[1] Barmpakos, D., Apostolakis, A., Pilatis, A., Pagonis, D.-N., Kaltsas, G.,“A Fully Printed Sensor with Optical Readout for Real-Time Flow Monitoring.”, Flex. Print. Electron, 8, 045011, (2023).

[2] Apostolakis, A., Barmpakos, D., Pilatis, A., Belessi, V., Pagonis, D.-N., Jaber, F., Aidinis, K., Kaltsas, G., “Study of Single and Multipass f–rGO Inkjet-Printed Structures with Various Concentrations: Electrical and Thermal Evaluation”, Sensors, 23, 2058, (2023).

[2] Kapoulas, I.K.; Hatziefremidis, A.; Baldoukas, A.K.; Valamontes, E.S.; Statharas, J.C., “Small Fixed-Wing UAV Radar Cross-Section Signature Investigation and Detection and Classification of Distance Estimation Using Realistic Parameters of a Commercial Anti-Drone System.”, Drones 2023, 7, 39.

[3] Dimitra Tsounidi, Vasileios Tsaousis, Nikolaos Xenos, Christos Kroupis, Paraskevi Moutsatsou, Vasileios Christianidis, Dimitrios Goustouridis, Ioannis Raptis, Sotirios Kakabakos, Panagiota Petrou, “Simultaneous determination of procalcitonin and interleukin-6 in human serum samples with a point-of-care biosensing device”, Talanta, Volume 258, 2023, 124403, ISSN 0039-9140.

[4] Karachaliou, C.-E.; Koukouvinos, G.; Goustouridis, D.; Raptis, I.; Kakabakos, S.; Petrou, P.; Livaniou, E., “Cortisol Immunosensors: A Literature Review.”, Biosensors 2023, 13, 285.

[1] A. Apostolakis, D. Barmpakos, A. Pilatis, G. Patsis, D.N. Pagonis, V. Belessi, G. Kaltsas, “Resistivity Study of Inkjet-Printed Structures and Electrical Interfacing on Flexible Substrates”, Journal of Micro and Nano Engineering, 15, 100129, (2022).

[2] Barmpakos, Dimitris, Vassiliki Belessi, Nikolaos Xanthopoulos, Christoforos A. Krontiras, and Grigoris Kaltsas.,  “Flexible Inkjet-Printed Heaters Utilizing Graphene-Based Inks”, Sensors 22, no. 3, 1173, 2022.

[3] Evangelakos, E. A., Kandris, D., Rountos, D., Tselikis, G., & Anastasiadis, E., “Energy Sustainability in Wireless Sensor Networks: An Analytical Survey.”, Journal of Low Power Electronics and Applications, 12(4), 65, (2022).

[4] Rountos, D., Kandris, D., Evangelakos, E. A., & Tselikis, G., “Energy Efficient Routing in Wireless Sensor Networks: A Comparative Study on LEACH Protocol and its Successors.” In 2022 Panhellenic Conference on Electronics & Telecommunications, (PACET)(pp. 1-6). IEEE, (2022).

[5] Panagiota Tzani-Tzanopoulou, Ramazan Rozumbetov, Styliani Taka, Anastassios Doudoulakakis, Evangelia Lebessi, Nina Chanishvili, Elene Kakabadze, Nata Bakuradze, Nino Grdzelishvili, Marina Goderdzishvili, Evangelia Legaki, Evangelos Andreakos, Maria Papadaki, Spyridon Megremis, Paraskevi Xepapadaki, Grigoris Kaltsas, Cezmi A Akdis, Nikolaos G Papadopoulos, “Development of an in vitro homeostasis model between airway epithelial cells, bacteria and bacteriophages: a time-lapsed observation of cell viability and inflammatory response.”, Journal of General Virology 103 (12), 001819, 2022.

[6] Tzani-Tzanopoulou P, Skliros D, Megremis S, Xepapadaki P, Andreakos E, Chanishvili N, Flemetakis E, Kaltsas G, Taka S, Lebessi E, Doudoulakakis A, Papadopoulos NG., “Corrigendum: Interactions of Bacteriophages and Bacteria at the Airway Mucosa: New Insights Into the Pathophysiology of Asthma.”, Front Allergy, 2022.

[7] Chrysoula-Evangelia Karachaliou, Georgios Koukouvinos, Grigoris Zisis, Dimosthenis Kizis, Evangelia Krystalli, George Siragakis, Dimitris Goustouridis, Sotirios Kakabakos, Panagiota Petrou, Evangelia Livaniou, Ioannis Raptis, “Fast and Accurate Determination of Minute Ochratoxin A Levels in Cereal Flours and Wine with the Label-Free White Light Reflectance Spectroscopy Biosensing Platform”, Biosensors 12 (10), 877, 2022.

[8] Dimitrios Goustouridis, Ioannis Raptis, Theodora Mpatzaka, Savvina Fournari, Grigorios Zisis, Panagiota Petrou, Konstantinos G Beltsios, “Non-Destructive Characterization of Selected Types of Films and Other Layers via White Light Reflectance Spectroscopy (WLRS)”, Micro 2 (3), 495-507, 2022.

