Position Description
Design of qubit device fabrication flow and quality inspection of fabricated qubit devices.
For the full announcement, follow the link "Related Documents"
Related Project
IQUBITS -Required Qualifications
- Bsc degree of Technical University
- Experience in semiconductor process flow simulations for devices and circuits
- Experience in the design of photolithography masks
- Experience in ISO 9001:2015 quality system doe semiconductors
- Proven knowledge of English
Application Procedure
Interested candidates who meet the aforementioned requirements are kindly asked to submit their applications to the address (hr@iesl.forth.gr), with cc to Dr G. Konstantinidis (aek@physics.uoc.gr).
In order to be considered, the application must include:
- Application Form (Form Greek or Form English to the left)
- Brief CV
- Scanned copies of academic titles
Appointment Duration
3 monthsFunding
Position Description
Μη καταστροφικός χαρακτηρισμός του αριθμού ατόμων υπέρψυχρου νέφους με ακρίβεια στο επίπεδο του θορύβου βολής.
Θα αναπτυχθεί μια διάταξη για τη μέτρηση του αριθμού ατόμων σε ένα υπέρψυχρο ατομικό νέφος χωρίς αύξηση της θερμοκρασίας του. Η μέτρηση βασίζεται στο φαινόμενο Faraday, όπου το φως υπόκειται σε οπτική περιστροφή καθώς διαδίδεται μέσα από ένα σύνολο ατόμων. Θα πραγματοποιηθούν τροποποιήσεις σε μια υπάρχουσα διάταξη που θα μας επιτρέψουν να χαρακτηρίσουμε τον αριθμό ατόμων με ακρίβεια καλύτερη από το επίπεδο θορύβου-βολής. Αυτές περιλαμβάνουν: στροβοσκοπική διαμόρφωση της οπτικής δέσμης που χρησιμοποιείται στην ανίχνευση, και την εισαγωγή μιας οπτικής κοιλότητας για την αύξηση της αλληλεπίδρασης ατόμου-φωτός. Επιπλέον, θα επιδιωχθούν βελτιώσεις στη διαδικασία παραγωγής του υπέρψυχρου νέφους, προκειμένου να επιτευχθεί πιο γρήγορη και αξιόπιστη παραγωγή ατομικών νεφών με μεγαλύτερο αριθμό ατόμων σε σχέση με αυτά που μπορούν να παραχθούν αυτή τη στιγμή στο εργαστήριό μας
Για το πλήρες κείμενο της πρόσκλησης ακολουθήστε τον σύνδεσμο 'Related Documents'
Related Project
QCAT -Required Qualifications
- Μεταπτυχιακό Φυσικής
- Ερευνητική εμπειρία στο αντικείμενο του έργου
Desirable Qualifications
- Πειραματική ερευνητική εμπειρία σε ατομική φυσική
Application Procedure
Στο φάκελο υποβολής της πρότασης θα πρέπει να εμπεριέχονται τα ακόλουθα:
- Αίτηση (Form Greek στην αριστερή στήλη) με αναφορά στον κωδικό της θέσης και στο όνομα του προγράμματος
- Αναλυτικό Βιογραφικό Σημείωμα
- Ευκρινή φωτοαντίγραφα τίτλων σπουδών
- Πρόσφατη βεβαίωση σπουδών υποψήφιου διδάκτορα
ΥΠΟΒΟΛΗ ΠΡΟΤΑΣΕΩΝ
Οι ενδιαφερόμενοι καλούνται να υποβάλουν τις αιτήσεις τους και όλα τα απαραίτητα δικαιολογητικά, ηλεκτρονικά στη διεύθυνση hr@iesl.forth.gr με κοινοποίηση (cc): στον Δρ Γ. Βασιλάκη (gvasilak@iesl.forth.gr). Οι αιτήσεις θα πρέπει να αποσταλούν με την ένδειξη: «Αίτηση στο πλαίσιο του προγράμματος QCAT, της πρόσκλησης εκδήλωσης ενδιαφέροντος με Α.Π. … και κωδικό θέσης … » (όπως αυτός αναφέρεται στον Πίνακα του Παραρτήματος).
