Controller'''===
==='''Step 6. Using the Speed Controller'''===

Revision as of 17:23, 21 October 2009

Contents

Assembly of BactoMotor

Introduction

Our BactoMotor is comprised of three devices –Micro-Motor,Directional Controller and Speed Controller.

As their names indicate, the Micro-Motoris the core part of the BactoMotor, and it is small (micrometer scale). The Directional Controller ensures directional propelling force generated by the bacteria, and therefore directional rotation of the motor. The Speed Controller is used to implement a speed control over the motor.

Each device is designed, engineered and tested seperately. All are functional on their own. After testing and fine-tuning, the devices are assembled to form the final System BactoMotor. As a result, we would have a micrometer-scale BactoMotor with unidirectional rotation and speed controller.

Prodecures

Step 1. Installation of Micro-Motor

The Micro-Motor will be installed into a microchip container (Fig.1a, 1b) with separated chambers. Only one side of the arms of the motor is coated with Biotin (see the Directional Controller).
Fig.1a: Photos of the microchips for micro-motor installation; A: A photo showing the chambers and the valve systems; B: Valve 3 closed; C: Valves 4, 5, 6 and 7 are closed while water is injected into the channel; D: Valve 1 and 7 closed, enclosing the crystal violet solution in the lower 4 chambers; E: The photo of the chamber system
Fig.1b: A diagram showing the Micro-Motor Module installed into a chamber inside the microchip.

Step 2. Introduction of Bacteria

The Bacteria with both Directional Controller and Speed Controller Modules implemented will be introduced to the Micro-Motor (Fig.2).
Fig.2: Introduction of Bacteria into the Micro-Motor

Step 3. Action of Directional Controller

Under the effect of the Directional Controller, the Bacteria will bind onto the Micro-Motor directionally. (Fig.3a, 3b)
Fig.3a: The bacteria bounded to the Micro-Motor through action of the Directional Controller Module (Plan View)
Fig.3b: A zoomed view of the Directional Controller Module at work.

Step 4. Removing Excessive Bacteria

The extra bacterial cells will be removed by medium flush. (Fig. 4)
Fig.4: Bacteria not binding to the Micro-Motor will be flushed away by medium flush.

Step 5. BactoMotor in Action

As the Bacteria swims, they will push the motor into rotation. (clockwise as demonstrated in Fig. 5a, 5b)
Fig.5a: The Directional Rotation of the Micro-Motor achieved by the Directional Controller Module
Fig.5b: An animation showing the BactoMotor in action.

Step 6. Using the Speed Controller

To utilize the Speed Controller Module, an inducer is added to the Microchip containing the Micro-Motor. Increase in concentration of the inducer will lead to an overall increase in rotational speed of the Bacto-Motor. (Fig. 6a, 6b)
Fig.6a: On additional of 0.5 effective dose of inducer
Fig.6b: On additional of 1.0 effective dose of inducer


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