[9] Eleftheria Lampadariou, Konstantinos Kaklamanis, Dimitrios Goustouridis, Ioannis Raptis, Elefterios Lidorikis, “Nonlocal Effective Medium (NLEM) for Quantitative Modelling of Nanoroughness in Spectroscopic Reflectance”, photonics 9 (7), 499, 2022.

[10] Chrysoula-Evangelia Karachaliou, Georgios Koukouvinos, Dimitrios Goustouridis, Ioannis Raptis, Sotirios Kakabakos, Evangelia Livaniou, Panagiota Petrou, “Recent Developments in the Field of Optical Immunosensors Focusing on a Label-Free, White Light Reflectance Spectroscopy-Based Immunosensing Platform”, Sensors 22 (14), 5114, 2022.

[11] Chrysoula-Evangelia Karachaliou, Georgios Koukouvinos, Katerina Pissaridi, Dimitris Ladikos, Dimitris Goustouridis, Ioannis Raptis, Evangelia Livaniou, Sotirios Kakabakos, Panagiota Petrou, “Fast and accurate determination of minute ochratoxin A levels in cereal flours: Towards application at the field”, Engineering Proceedings 16 (1), 14, 2022.

[12] Simos, T.E., Famelis, I.T., “A neural network training algorithm for singular perturbation boundary value problems.”, Neural Comput & Applic34, 607–615 (2022).

[13] I. Famelis, A. Donas, G. Galanis, “Comparative study of FeedForward and Radial Basis Function Neural Networks for solving an Environmental Boundary Value Problem”, Results in Applied Mathematics, Volume 16, 2022,

[1] D. Barmpakos, V. Belessi, R. Schelwald and Grigoris Kaltsas “Evaluation of Inkjet-Printed Reduced and Functionalized Water-Dispersible Graphene Oxide and Graphene on Polymer Substrate—Application to Printed Temperature Sensors”, Nanomaterials 2021, 11(8), 2025.

[2] D. Barmpakos, G. Kaltsas, “A review on Humidity, Temperature and Strain Printed Sensors – Current trends and future perspectives”, Sensors, 2021, 21(3), 739.

[3] G. Paivana, D. Barmpakos, S. Mavrikou, A. Kallergis, O. Tsakiridis, G. Kaltsas and S. Kintzios, “Evaluation of cancer cells lines by four-point probe technique, by impedance measurements in various frequencies”, Biosensors 2021, 11(9), 345.

[4] P. Tzani-Tzanopoulou, D. Skliros, S. Megremis, P. Xepapadaki, E. Andreakos, N. Chanishvili, E. Flemetakis, G. Kaltsas, S. Taka, E. Lebessi, A. Doudoulakakis, N. Papadopoulos, “Interactions of Bacteriophages and Bacteria at the Airway Mucosa: New
Insights into the Pathophysiology of Asthma”, Frontiers in Allergy, 26 January 2021.

[5] Papadakis, N., Koukoulas, N., Christakis, I., Stavrakas, I., Kandris, D., “An IoT-based participatory antitheft system for public safety enhancement in smart cities.”, Smart Cities, 4(2), 919-937, (2021).

[6] D.-N. Pagonis, G. Kaltsas, T. Koutsis and A. Pagonis, “A Novel Engine Air Intake Sensor based on 3D Printing and PCB technology”, 2021 IEEE Sensors, 1-4 (2021).

[7] D.N. Pagonis, V. Benaki, G. Kaltsas, A. Pagonis, “Design of a Mass Air Flow Sensor Employing Additive Manufacturing and Standard Airfoil Geometry”, Appl. Sci. 11, Marine science and Engineering section, 11579  (2021).

[8] G Charkoftakis, P Liosatos, NA Tatlas, D Goustouridis, SM Potirakis, “An E-Maintenance IoT Sensor Node Designed for Fleets of Diverse Heavy-Duty Vehicles”, International Journal of Mechanical and Industrial Engineering 15 (9), 409-415, 2021.

[9] D Goustouridis, A Sideris, I Sdrolias, G Loizos, NA Tatlas, SM Potirakis, “IntelligentLogger: A heavy-duty vehicles fleet management system based on IoT and smart prediction techniques”, International Journal of Mechanical and Industrial Engineering 15 (8), 336-340, 2021

[10] Famelis, I.T., Kaloutsa, V., “Parameterized neural network training for the solution of a class of stiff initial value systems.”, Neural Comput & Applic33, 3363–3370 (2021).

[11] Donas A, Famelis I, Chu PC, Galanis G., “Optimization of the Navy’s three-dimensional mine impact burial prediction simulation model, Impact35, using high-order numerical methods.”, The Journal of Defense Modeling and Simulation, 2023, 20(2), 197-212.

[1] D. Barmpakos, A. Moschos, T. Syrovy, T. Koutsis, L. Syrova and G. Kaltsas “A fully printed flexible multidirectional thermal flow sensor” Flexible and Printed Electronics, 5 (2020).

[2] K. A. Rubin, R. Schelwald, D. Barmpakos, A. Segkos, C. Tsamis, and G. Kaltsas “3D optical interferometry with True Color visualization advances understanding of flexible electronics” Laser Focus World, Volume 56 (09), p. 19-22, Sep 2020.

[3] T. Koutsis, P. Pikasis, A. Psyrris, G. Kaltsas “A thermal flow sensor with a 3D printed housing for spirometry applications” Microelectronic Engineering, Volume 226, 1 April 2020, 111286.