Appointment Duration
16 μήνεςFunding
To: 19/10/2022 14:00
Biosensors for enzymes can be tailored in two ways: enzyme anchored to the electrode and the substrate is the analyte or substrate is anchored to the electrode and the enzyme is the analyte. Previous work showed that both binding of substrate and catalytic reaction of a can be monitored by the surface immobilized enzyme.[i] Electrochemical biosensors that are targeting enzymes as analytes are based on substrate that is linked to the electrode surface. The sensing mechanism relies on the response induced by their catalytic activity. We study key enzymatic reactions on peptides and glycans by electrochemistry and surface analyses. Using kinases as model system, we were able to show electrochemical biosensing can be used for monitoring biocatalytic activity on peptides.[ii] The same methodology was also utilized to monitor kinase binding to both the catalytic site[iii] and the allosteric one.[iv] Sialylated glycans are of major importance and the related enzymatic processes can be used as biomarkers for cancer, viral infection and many more. A label free approach was recently reported by us, for sensing neuraminidase and sialyltransferase catalytic activities.[v],[vi] Here we’ll describe our ability to distinguish between binding and catalysis and demonstrate the advantages of this methodology for glycan substrate discrimination and enzyme selectivity. These tools are essential for evaluating pathogenic and pathological states and enable screening for inhibitors potency.
[i] Goykhman, I.; Korbakov, N.; Bartic, C.; Borghs, G.; Spira, M. E.; Shappir, J.; Yitzchaik, S. Direct Detection of Molecular Biorecognition by Dipole Sensing Mechanism. J. Am. Chem. Soc. 2009, 131 (13), 4788–4794.
[ii] Amit, E.; Obena, R.; Wang, Y.-T.; Zhuravel, R.; Reyes, A. J. F.; Elbaz, S.; Rotem, D.; Porath, D.; Friedler, A.; Chen, Y.-J.; Yitzchaik, S. Integrating Proteomics with Electrochemistry for Identifying Kinase Biomarkers. Chem. Sci. 2015, 6 (8), 4756–4766.
[iii] Solomon, O.; Sapir, H.; Mervinetsky, E.; Chen, Y.-J.; Friedler, A.; Yitzchaik, S. Kinase Sensing Based on Protein Interactions at the Catalytic Site. Chem. Eur. J. 2022. https://doi.org/10.1002/chem.202104227.
[iv] Joshi, P. N.; Mervinetsky, E.; Solomon, O.; Chen, Y.-J.; Yitzchaik, S.; Friedler, A. Electrochemical Biosensors Based on Peptide Kinase Interactions at the Kinase Docking Site. Biosens. Bioelectron. 2022, 207 (March), 114177. https://doi.org/10.1016/j.bios.2022.114177.
[v] Alshanski, I.; Sukhran, Y.; Mervinetsky, E.; Unverzagt, C.; Yitzchaik, S.; Hurevich, M. Electrochemical Biosensing Platform Based on Complex Biantennary N-Glycan for Detecting Enzymatic Sialylation Processes. Biosens. Bioelectron. 2021, 172, 112762.
[vi] Alshanski, I.; Shitrit, A.; Sukhran, Y.; Unverzagt, C.; Hurevich, M.; Yitzchaik, S. Effect of Interfacial Properties on Impedimetric Biosensing of the Sialylation Process with a Biantennary N‑Glycan-Based Monolayer. Langmuir 2022, 38, 849–855.
Position Description
Research Assistant 1
Development and optimization of a structured illumination system
Research Assistant 2
Management, administration, and organization of the project.
For the full announcement, follow the link "Related Documents"
Required Qualifications
Research Assistant 1
- BSc degree in Physics
- Msc in material science
- Working experience in optical imaging technologies
- Working experience in developing optical systems
- Knowledge of simulation setups in Matlab and Mathematica
- English language
Research Assistant 2
- BSc degree in economics
- Working experience in project management and administration activities
- Working experience in projects’ dissemination activities
- English language
Application Procedure
Interested candidates who meet the aforementioned requirements are kindly asked to submit their applications to the address (hr@iesl.forth.gr), with cc to Dr Giannis Zacharakis (zahari@iesl.forth.gr).
