Bios epfl. Felix Brikh 2020-2025 EPFL Photonics PhD Program Dr.
Bios epfl. 2017. Aksu, A. Rodriguez at the addresses below. Felix Brikh 2020-2025 EPFL Photonics PhD Program Dr. Unraveling the dynamic signaling profiles requires the implementation of a real-time monitoring methodology for precise analysis. ch/ Student, Doctoral Program in Biotechnology and Bioengineering vCard 3- “Plasmonics for Ultrasensitive Nanospectroscopy and Biosensing”. The operation of such devices is enabled by the fact that the earth’s atmosphere shows two distinct “windows” of high transmission in the 3-5 μm and 8-12 μm spectral ranges, which can be leveraged to avoid 4- “Nanostructure Biosensors and Systems and Methods of Use Thereof” Hatice Altug, M. In BIOS, we have Mar 3, 2016 · Hatice Altug's EPFL profileMission The mission of our lab encompasses nanophotonics and its application in biology with an objective to introduce powerful biosensors and bioimaging systems that can impact numerous fields ranging from fundamental research in life science and point-of-care disease diagnostics to environmental and food monitoring and safety. I always thirst for learning about new Saeid Ansaryan's EPFL profileEPFL STI IBI-STI BIOS BM 4131 (Bâtiment BM) Station 17 1015 Lausanne. Postdoctoral positions We are currently looking for a postdoctoral fellow position to work on Nanophotonics for Biosensing and Bioimaging. Jul 16, 2025 · Welcome to BIOS! At the BIOnanophotonic Systems laboratory, we develop ultra-sensitive spectroscopy and sensing technologies for real-time, label-free and high-throughput detection and analysis of very low quantities of biomolecules. Belushkin; A. Altug or Ms. Yanik, R. Inspired by the compound eyes of fruit flies, a team of researchers from EPFL has developed an artificial eye . Huang. Label-free NanoBiosensor for real-time biochemical analyses The analysis of cell signaling activities such as cytokine secretion provides invaluable insights for understanding the currently incurable diseases and developing novel cell therapies. In BIOS, we have developed a powerful nanoplasmonic biosensor based on gold Biography I am a Doctoral assistant in the BIOS group while doing my Ph. altug@epfl. 3- “Nanoantenna jiayi. Yasaman Jahani 2017 Ivan Sinev's EPFL profileEPFL STI IBI-STI BIOS BM 4128 (Bâtiment BM) Station 17 1015 Lausanne felix. Editor-in-chiefs are G. 94, p. These hands-on projects provide exposure to nanophotonics, nanofabrication, microfluidics, and cellular/molecular biology. Greub et al. My research interests are not confined to the list above. Huang, A. Cavallini; C. The method relies on granting sufficient time to become familiar with the background and hypotheses, on effective support during the analysis and on oral assessment. Deepthy Kavungal 2019 – 2025 EPFL Photonics PhD Program Dr. ch +41 21 693 57 34 Doctoral Assistant, Bionanophotonic Systems Laboratory EPFL STI IBI-STI BIOS BM 4130 (Bâtiment BM) Station 17 1015 Lausanne +41 21 693 57 34 Office: BM 4130 EPFL > STI > IBI-STI > BIOS Web site: https://bios. Tsukerman (2012). 1016/j. I always thirst for learning about new research areas, since I am sure that I may become engrossed in them. Click the links below to watch the latest videos. BIONanophotonic Systems (BIOS) laboratory at EPFL Switzerland (headed by Prof. DOI : 10. My research interests are focused on Biosensors, Microfluidics, and Point-of-Care systems. ch +41 21 693 40 48 Bionanophotonic Systems Laboratory EPFL STI IBI-STI BIOS BM 4128 (Bâtiment BM) Station 17 1015 Lausanne +41 21 693 40 48 Office: BM 4128 EPFL > STI > IBI-STI > BIOS Mikhail Masharin's EPFL profileEPFL STI IBI-STI BIOS BM 4129 (Bâtiment BM) Station 17 1015 Lausanne Wenhong Yang's EPFL profileEPFL STI IBI-STI BIOS BM 4130 (Bâtiment BM) Station 17 1015 Lausanne Labs AQUA – Advanced Quantum Architecture Lab BIOP – BioImaging and Optic Platform BIOS – BIOnanophotonic Systems laboratory FIMAP – Photonic Materials and Fibre Devices GALATEA LAB – Ultrafast laser processing HYLAB – Hybrid Photonics Laboratory The lab research is specially focused on the development of new bio/CMOS interfaces by also integrating new and innovative nano- and bio- materials in the electrochemical-sensing surface. Saeid Ansaryan 2019 – 2025 EPFL Biotechnology & Bioengineering PhD Program Dr. My research interests are focused on Point-of-Care, Sensors, Microfluidics, and Biomimetics. Nanophotonics, which excels at PhD and Postdoctoral positions are available for highly motivated individuals. EPFL