[4] D. Barmpakos, C. Tsamis, G. Kaltsas “Multi-parameter paper sensor fabricated by inkjetprinted silver nanoparticle ink and PEDOT:PSS” Microelectronic Engineering, Volume
225, 15 March 2020.

[5] T Mpatzaka, G Papageorgiou, N Papanikolaou, E Valamontes, Th Ganetsos, D Goustouridis, I Raptis, G Zisis, “In-situ characterization of the development step of high-resolution e-beam resists”, Micro and Nano Engineering 9, 100070, 2020.

[6] T Mpatzaka, G Papageorgiou, N Papanikolaou, E Valamontes, Th Ganetsos, D Goustouridis, I Raptis, G Zisis, “WITHDRAWN: In-situ characterization of the development step of high-resolution e-beam resists”, Microelectronic Engineering, 111397, 2020.

[7] Eleftheria Stavra, Panagiota S Petrou, Georgios Koukouvinos, Anastasios Economou, Dimitris Goustouridis, Konstantinos Misiakos, Ioannis Raptis, Sotirios E Kakabakos, “Fast, sensitive and selective determination of herbicide glyphosate in water samples with a White Light Reflectance Spectroscopy immunosensor”, Talanta 214, 120854, 2020.

[8] Vasileios Anastasiadis, Georgios Koukouvinos, Panagiota S Petrou, Anastasios Economou, James Dekker, Mikko Harjanne, Paivi Heimala, Dimitris Goustouridis, Ioannis Raptis, Sotirios E Kakabakos, “Multiplexed mycotoxins determination employing white light reflectance spectroscopy and silicon chips with silicon oxide areas of different thickness”, Biosensors and Bioelectronics 153, 112035, 2020.

[9] Senem Kursun Bahadir, Stelios Α Mitilineos, Symeon Symeonidis, Umut Kıvanç Şahin, Savvas Vassiliadis, Fatma Kalaoglu, Dimitrios Goustouridis, Nikolaos Stathopoulos, Stylianos P Savvaidis, “Electromagnetic shielding and reflection loss of conductive yarn incorporated woven fabrics at the S and X radar bands”, Journal of Electronic Materials 49, 1579-1587, 2020.

[10] Z Wang, A Syed, S Bhattacharya, X Chen, Ulrich Buttner, Gheorghe Iordache, K Salama, Th Ganetsos, E Valamontes, A Georgas, Ioannis Raptis, P Oikonomou, A Botsialas, M Sanopoulou, “Ultra miniaturized InterDigitated electrodes platform for sensing applications”, Microelectronic Engineering 225, 111253, 2020.

[11] Tarnaris, Κ., Preka, Ι., Kandris D., Alexandridis, Α., “Coverage and k-Coverage Optimization in Wireless Sensor Networks Using Computational Intelligence Methods: A Comparative Study.” Electronics, 9 (2020), 675.

[12] Kandris, D., Alexandridis, A., Dagiuklas, T., Panaousis, E., Vergados, D. D., “Multiobjective optimization algorithms for wireless sensor networks.” Wireless Communications and Mobile Computing, (2020).

[13] Nakas, C., Kandris, D., Visvardis, G. “Energy Efficient Routing in Wireless Sensor Networks: A Comprehensive Survey.” Algorithms 13 (2020), 72, 2020.

[14] Hou, C-C, Simos, TE, Famelis, IT., “Neural network solution of pantograph type differential equations.” Math Meth Appl Sci. 2020, 43, 3369– 3374, 2020.

[15] Jie Fang, Chenglian Liu, T. E. Simos & I. Th. Famelis, “Neural Network Solution of Single-Delay Differential Equations.”, Mediterr. J. Math. 17, 30 (2020).

[7] I. Famelis and Ch. Tsitouras, “A new eighth order exponentially fitted explicit Numerov-type method for solving oscillatory problems.”, Journal of Mathematical Chemistry, 56(5), (2018) 1456-1466.

[8] I. Famelis and Ch. Tsitouras, “Bounds for Variable Degree Rational L_∞ Approximations to the Matrix Exponential.”, Applied Mathematics and Computation 338 (2018) 376–386.

[9] I. Th. Famelis, A. Alexandridis & Ch. Tsitouras, “A highly accurate differential evolution–particle swarm optimization algorithm for the construction of initial value problem solvers”, Engineering Optimization, 50(8), (2018), 1364-1379.

[5] I. Famelis, Ch. Tsitouras and Th. Simos, “Review on explicit numerov type methods with constant coefficients.”, Applied and Computational Mathematics, 16(2),  (2017).

[6] I. Famelis, A. Alexandridis and Ch. Tsitouras, “A highly accurate DE-PSO algorithm for the construction of initial value problem solvers.”, Engineering Optimization, (2017).

[7] I. Famelis, Ch. Tsitouras, “Symbolic derivation of Runge Kutta Nystrom type order conditions and methods for solving y⁽³⁾=f(x,y).”, Applied Mathematics and Computation 297, (2017) 750–60.

[8] I. Famelis, Ch. Tsitouras, Th. Simos, “Phase-fitted Runge-Kutta pairs of orders 8(7)”, Journal of Computational and Applied Mathematics, (2017) 321, 226-231.