In order to be considered, the application must include:
- Application Form (Form Greek or Form English to the left)
- Brief CV
- Scanned copies of academic titles
Appointment Duration
6 months & 3 monthsPosition Description
Building an IoT implementation using sensors and in house developed zero power wireless system.
For the full announcement, follow the link "Related Documents"
Related Project
METATHERM -Required Qualifications
- Bachelor in Physical sciences
- Accepted in Master Degree program
- Laboratory experience
- Programming of IoT devices
Desirable Qualifications
Experience in sensor development
Application Procedure
Interested candidates who meet the aforementioned requirements are kindly asked to submit their applications to the address (hr@iesl.forth.gr), with cc to the Dr George Deligeorgis (deligeo@iesl.forth.gr).
In order to be considered, the application must include:
- Application Form (form Greek or form English to the left)
- Detailed curriculum vitae (CV) of the candidate
- Scanned Copies of academic titles
Appointment Duration
6 monthsFunding
Position Description
Circuit development and automation prototyping necessary to implement a novel Zero power wireless sensor relay and information platform.
For the full announcement, follow the link "Related Documents"
Related Project
METATHERM -Required Qualifications
- University degree in Electrical engineering or equivalent
- Experience in automation circuit development
- Experience in system prototyping
Desirable Qualifications
Controller programming experience is an advantage
Application Procedure
Interested candidates who meet the aforementioned requirements are kindly asked to submit their applications to the address (hr@iesl.forth.gr), with cc to the Dr George Deligeorgis (deligeo@iesl.forth.gr).
In order to be considered, the application must include:
- Application Form (form Greek or form English to the left)
- Detailed curriculum vitae (CV) of the candidate
- Scanned Copies of academic titles
Appointment Duration
6 monthsFunding
Education
- 2021, M.Sc Social neuroscience, social pedagogics and training, Biology Dpt, Athens University, Greece
- Bachelor in Philosophy, University of Crete, Greece
Position Description
Synthesis and Characterisation of nanostructures
For the full announcement, follow the link "Related Documents"
Required Qualifications
- PhD degree in Physical Sciences or Engineering
- At least five years of experience related to the position’s topic
- Scientific publications, relevant to the topic, in international scientific journals
- Experience in projects operation and management
- Fluency in English
Application Procedure
Interested candidates who meet the aforementioned requirements are kindly asked to submit their applications with cc to the Scientific Responsible, Dr Emmanuel Stratakis (stratak@iesl.forth.gr).
In order to be considered, the application must include:
- Application Form (Form Greek or Form English to the left)
- Detailed curriculum vitae (CV) of the candidate
- Scanned Copies of academic titles
Appointment Duration
6 monthsMETATHERM will demonstrate a versatile energy harvesting and communication system for unattended environment sensors arrays, allowing the development of maintenance free and autarkic operation devices. The novelty builds up from several different innovations, the main one being the microwave antenna, based on epsilon engineering using metamaterials, allowing the antenna to show extremely high gain and an extreme compactness [FETOPEN Project NANOPOLY]. The energy efficiency of the antenna allows the electrical power need to be decreased accordingly, which allows the consideration of novel energy harvesting technologies to be used to power the system. In METATHERM, the energy of the sun is harvested using a novel ionic thermoelectric device. This technology is based on ion migration under a thermal gradient, and show higher Seebeck coefficient than usual tellurium based semiconductors without the use of rare or toxic elements: a significant advantage in the context of the rapidly growing energy demand for IoT and mobile electronic systems. Used in addition to a supercapacitor to store the electrical energy and a thermal energy storage device, METATHERM platform will allow continuous operation of the device day and night. Moreover, due to the similarity in device structure between the iTE device and the supercapacitor, METATHERM will benefit from manufacturing know how of the latter. A substantial maturity level increase is then expected for the iTE devices. Finally, the project aims to develop a platform integrating all these technology in a single device, and exploration of its potential applications. To ensure market fit, the project plans a 3 phases exploitation plan, gathering potential user interest at the beginning of the project, selecting most promising applications at the demonstrator design stage, and produce a transfer plan at the end of the project.
Principal Investigator
Alumni
Funding
Principal Investigator
Funding
