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Title | dalnoki-veress |
Description | home people current members alumni prospective members Kari Dalnoki-Veress publications news pictures group pictures sciart Menu dalnoki-veress lab experi |
Keywords | N/A |
WebSite | kdvlab.net |
Host IP | 198.49.23.145 |
Location | United States |
Site | Rank |
US$1,911
Last updated: 2023-05-20 04:04:41
kdvlab.net has Semrush global rank of 0. kdvlab.net has an estimated worth of US$ 1,911, based on its estimated Ads revenue. kdvlab.net receives approximately 220 unique visitors each day. Its web server is located in United States, with IP address 198.49.23.145. According to SiteAdvisor, kdvlab.net is safe to visit. |
Purchase/Sale Value | US$1,911 |
Daily Ads Revenue | US$1 |
Monthly Ads Revenue | US$52 |
Yearly Ads Revenue | US$635 |
Daily Unique Visitors | 14 |
Note: All traffic and earnings values are estimates. |
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kdvlab.net. | A | 3600 | IP: 198.49.23.145 |
kdvlab.net. | A | 3600 | IP: 198.49.23.144 |
kdvlab.net. | A | 3600 | IP: 198.185.159.144 |
kdvlab.net. | A | 3600 | IP: 198.185.159.145 |
kdvlab.net. | NS | 3600 | NS Record: ns1.netfirms.com. |
kdvlab.net. | NS | 3600 | NS Record: ns2.netfirms.com. |
kdvlab.net. | MX | 3600 | MX Record: 30 mx.kdvlab.net. |
kdvlab.net. | TXT | 3600 | TXT Record: v=spf1 ip4:66.96.128.0/18 ?all |
home people current members alumni prospective members Kari Dalnoki-Veress publications news pictures group pictures sciart Menu dalnoki-veress lab experiments in soft and living matter home people current members alumni prospective members Kari Dalnoki-Veress publications news pictures group pictures sciart Department of Physics & Astronomy , McMaster University RESEARCH OVERVIEW The main focus of our research group is the study soft and living matter at surfaces and interfaces . The physics of soft materials is distinct from hard matter as the weaker intermolecular bonds result in a large response to external stresses. We study mainly polymeric materials, but also C. elegans (a small nematode), bacteria, living cells and soft-colloidal systems. Understanding material properties at a fundamental level is crucial to the development of new technologies. A surprising aspect of these materials is that on small length scales, like in thin films or coatings, these materials can have |
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