[9] I. Famelis, Z. Jackiewicz, “A new approach to the construction of DIMSIMs of high order and stage order”, Applied Numerical Mathematics 119 (2017), 79-93.

[10] Simos, T. E., Tsitouras, C., & Famelis, I. T., “EXPLICIT NUMEROV TYPE METHODS WITH CONSTANT COEFFICIENTS: A REVIEW.”, Applied and computational mathematics, 16(2), 89-113, (2017).

[1] Barmpakos, D., Strimpakos, N., Karkanis, S. A., & Pattichis, C. (2016). “Towards a versatile surface electromyography classification system.”, In XIV Mediterranean Conference on Medical and Biological Engineering and Computing 2016 (pp. 33-36). Springer, Cham.

[2] D.N. Pagonis, G. Livanos, G. Theotokatos, S. Peppa, N. Themelis, “Open-type ferry safety system design for using LNG fuel”, Journal of Marine Science and Application 15 (4), 405-425, (2016).

[3] N. Pagonis, A. Moschos, G. Kaltsas, “A PCB based engine air intake sensor – Application to a typical low power engine”, Procedia Engineering, 168 59 – 62, (2016).

[4] O. Tsakiridis, D. Sklavounos, E. Zervas, and J. T. Stonham, “A Comfort-Aware Energy Efficient  HVAC System Based on the Subspace Identification Method”, Journal of Energy Hindawi, (2016).

[5] I. Famelis, Ch. Tsitouras, “On modifications of Runge Kutta Nystrom methods for solving y⁽⁴⁾=f(x,y)”, Applied Mathematics and Computation 273 (2016), 726–734.

[6] I. Famelis, G. Galanis, A. Liakatas, “A new Kalman Filter based on Information Geometry techniques for optimizing numerical environmental simulations”, Stochastic Environmental Research and Risk Assessment, (2016).

[1] A. Moschos, D. Barmpakos, and G. Kaltsas, “A multidirectional thermal flow sensor fabricated on flexible substrate,” in SENSORDEVICES 2015: The Sixth International Conference on Sensor Device Technologies and Applications, p. 68, Venice, Italy, 2015.

[2] S. A. Nikolidakis, D. Kandris, D. D. Vergados, C. Douligeris,  “Energy efficient automated control of irrigation in agriculture by using wireless sensor networks”, Computers and Electronics in Agriculture, 113 (2015), 154-163.

[3] D. Sklavounos, E. Zervas, O. Tsakiridis and J. T. Stonham, “A Subspace Identification Method for Detecting Abnormal Behavior in HVAC Systems”,   Journal of Energy Hindawi, (2015).

[4] C. Diakaki, N. Panagiotidou, A. Pouliezos, G. Kontes, G. Stavrakakis, K. Belibassakis, Th. Gerostathis, G. Livanos, D.N. Pagonis, G. Theotokatos, “A decision support system for the development of voyage and maintenance plans for ships”, Int. J. Decision Support Systems, Vol. 1, No. 1, 42-71, (2015).

[5] I. Famelis, Ch. Tsitouras, “Quadratic shooting solution for an environmental parameter prediction boundary value problem”, Far East Journal of Applied Mathematics, 91 (2015), 81-98.

[1] C. Michail, N. Kalyvas, I. Valais, I. Fudos, N. Dimitropoulos, G. Koulouras, D. Kandris, M. Samarakou, I. Kandarakis, “Figure of Image Quality and Information Capacity in Digital Mammography”, BioMed Research International, (2014).

[2] P. Fokianou, M. Samarakou, D. Kandris, E. D. Fylladitakis,  “Star-Delta Switches Evaluation for Use in Grid-Connected Wind Farm Installations”, Advances in Mechanical Engineering, (2014).

[3] I. Valais, G. Koulouras, G. Fountos, C. Michail, D. Kandris and S. Athinaios, “Design and Construction of a Prototype ECG Simulator” , EJST, 9(3), (2014), 11-18.

[4] S. Theodoropoulos, D. Kandris, M. Samarakou, and G. Koulouras, “Fuzzy Regulator Design for Wind Turbine Yaw Control”, The Scientific World Journal, 2014, (2014).

[5] C. Koukouvaos, D. Kandris, M. Samarakou, “Computer-Aided Modelling and Analysis of PV Systems: A Comparative Study”, The Scientific World Journal, 2014, (2014).

[6] G. A. Livanos, G. Theotokatos, D.N. Pagonis “Techno-economic investigation of alternative propulsion plants for Ferries and RoRo ships”, Energy Conversion and Management, 79 (2014), 640–651.

[7] C. Diakaki, N. Panagiotidou, A. Pouliezos, G. Kontes, G. Stavrakakis, K. Belibassakis, Th. Gerostathis, G. Livanos, D.N. Pagonis, G. Theotokatos, “A decision support system for the development of voyage and maintenance plans for ships”, International Journal of Decision Support Systems, 1(1) (2014).

[8] T. Apostolou, N. Pascual, M-P. Marco, A. Moschos, A. Petropoulos, G. Kaltsas, S. Kintzios “Extraction-less, rapid assay for the direct detection of 2,4,6-trichloroanisole (TCA) in cork samples” Talanta, 125(1) (2014), 336–340.

