ASHISH PATIL's Videos (The International NanoScience Community) - The International NanoScience Community 2014-11-24T15:15:30Z http://www.nanopaprika.eu/video/video/listForContributor?screenName=0usws35a8bq3b&rss=yes&xn_auth=no Micro and nanotechnology revolutionising medicine tag:www.nanopaprika.eu,2009-05-28:1612324:Video:46473 2009-05-28T01:35:23.387Z ASHISH PATIL http://www.nanopaprika.eu/profile/ASHISHPATIL <a href="http://www.nanopaprika.eu/video/micro-and-nanotechnology"><br /> <img src="http://api.ning.com/files/uK3oxV61uWy5rhF*I-fJPNUgsHqmKNVvNzJwFIXWz4kETl3PfnT5DAMcdZWHa3SkdgA89WORVDlBGfKytFWhXsKmslmI2I79/294629519.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a> <a href="http://www.nanopaprika.eu/video/micro-and-nanotechnology"><br /> <img src="http://api.ning.com/files/uK3oxV61uWy5rhF*I-fJPNUgsHqmKNVvNzJwFIXWz4kETl3PfnT5DAMcdZWHa3SkdgA89WORVDlBGfKytFWhXsKmslmI2I79/294629519.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a> Nanobiotechnology: Putting Molecular Machines to Work (Enzyme Immobilization) tag:www.nanopaprika.eu,2009-05-25:1612324:Video:46136 2009-05-25T21:34:54.500Z ASHISH PATIL http://www.nanopaprika.eu/profile/ASHISHPATIL <a href="http://www.nanopaprika.eu/video/nanobiotechnology-putting"><br /> <img alt="Thumbnail" height="180" src="http://api.ning.com/files/ovt*YessJyFUQM*essYl4OMhg4WPmGp-JthXnEsWCq9qjumfJ0TTLWu3o6mQf3K9*hb5L758hstIuiOilQy-zyBxkoxaSbGT/293089488.jpeg?width=240&amp;height=180" width="240"></img><br /> </a> <br></br>Describes, in general terms, the concepts of high-throughput protein expression coupled with immobilizations in functionalized nanoporous materials to carry out multiple kinds of diverse reactions. The animations also illustrate that immobilized enzymes potentially can refold inactive… <a href="http://www.nanopaprika.eu/video/nanobiotechnology-putting"><br /> <img src="http://api.ning.com/files/ovt*YessJyFUQM*essYl4OMhg4WPmGp-JthXnEsWCq9qjumfJ0TTLWu3o6mQf3K9*hb5L758hstIuiOilQy-zyBxkoxaSbGT/293089488.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a><br />Describes, in general terms, the concepts of high-throughput protein expression coupled with immobilizations in functionalized nanoporous materials to carry out multiple kinds of diverse reactions. The animations also illustrate that immobilized enzymes potentially can refold inactive proteins. Self-Assembling Nanoliter Containers tag:www.nanopaprika.eu,2009-05-25:1612324:Video:46134 2009-05-25T21:30:11.882Z ASHISH PATIL http://www.nanopaprika.eu/profile/ASHISHPATIL <a href="http://www.nanopaprika.eu/video/selfassembling-nanoliter"><br /> <img alt="Thumbnail" height="180" src="http://api.ning.com/files/ovt*YessJyELiuIAw0L4Y7yC8Zgs1pKKBWHYREbkwghdJFHi1rc-bbAJaITwi2IljQPUK2vAwLipO3CT4DcuKRPDdxuXTYU6/293086922.jpeg?width=240&amp;height=180" width="240"></img><br /> </a> <br></br>Nanotechnology, the new science of extreme miniaturization, is a rapidly growing field in engineering. On this size scale, it is extremely difficult and expensive to fabricate analogs of macroscale engineering, such as grippers. Drawing inspiration from biological fabrication in nature, engineers are seeking to self-assemble structures from the bottom up. This manufacturing paradigm has… <a href="http://www.nanopaprika.eu/video/selfassembling-nanoliter"><br /> <img src="http://api.ning.com/files/ovt*YessJyELiuIAw0L4Y7yC8Zgs1pKKBWHYREbkwghdJFHi1rc-bbAJaITwi2IljQPUK2vAwLipO3CT4DcuKRPDdxuXTYU6/293086922.