is a global leader in diverse research domains. Shvets and I. Vol. Artar, and M. D. The novel approach proposed by this Jun 26, 2025 · EPFL scientists build first self-illuminating biosensor Engineers have harnessed quantum physics to detect the presence of biomolecules without the need for an external light source, overcoming a significant obstacle to the use of optical biosensors in healthcare and environmental monitoring settings. Adato, S. 2- “NanoPlasmonics: Towards Advanced Chemical and Biological tools”. Please contact Prof. I More than 350 laboratories, chairs and groups are meeting tomorrow's technical and societal challenges. Invited chapter in a book entitled “Optochemical BIO-467 – Students are given the means to dig effectively into modern scientific literature in the multidisciplinary field of bioengineering. in the Biotechnology and Bioengineering program at EPFL. 560 – 567. epfl. Our mailing address is: Marie Rodriguez EPFL STI IBI-STI BIOSStation 17, BM 41321015 LausanneSwitzerland Jun 28, 2025 · Scientists at EPFL have created a revolutionary biosensor that doesn't need a light source—it makes its own glow using quantum tunneling. The high The analysis of cell signaling activities such as cytokine secretion provides invaluable insights for understanding the currently incurable diseases and developing novel cell therapies. People Head of unit Hatice Altug Position Full Professor Office BM 4133 hatice. ch +41 21 693 11 70 Our group offers a range of Master’s and semester projects in Microtechnique and Bioengineering, focused on the development of lab-on-a-chip nano-biosensors. richter@epfl. By patterning graphene nano-structures, such as nano-ribbons or nano-disks, we can couple infrared light to plasmonic resonances. Research involves both the design of novel biosensing devices, intimate integration of highly heterogeneous systems, and development of electronics with CMOS technology. For more detailed information, please check here. Hatice Altug) is looking for a talented & motivated PhD student to work on the development of cutting-edge Mid-IR nanophotonic biosensors and bioimaging devices for applications such as diagnostics, pharmaceutics and safety. By guiding electrons through a nanostructure of gold and aluminum oxide, the sensor emits light and detects molecules at astonishingly small concentrations, do. Camilla Jandus' group at the universities of Geneva (UNIGE) and Lausanne (UNIL) was featured on the EPFL news. ”, Hatice Altug, A. Yanik, patent disclosure (2009). For the contact info of other lab members, click here. bios. Share your videos with friends, family, and the world Research Domains Faculty Members Awards & Prizes Collaborate With Our Researchers EPFL Research Facilities Access Our Technologies Research Ethics Research With Animals Meet the Support Units For Research Services to EPFL Laboratories Open Science Optical imaging devices in the mid-infrared play an important role for a wide range of technological applications in areas such as thermography, automotive safety, and astronomy. Biosensors & Bioelectronics. 2017. tan@epfl. 21 — A recent work of BIOS in collaboration with Prof. Artar, A. Hatice Altug's EPFL profileMission The mission of our lab encompasses nanophotonics and its application in biology with an objective to introduce powerful biosensors and bioimaging systems that can impact numerous fields ranging from fundamental research in life science and point-of-care disease diagnostics to environmental and food monitoring and safety. Chapter in a new volume on plasmonics from World Scientific. A. Nanophotonics, which excels at BIOS research featured in EPFL NEWS 02. Yen-Cheng Liu 2018 – 2023 EPFL Biotechnology & Bioengineering PhD Program Dr. Soler; A. 03. 047. Kebbi-Beghdadi; G. In a well-established laboratory, the PhD student will explore next-generation bioanalytical PhD students Name Year Doctoral program Dr. Graphene sustains long-lived electron oscillation in the mid-infrared region of the spectrum. Detailed record View at publisher Multiplexed nanoplasmonic biosensor for one-step simultaneous detection of Chlamydia trachomatis and Neisseria gonorrhoeae in urine M. PhD positions We currently have open positions for talented & motivated PhD student to work on Mid-IR Nanophotonics for We use graphene as a new enabling two-dimensional material to improve the versatility and sensitivity of infrared vibrational spectroscopy systems and sensors. iqzjouubi1tgigeoceowpfvfz0qdx3tvq2l7ethttxqw