Gomorron Instagram! Welcome to the Swedish Medical Nanoscience Center at the KI campus in #Solna . I'm Ben Libberton and I'm a #Postdoc and Public Information Officer here. This week I'll be pulling back the curtain on life inside Center and hopefully making the case to you that research is more fun when it's diverse. #nanoscience #stockholm #nanotechnology #microbiology #infectionbiology #immunology #electronics #organicelectronics @libbertonben Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 6, 2016 kl. 10:54 PST
Gomorron Instagram! Welcome to the Swedish Medical Nanoscience Center at the KI campus in #Solna . I'm Ben Libberton and I'm a #Postdoc and Public Information Officer here. This week I'll be pulling back the curtain on life inside Center and hopefully making the case to you that research is more fun when it's diverse. #nanoscience #stockholm #nanotechnology #microbiology #infectionbiology #immunology #electronics #organicelectronics @libbertonben
Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 6, 2016 kl. 10:54 PST
A microbiologist, an electrical engineer and a signal processor walk into a lab... Not the start of a bad joke but what we do every day. So who do we need to do our work? Well, we sit down every week with an interdisciplinary team (not everyone is shown here) to discuss our experiments and listen to presentations. We all bring our own expertise but we're slowly becoming experts in the other fields as well. #interdisciplinary #solnacampus #ki #research #cellbiology #immunology #electronics #microbiology by @libbertonben Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 8, 2016 kl. 5:44 PST
A microbiologist, an electrical engineer and a signal processor walk into a lab... Not the start of a bad joke but what we do every day. So who do we need to do our work? Well, we sit down every week with an interdisciplinary team (not everyone is shown here) to discuss our experiments and listen to presentations. We all bring our own expertise but we're slowly becoming experts in the other fields as well. #interdisciplinary #solnacampus #ki #research #cellbiology #immunology #electronics #microbiology by @libbertonben
Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 8, 2016 kl. 5:44 PST
So let's meet the people fighting the good fight against antibiotic resistance. Marta & Haris are working with a Nanowell slide to test the resistance profile of bacteria. The Nanowell slide can fit 672 Wells in the area of a microscope slide. That means we can grow 672 bacterial cultures at the same time which will replace 7 x 96-well plates. But there's more... #nanotechnology #nanoscience #microbiology #antibioticresistance #antibiotics #nanoscience #kth in collaboration with our friends @kthstudent http://dx.doi.org/10.1128/JCM.01161-14 by @libbertonben Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 9, 2016 kl. 3:19 PST
So let's meet the people fighting the good fight against antibiotic resistance. Marta & Haris are working with a Nanowell slide to test the resistance profile of bacteria. The Nanowell slide can fit 672 Wells in the area of a microscope slide. That means we can grow 672 bacterial cultures at the same time which will replace 7 x 96-well plates. But there's more... #nanotechnology #nanoscience #microbiology #antibioticresistance #antibiotics #nanoscience #kth in collaboration with our friends @kthstudent http://dx.doi.org/10.1128/JCM.01161-14 by @libbertonben
Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 9, 2016 kl. 3:19 PST
We had a question before about how can we make agar plates more advanced, well perhaps you can see an application with Susi's invention. She also used the conductive 'plastic' PEDOT to develop a flat sensor that can detect the integrity of a cell monolayer. It does this automatically so you don't need to be hanging over your culture dish all the time. She recently presented the work @ucla and people were very excited http://dx.doi.org/10.1039/C5TB00381D photos of Susi were taken by Marc N. Roseboro from David Geffen School of Medicine. #LA #organicbioelectronics #organicelectronics #ki #solnacampus #cellbiology #interdisciplinary #infectionbiology #presentation #postdoc #phd #spectroscopy by @libbertonben Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 11, 2016 kl. 2:31 PST
We had a question before about how can we make agar plates more advanced, well perhaps you can see an application with Susi's invention. She also used the conductive 'plastic' PEDOT to develop a flat sensor that can detect the integrity of a cell monolayer. It does this automatically so you don't need to be hanging over your culture dish all the time. She recently presented the work @ucla and people were very excited http://dx.doi.org/10.1039/C5TB00381D photos of Susi were taken by Marc N. Roseboro from David Geffen School of Medicine. #LA #organicbioelectronics #organicelectronics #ki #solnacampus #cellbiology #interdisciplinary #infectionbiology #presentation #postdoc #phd #spectroscopy by @libbertonben
Ett inlägg delat av Karolinska Institutet (@karolinskainstitutet) Mar 11, 2016 kl. 2:31 PST