[9] I. Famelis, Georgios Galanis, Matthias Ehrhardt and Dimitrios Triantafyllou, “Classical and Quasi-Newton methods for a Meteorological Parameters Prediction Boundary Value Problem”, AMIS, 8(6),  (2014), 2683-2693.

[10] I. Famelis, J. Coupled, Runge-Kutta solutions for an environmental parameter prediction boundary value problem, Syst. Multiscale Dyn., 2(2) (2014), 62-69.

[1] V. I. Sougleridis, N. Poulakis, P. S. Dimitrakis, P. Normand, G. P. Patsis, A. Dimoulas, “Room temperature analysis of Ge p+/n diodes reverse characteristics fabricated by platinum assisted dopant activation”, Eddy SimoenSolid-State Electronics, 81, (2013), 19-26.

[2] G. P. Patsis, K. Ninos, D. Mathioulakis, and G. Kaltsas, “Gas-mass-flow transfer-rate simulation and experimental evaluation in microchannels”, Microsystem Technologies, 19 (12), (2013), 1919-1925.

[3] E. Larou, I. Yiakoumettis, G. Kaltsas, A. Petropoulos, P. Skandamis, S. Kintzios, “High throughput cellular biosensor for the ultra-sensitive, ultra-rapid detection of aflatoxin M1” Food Control, 29(1) (2013), 208–212.

[4] S. A. Nikolidakis, D. Kandris, D. D. Vergados, C. Douligeris, “Energy Efficient Routing in Wireless Sensor Networks Through Balanced Clustering”, Algorithms, 6(1), (2013), 29-42.

[5] G. Nikolakopoulos, P. Stavrou, D. Tsitsipis, D. Kandris, A. Tzes, T. Theoharis, “A dual scheme for compression and restoration of sequentially transmitted images over Wireless Sensor Networks”, Ad Hoc Networks, 11(1), (2013), 410-426.

[6] D.-N. Pagonis, G. Theotokatos, and G. Livanos, “Accurate Instantaneous Engine Speed Recording by Employing an Optical Measurement System – Application to a Typical Low Power Industrial Engine”, SAE Technical Paper 2013-01-0304 (2013).

[1] V. Constantoudis, G. P. Patsis, E. Gogolides, “Fractals and device performance variability: The key role of roughness in micro and nanofabrication”, Microelec. Engin. 90, (2012), 121-125

[2] P. Oikonomou, A. Botsialas, K. Manoli, D. Goustouridis, E. Valamontes, M. Sanopoulou, I. Raptis, G. P. Patsis, “Chemocapacitor performance modeling by means of polymer swelling optical measurements”, Sensors and Actuators B: Chemical, 171–172 (2012), 409-415.

[3] G. P. Patsis, A. Petropoulos, G. Kaltsas, “Modelling and evaluation of a thermal microfluidic sensor fabricated on plastic substrate”, Microsystem Technologies, 18(3) 359, (2012).

[4] D. N. Pagonis, A. Petropoulos, G. Kaltsas, “A pumping actuator implemented on a PCB substrate by employing water electrolysis”, Microelectronic Engineering, 95, (2012), 65-70.

[5] A. Petropoulos, D.N. Pagonis, G. Kaltsas, “Flexible PCB-MEMS flow sensor”, Procedia Engineering, 47, (2012), 236-239.

[6] I. Famelis, C. Tsitouras, “Using neural networks for the derivation of Runge–Kutta–Nystrοm pairs for integration of orbits”, New Astronomy, 17 (2012), 469-473.

[1] V. Constantoudis, G. P. Patsis, and E. Gogolides, “Evolution of Resist Roughness during Development: Stochastic Simulation and Dynamic Scaling Analysis”, Journal of Micro/Nanolithography, MEMS, and MOEMS, 9, (2011).

[2] P. Oikonomou, G.P. Patsis, A. Botsialas, K. Manoli, D. Goustouridis, N.A. Pantazis, A. Kavadias, E. Valamontes, Th. Ganetsos, M. Sanopoulou, I. Raptis, “Performance simulation, realization and evaluation of capacitive sensor arrays for the real time detection of volatile organic compounds”, Microelec. Engin., 88(8), (2011).

[3] P. Oikonomou, A. Salapatas, K. Manoli, K. Misiakos, D. Goustouridis, E. Valamontes, M. Sanopoulou, I. Raptis, G. P. Patsis, “Chemocapacitance response simulation through polymer swelling and capacitor modeling”, Procedia Engineering, 25, (2011), 423-426.

[4] P. Oikonomou, G. P. Patsis, K. Manoli, D. Goustouridis, E. Valamontes, N. Pantazis, M. Sanopoulou, I. Raptis, “Hybrid integration of microfabricated chemcapacitor arrays with miniaturized read-out electronics towards low-power gas sensing module”, Procedia Engineering, 25, (2011), 1117-1120.

[5] G. P. Patsis, K. Ninos, D. Mathioulakis, and G. Kaltsas, “Simulation and Experimental Evaluation of Gas Mass Flow Transfer Rate in Microchannels”, Procedia Engineering, 25, (2011), 447-450.