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a><br />Nanotechnology, the new science of extreme miniaturization, is a rapidly growing field in engineering. On this size scale, it is extremely difficult and expensive to fabricate analogs of macroscale engineering, such as grippers. Drawing inspiration from biological fabrication in nature, engineers are seeking to self-assemble structures from the bottom up. This manufacturing paradigm has been largely unexplored in human engineering since the process is generally perceived to be indeterminable and uncontrollable.<br /> <br /> The Gracias Lab at Johns Hopkins has developed a relatively easy, precise, and cost-effective process by which the 2D templates of semi-tethered "faces" can self-assemble into controlled 3D structures by utilizing the natural phenomena of surface tension. This video highlights the development, manufacturing process, and proposed functions (cell encapsulation devices and controlled drug delivery carriers) of our self-assembling nanoliter containers. Gold Nanoparticles and Cancer Cell Detection tag:www.nanopaprika.eu,2009-05-25:1612324:Video:46132 2009-05-25T21:25:03.561Z ASHISH PATIL http://www.nanopaprika.eu/profile/ASHISHPATIL <a href="http://www.nanopaprika.eu/video/gold-nanoparticles-and-cancer"><br /> <img src="http://api.ning.com/files/ovt*YessJyHJ4jvQa3sGyY81O-O-7OZNjCd0m-jqEqeLN-pQK1mJZ5Jyp4o6JGcsmefXvphCc9GewDwtATElQBXKGfe*WIMH/293084073.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a> <a href="http://www.nanopaprika.eu/video/gold-nanoparticles-and-cancer"><br /> <img src="http://api.ning.com/files/ovt*YessJyHJ4jvQa3sGyY81O-O-7OZNjCd0m-jqEqeLN-pQK1mJZ5Jyp4o6JGcsmefXvphCc9GewDwtATElQBXKGfe*WIMH/293084073.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a> Low-density lipoprotein (LDL) particles that can be used as a safe and effective means of delivering anticancer drugs to brain tumors tag:www.nanopaprika.eu,2009-05-25:1612324:Video:46128 2009-05-25T21:18:35.837Z ASHISH PATIL http://www.nanopaprika.eu/profile/ASHISHPATIL <a href="http://www.nanopaprika.eu/video/lowdensity-lipoprotein-ldl"><br /> <img alt="Thumbnail" height="180" src="http://api.ning.com/files/ovt*YessJyHq*OYjpJ79OudmMe0KmGiJy2t6pHpooiy*6u2x3WG208W9WtWGCZNg8kLXUjvdA9iNXZbP8Knv*gWtmJGDp65L/293080687.jpeg?width=240&amp;height=180" width="240"></img><br /> </a> <br></br>Trudy Forte discusses her work developing nano-sized low-density lipoprotein (LDL) particles that can be used as a safe and effective means of delivering anticancer drugs to brain tumors, particularly the most common malignant brain tumor in adults and one of the deadliest forms of cancer. Series: "Lawrence Berkeley National Laboratory… <a href="http://www.nanopaprika.eu/video/lowdensity-lipoprotein-ldl"><br /> <img src="http://api.ning.com/files/ovt*YessJyHq*OYjpJ79OudmMe0KmGiJy2t6pHpooiy*6u2x3WG208W9WtWGCZNg8kLXUjvdA9iNXZbP8Knv*gWtmJGDp65L/293080687.jpeg?width=240&amp;height=180" width="240" height="180" alt="Thumbnail" /><br /> </a><br />Trudy Forte discusses her work developing nano-sized low-density lipoprotein (LDL) particles that can be used as a safe and effective means of delivering anticancer drugs to brain tumors, particularly the most common malignant brain tumor in adults and one of the deadliest forms of cancer. Series: "Lawrence Berkeley National Laboratory Summer