Carlotta Guiducci facts for kids
Quick facts for kids
Professor
Carlotta Guiducci
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Born | 1977 (age 47–48) |
Citizenship | Italy |
Education | Electrical engineering Electronic engineering |
Alma mater | University of Bologna |
Occupation | Principal investigator |
Awards | Intel Early Career Faculty Honor Program Award |
Scientific career | |
Institutions | École Polytechnique Fédérale de Lausanne (EPFL) |
Carlotta Guiducci (born 1977) is an Italian bio-engineer. A bio-engineer combines biology and engineering to solve problems. Her work focuses on studying tiny biological parts using special "lab-on-a-chip" devices. These devices are like tiny laboratories on a small chip.
She is currently an Associate Professor at EPFL (École polytechnique fédérale de Lausanne). This is a famous university in Switzerland. She also leads the Laboratory of Life Sciences Electronics at EPFL's campus in Lausanne.
Carlotta Guiducci's Career
Carlotta Guiducci started her journey in engineering at the University of Bologna in Italy. She studied both electrical and electronics engineering. In 2001, she earned her Master's degree.
She continued her studies and received her PhD in electrical engineering in 2005. Her PhD research was about creating electronic biosensors. These are devices that can detect biological substances. She also worked on developing tiny sensors for molecules.
After her PhD, she joined the Nanobiophysics Laboratory at ParisTech in 2005. Here, she worked as a postdoctoral research fellow. This means she did advanced research after getting her PhD. In 2007, she went back to the University of Bologna as a research fellow.
In 2009, Carlotta Guiducci became a professor at EPFL. She started as an Assistant Professor in the Institute of Bioengineering. In 2018, she was promoted to Associate Professor. She holds the SwissUp Foundation chair. She also founded and now leads the Laboratory of Life Sciences Electronics.
What Carlotta Guiducci Researches
Professor Guiducci's research is all about understanding biomolecules. These are molecules found in living things, like DNA or proteins. She uses special micro-fluidic systems for this. These systems handle very tiny amounts of liquids.
Her work also helps create new ways for personalized medicine. This means treatments that are made just for one person. She is an expert in making tiny "lab-on-a-chip" devices. These devices can do many lab tasks on a very small scale.
She is developing small, portable devices. These devices can analyze DNA. They can also perform high-throughput cytometry, which means quickly studying many cells. Her research also includes single-cell analysis, which looks at individual cells very closely.