[6] A. Petropoulos, D. N. Pagonis, G. Kaltsas, “A multi-range PCB-MEMS microfluidic flow sensor with adjustable sensitivity”, Procedia Engineering, 25, (2011), 799-802.

[7] D. N. Pagonis, A. Petropoulos, G. Kaltsas,  “A PCB integrated actuator employing water electrolysis for use in microfluidic systems”, Procedia Engineering, 25, (2011), 467-470.

[8] D. Kandris, M. Tsagkaropoulos, I. Politis, A. Tzes, S. Kotsopoulos, “Energy efficient and perceived QoS aware video routing over Wireless Multimedia Sensor Networks”, Ad Hoc Networks, 9(4), 2011, 591-607.

[9] P. Myrilas and O. Tsakiridis, “Initial Development of an Electronic Testis Rigidity Tester”, The Scientific World JOURNAL: TSW Urology 11, (2011), 673-686.

[10] I. Famelis, Ch. Tsitouras and Th. Simos, “On Modified Runge-Kutta Trees and Methods”, Computers and Mathematics with Applications 62, (2011), 2101–2111.

[11] I. Famelis, “Neural Network based derivation of efficient high order Runge-Kutta-Nystrom pairs for the integration of orbits”, International Journal of Modern Physics C, 22(12), (2011), 1309-1316.

[1] D. Drygiannakis, I. Raptis, E. Gogolides, and G. P. Patsis, “Detailed Resist Film Modelling in Stochastic Lithgoraphy Simulation for Line-Edge Roughness Quantification”, Microelec. Engin. 87(5-8), (2010), 989-992

[2] N. Tsikrikas, G. P. Patsis, D. Drygiannakis, and I. Raptis, “Simulation of shot noise effect on CD and LER of electron-beam lithography in 32 nm designs”, Microelec. Engin, 5-8, (2010), 1575-1578

[3] V. Constantoudis, G.P. Patsis, E. Gogolides, “Line width roughness effects on device performance: the role of the gate width design”, Proc. SPIE 7641, 764116 (2010)

[4] V. Constantoudis, G.P. Patsis, E. Gogolides, “Evolution of resist roughness during development: stochastic simulation and dynamic scaling analysis”, Proc. SPIE 7639, 76392H (2010)

[5] A. Erdmann, S. Feng, J. Fuhrmann, A. Fiebach, G.P. Patsis, and P. Trefonas, “Modeling of double patterning interactions in litho-freezing-litho-etch (LFLE) processes”, Proc. SPIE 7640, 76400B (2010).

[6] V J. Fuhrmann, A. Fiebach, G. Patsis, “Macroscopic and Stochastic Modeling Approaches to Pattern Doubling by Acid Catalyzed Cross-Linking”, Proc. SPIE 7639, 76392I (2010).

[7] D. Drygiannakis, G. P. Patsis, V. Constantoudis, I. Raptis,  A Boudouvis and E Gogolides, “Stochastic modeling and simulation of photoresist surface and line-edge roughness evolution”, European Polymer Journal, 46(10), 1988 (2010).

[8] G. Patsis, A. Petropoulos, G. Kaltsas, “Simulation, evaluation and optimization of a thermal microfluidic flow sensor”, Procedia Engineering, 5, (2010), 1328-1331.

[9] A. Petropoulos, G. Kaltsas, “Study and evaluation of a PCB-MEMS liquid microflow sensor”, Sensors 10(10), (2010) 8981-9001.

[10] A. Petropoulos, G. Kaltsas, D. Randjelovic, E. Gogolides, “Study of Flow And Pressure Field In Microchannels With Various Crossection Areas”, Microelectronic Engineering, 87 (2010) 827–829.

[11] D.Kandris, M. Tsagkaropoulos, i. Politis, “Power Awareness Routing and Video QoS Optimization Schemes over Wireless Multimedia Sensor Networks”, IEEE Communications Society E-letter, 5(4), (2010), 25-28

[12] G. Nikolakopoulos, D. Kandris, A. Tzes, “Adaptive Compression of Slowly Varying Images Transmitted over Wireless Sensor Networks”, Sensors, 10, (2010), 7170-7191

[13] Kandris D., Vergados, D. J., Vergados, D. D., Tzes, A.  “A routing scheme for congestion avoidance in wireless sensor networks.”, In Proceedings of the 6th Annual IEEE Conference on Automation Science and Engineering (CASE 2010), Toronto, Canada, (2010), 21-24.

[1] G. P. Patsis, D. Drygiannakis, I. Raptis, E. Gogolides, A. Erdmann, “Advanced lithography models for strict process control of transistor fabrication in the 32nm technology node”, Microelec. Engin. 86, (2009), 513–516

[2] V. Constantoudis, G. Kokkoris, G. P. Patsis, E. Gogolides, “Modeling of line edge roughness transfer during plasma etching of transistor gates”, Microelec.Engin. 86, (2009), 968–970

[3] D. Kandris, P. Tsioumas, A. Tzes, G. Nikolakopoulos, D.D. Vergados, “Power Conservation through Energy Efficient Routing in Wireless Sensor Networks”, Sensors, 9, (2009), 7320-7342

[4] D. Randjelović, Z. Djurić, A. Petropoulos, G. Kaltsas, Z. Lazića, M. Popovića, “Analytical modelling of thermopile based flow sensor and verification with experimental results”, Microelectronic Engineering 86 (2009), 1293-1296.

