| Search relates to : |
Action A (classic collaboration research projects) |
| Looking for : |
a project to join |
|
|
| Title : |
Mr. Dr. |
| Name : |
Rohit Mishra |
| Country : |
Ireland |
| Institute name : |
Dublin City University |
| Department / section : |
Fraunhofer Project Center for Embedded Bioanalytical Systems at DCU (FPC@DCU) |
| E-mail : |
rohit.mishra@dcu.ie |
| Telephone : |
+35317007870 |
| Web address : |
www.dcu.ie/fpc |
|
|
| My expertise / skills : |
FPC@DCU - the Fraunhofer Project Centre for Embedded Bioanalytical Systems at Dublin City University - develops microfluidics-enabled solutions for decentralised testing of biosamples at high-technology readiness levels (TRLs). Among the main fields of application of FPC@DCU’s translational research and technology development (RTD) activities are point-of-use systems supporting decentralised bioanalytical testing in the context of healthcare, pharma, veterinary medicine, agrifood and life-science research as well as monitoring of the environment, infrastructures and industrial processes. In particular for the Biodeversa call we can partner with consortiums looking to develop detection systems to collect data from bioanalytical testing in remote/point-of-use locations in the context of T2.1. Impacts of global change factors on biodiversity-related health issues; T2.2. Understanding the transition steps from biological hazards to infectious disease risk and pandemic risk in a global change world among others. In a nutshell, we develop microfluidic systems that can enable the data collection at the point of use/point of need for monitoring the biodiversity and its impact on health and the environment (detection of biomarkers, contaminants, molecules, cells and pathogens from samples ranging from blood to water, plant, animal environmental samples. |
Disciplines
I am working on : |
Infectious Diseases
Materials science and engineering
Materials Physics
Diagnosis (microarray and biosensing devices for early / precise detection of diseases)
Public Health and Environmental Health
Physics of Fluids
Mechanical engineering
Bioengineering
Selection using molecular markers
Medical Engineering
Chemical Engineering
|
| Keywords : |
microfluidics, point-of-use detection, sensors, biosensors, disease diagnostics, environmental monitoring devices, detection devices |
| Project description : |
In particular for the Biodeversa call we can partner with consortiums looking to develop detection systems to collect data from bioanalytical testing in remote/point-of-use locations in the context of T2.1. Impacts of global change factors on biodiversity-related health issues; T2.2. Understanding the transition steps from biological hazards to infectious disease risk and pandemic risk in a global change world among others. In a nutshell, we develop microfluidic systems that can enable the data collection at the point of use/point of need for monitoring the biodiversity and its impact on health and the environment (detection of biomarkers, contaminants, molecules, cells and pathogens from samples ranging from blood to water, plant, animal environmental samples. |
| Networking opportunities : |
None planned as of yet |
