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| {{BostonU_HW/CSS}} | | {{BostonU_HW/CSS}} |
| {{BostonU_HW/Nav_Bar}} | | {{BostonU_HW/Nav_Bar}} |
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| <html> | | <html> |
| <head> | | <head> |
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| <script src="https://2018.igem.org/Template:BostonU_HW/JS_jquery?action=raw&ctype=text/javascript" type="text/javascript"></script> | | <script src="https://2018.igem.org/Template:BostonU_HW/JS_jquery?action=raw&ctype=text/javascript" type="text/javascript"></script> |
| <script src="https://2018.igem.org/Template:BostonU_HW/JS_bootstrap_min?action=raw&ctype=text/javascript" type="text/javascript"></script> | | <script src="https://2018.igem.org/Template:BostonU_HW/JS_bootstrap_min?action=raw&ctype=text/javascript" type="text/javascript"></script> |
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| <!-- /* ADJUSTS DEFAULT iGEM CONTENT */--> | | <!-- /* ADJUSTS DEFAULT iGEM CONTENT */--> |
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| </style> | | </style> |
| </head> | | </head> |
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| <body> | | <body> |
− | <main>
| + | <main> |
− | <section class="section-hero section-shaped my-0">
| + | <section class="section-profile-cover section-shaped my-0"> |
− | <div class="shape shape-style-1 shape-default"></div> | + | <div class="shape shape-style-1 shape-default shape-skew alpha-4"></div> |
− | <div class="container shape-container d-flex align-items-center">
| + | <div class="col offset-4 py-5"> |
− | <div class="col px-0 pt-0"> | + | <div class="row"> |
− | <div class="row justify-content-center align-items-center"> | + | <div class="col-lg-6"> |
− | <div class="col-lg-7 text-center"> | + | |
| <!-- add an image of logo + slogan | | <!-- add an image of logo + slogan |
| <img src="#" style="width: 200px;" class="img-fluid"> | | <img src="#" style="width: 200px;" class="img-fluid"> |
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− | <div class="lead text-dark mt-4 mb-5">The Bridge Between Microfluidics and Benchtop Biology</div> | + | <div class="lead text-dark mb-5">The Bridge Between Microfluidics and Benchtop Biology</div> |
| </div> | | </div> |
| </div> | | </div> |
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| </div> | | </div> |
| </section> | | </section> |
− | <section class="section section-components pb-0" id="section-components"> | + | <section class="section section-skew"> |
| <div class="container"> | | <div class="container"> |
| + | <div class="card card-profile shadow mt--300"> |
| + | <div class="px-4 pt-3"> |
| <div class="row justify-content-center"> | | <div class="row justify-content-center"> |
| <div class="col-lg-12"> | | <div class="col-lg-12"> |
| + | <div class="px-4 pt-3"> |
| <!-- Basic elements --> | | <!-- Basic elements --> |
− | <h2> | + | <h2 class=display-3>Welcome to the 2018 BostonU HW Project: TERRA</p></h2> |
− | <span>Welcome to the 2018 BostonU HW Project: TERRA</span>
| + | <h6><div class= "text"> Microfluidics allows for the manipulation of small amounts of fluids on the scale of microliters and nanoliters. The application of microfluidics in synthetic biology research would enable scientists to design and implement synthetic biology systems more efficiently and with greater reproducibility. |
− | </h2>
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− | <h6> | + | |
− | <div class="text section">
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− | <div class= "text"> Microfluidics allows for the manipulation of small amounts of fluids on the scale of microliters and nanoliters. The application of microfluidics in synthetic biology research would enable scientists to design and implement synthetic biology systems more efficiently and with greater reproducibility.
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| <br> | | <br> |
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| While microfluidics is not new to the field of synthetic biology, it is not currently widely used or accessible to many benchtop biologists. The current “lab on a chip” microfluidic devices are highly specialized to each experiment and expensive to manufacture. In order to analyze the results of the experiments on microfluidic chips, many designs embed sensors directly into the chip. Many of these sensors, however, already exist as traditional analytical devices, such as plate readers. These devices could be used for analysis of microfluidic outputs if the outputs were dispensed selectively into a compatible vessel, such as a microtiter plate. If this were possible, synthetic biologists would be able to incorporate microfluidic chips to streamline their experiments without sinking time and money to design and fabricate highly specialized chips. | | While microfluidics is not new to the field of synthetic biology, it is not currently widely used or accessible to many benchtop biologists. The current “lab on a chip” microfluidic devices are highly specialized to each experiment and expensive to manufacture. In order to analyze the results of the experiments on microfluidic chips, many designs embed sensors directly into the chip. Many of these sensors, however, already exist as traditional analytical devices, such as plate readers. These devices could be used for analysis of microfluidic outputs if the outputs were dispensed selectively into a compatible vessel, such as a microtiter plate. If this were possible, synthetic biologists would be able to incorporate microfluidic chips to streamline their experiments without sinking time and money to design and fabricate highly specialized chips. |
| <br> | | <br> |
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| <li> <b>Software</b>: A software interface that will allow the user to detail the parameters of the experiment run on the chip; the specific location per output on the 96-well plate; and the amount of each output dispensed. </li> | | <li> <b>Software</b>: A software interface that will allow the user to detail the parameters of the experiment run on the chip; the specific location per output on the 96-well plate; and the amount of each output dispensed. </li> |
| </ol> | | </ol> |
− | </div>
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− | </div>
| + | </div></h6> |
− | </h6> | + | |
| </body> | | </body> |
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| </html> | | </html> |
| {{BostonU_HW/Javascript}} | | {{BostonU_HW/Javascript}} |