[5] K. Kontakis, A. Petropoulos, G. Kaltsas, T. Speliotis, E. Gogolides, “A novel microfluidic integration technology for PCB-based devices: Application to microflow sensing”, Microelectronic Engineering 86 (2009), 1382-1384.

[6] A. Petropoulos, D. Goustouridis, T. Speliotes, G. Kaltsas, “Demonstration of a new technology which allows direct sensor integration on flexible substrates”, European Physical Journal – Applied Physics, 46, 12507 (2009).

[7] A. Petropoulos, G. Kaltsas, D. Goustouridis, “A novel system for displacement sensing, integrated on a plastic substrate”, Microelectronics Journal, 40 (2009) 1387– 1392.

[8] I. Famelis S. Palligkinis and G. Papageorgiou, “Runge Kutta Methods for Fuzzy Differetial Equations”, Applied Mathematics and Computation, 209, (2009), 97-105

[9] I. Famelis, International Journal of Modern Physics C, “Numerov-Type Methods for oscillatory Linear Initial Value Problems”, 20 (3), (2009), 383-398

[10] I. Famelis, F. Xanthos and G. Papageorgiou, “Numerical Solution of Stochastic Differential Equations with Additive Noise by Runge-Kutta Methods”, Journal of Numerical Analysis, Industrial and Applied Mathematics (JNAIAM), 4 (3-4), (2009), 171-180.

[1] G. P. Patsis, D. Drygiannakis, N. Tsikrikas, I. Raptis, and E. Gogolides, “Electron-Beam-Patterning Simulation and Metrology of Complex Layouts on Si/Mo Multilayer Substrates”, Proc. SPIE 6922, 69222K (2008)

[2] N. Tsikrikas, G. P. Patsis, I. Raptis, and A. Gerardino, “High resolution patterning and simulation on Mo/Si multilayer for EUV masks”, Proc. SPIE 6792, 679216 (2008)

[3] D. Drygiannakis, G. P. Patsis, I. Raptis, “Stochastic simulation studies of molecular resists for the 32nm technology node”, Microelec. Eng. 85, 949 (2008)

[4] D. Drygiannakis, G. P. Patsis, I. Raptis, “Processing effects on the dissolution properties of thin chemically amplified photoresist films”, Microelec. Eng. 85, 955 (2008).

[5] G. P. Patsis, “Modeling MOSFET Gate Length Variability for Future Technology Nodes”, Phys. Stat. Sol. 9a 205 (11) 2541 (2008).

[6] N. Tsikrikas, G. P. Patsis, I. Raptis, A. Gerardino, E. Quesnel, “Electron beam lithography simulation for the patterning of EUV masks”, Jap. J. Appl. Phys. 47, 4909 (2008).

[7] H. Contopanagos, D.N. Pagonis and A.G. Nassiopoulou, “Broadband electrical characterization of macroporous silicon at microwave frequencies”, phys. stat. sol. (a) 205, 11, (2008), 2548-2551

[8] M. Theodoropoulou, D.N. Pagonis, A.G. Nassiopoulou, C.A. Krontiras and S.N. Georga, “Dielectric characterization of macroporous thick silicon films in the frequency range 1 Hz – 1MHz”, phys. stat. sol. (c) 5, 12, (2008), 3597-3600

[9] A. Petropoulos, G. Kaltsas, T. Speliotis and A. G. Nassiopoulou, “Evaluation of a gas flow sensor implemented on organic substrate” Phys. Stat. Sol. (c), 5, No. 12, (2008) 3839– 3842.

[10] A. Petropoulos, G.Kaltsas, and A.G. Nassiopoulou, “A thermal vacuum sensor fabricated on plastic substrate – Study in various operation modes” Phys. Stat. Sol. (a), 205, No. 11, (2008) 2639–2642.

[11] P. Katsikogiannis, E. Zervas, and G. Kaltsas, “A wireless sensor network for building structural health monitoring and seismic detection” Phys. Stat. Sol. (c), 5, No. 12, (2008) 3834–3838.

[12] Ch. Stamatopoulos, A. Petropoulos, D. S. Mathioulakis, G. Kaltsas, “Study of an integrated thermal sensor in different operational modes, under laminar, transitional and turbulent flow regimes”, Experimental Thermal and Fluid Science, (32) 8 (2008), 1687-1693.

[13] D. Randjelovic, A. Petropoulos, G. Kaltsas, M. Stojanovic, Z. Lazic, Z. Djuric and M. Matic, “Multipurpose MEMS Thermal Sensor Based On Thermopiles”, Sensors and Actuators A 141, (2008), 404-413.

[14] I. Famelis and Ch. Tsitouras, “Symbolic Derivation of Runge-Kutta-Nyström order conditions”, Journal of Mathematical Chemistry, J. Comput. Appl. Math. 218 (2008), no 2 pp. 543-555

[15] I. Famelis and Ch. Tsitouras, “Quadratic SDIRK pair for treating chemical reaction problems”, MATCH-Commun. Math. Comput. Chem., 60 (2008), no 3, 697-710

[16] I. Famelis, Ch. Tsitouras and J. Comput, “Symbolic Derivation of Order Conditions for Hybrid Numerov-type methods solving y’’ = f(x, y)”, Appl. Math. 218 (2008), no 2, 543-555

[17] I. Famelis, A. Bratsos and M. Ehrhardt, “A discrete Adomian decomposition method for discrete nonlinear Schroedinger equations”, Appl. Mathematics and Computation 197 (2008), 190-205

[18] I. Famelis and Ch. Tsitouras, “Quadratic Stoermer-type methods for the solution of the Boussinesq equation by the method of lines”, Num. Meth. For Partial Diff. Eqns. 24 (2008) no 5, 1321-1328

[19] I. Famelis, “Εxplicit eighth order Νumerov-type methods with reduced number of stages for oscillatory IVPs”, International Journal of Modern Physics C, v. 19, No. 6 (2008) 957-970

[1] G. P. Patsis, Μ. D. Nijkerk, L. H. Leunissen, and E. Gogolides, “Simulation of Materials and Processing Effects on Photoresist Line-Edge Roughness”, International Journal of Computational Science and Enginnering, 2 (3-4), (2007), 134-143.

[2] D. Drygiannakis, G. P. Patsis, I. Raptis, D. Niakoula, V. Vidali , E. Couladouros, P. Argitis , E. Gogolides, “Stochastic simulation studies of molecular resists”, Microelectronic Engineering, 84 (5-8), (2007), 1062-1065.

[3] N. Tsikrikas, D. Drygiannakis, G. P. Patsis, I. Raptis, S. Stavroulakis, E. Voyiatzis, “Stochastic simulation of material and process effects on the patterning of complex layouts”, Jap. J. Appl. Phys. 46 (9 B), 6191, (2007).

[4] V. Constantoudis, G. P. Patsis and E. Gogolides, “Correlation length and the problem of Line Width Roughness”, Proc. Proc. SPIE 6518, 65181N, (2007).

[5] D. Drygiannakis, N. Tsikrikas, G. P. Patsis, G. Kokkoris, I. Raptis, E. Gogolides, “Stochastic simulation of material and process effects on the patterning of complex layouts”, Proc. SPIE 6518, 651836, (2007).

[6] D. Drygianakis, M. D. Nijkerk, G. P. Patsis, G. Kokkoris, I. Raptis, L. H. A. Leunissen, and E. Gogolides, “Simulation of the combined effects of polymer size, acid diffusion length and EUV secondary electron blur on resist line-edge roughness”, Proc. SPIE 6519, 65193T, (2007).

[7] N. Tsikrikas, D. Drygiannakis, G. P. Patsis, I. Raptis, “Pattern matching, simulation and metrology of complex layouts fabricated by electron beam lithography”, J. Vac. Sci. Technol. B 25(6), 2307, (2007).

[8] D. N. Pagonis and A. G. Nassiopoulou, “Formation of confined macroporous silicon membranes on pre-defined areas on the Si substrate”, phys. stat. sol. (a) 204 (5), (2007), 1335–1339.

[9] D. N. Pagonis, A. Petropoulos, G. Kaltsas, A. G. Nassiopoulou and A. Tserepi, “Novel microfluidic flow sensor based on a microchannel capped by porous silicon”, phys. stat. sol. (a) 204 (5), (2007), 1474–1479.

[10] G. Kaltsas, A. Petropoulos, K. Tsougeni, D. N. Pagonis, T. Speliotis, E. Gogolides and A. G. Nassiopoulou, “A novel microfabrication technology on organic substrates – Application to a thermal flow sensor”, J. of Physics : Conference Series : 92, 012046,  (2007).

[11] D. Goustouridis, G. Kaltsas, A. G. Nassiopoulou, “A Silicon Thermal Accelerometer Without Solid Proof Mass Using Porous Silicon Thermal Isolation”, IEEE Sensors Journal, 7, (7), (2007), 983-989.

[12] G. Kaltsas, A. Petropoulos, K. Tsougeni, D. N. Pagonis, T. Speliotis, E. Gogolides and A. G. Nassiopoulou, “A novel microfabrication technology on organic substrates – Application to a thermal flow sensor”, Journal of Physics: C. Series, 92 (2007) 012046.

[13] I. Famelis, A. Bratsos, A. Kollias and Ch. Tsitouras, “Phase-Fitted Numerov type Methods”, Applied Mathematics and Computation, 184, (2007), 23-29.

[14] I. Famelis, A. Bratsos and A. Prospathopoulos, “A parametric finite-difference method for shallow sea waves”, Int. J. Numer. Meth. Fluids, 53, (2007), 129-147.

[1] E. Gogolides, V. Constantoudis, G. P. Patsis, A. Tserepi, “A review of line edge roughness and surface nanotexture resulting from patterning processes”, Microelectronic Engineering 83, 1067 (2006).

[2] G. P. Patsis, N. Tsikrikas I. Raptis, N. Glezos, “Electron beam lithography simulation for the fabrication of EUV masks”, Microelectronic Engineering 83, 1148 (2006).

[3] G. P. Patsis, and E. Gogolides, “Effects of model polymer chain architectures and molecular weight of photoresists on line-edge roughness. Monte Carlo Simulations”, Microelectronic Engineering, 83, 1078 (2006).

[4] G. P. Patsis, V. Constantoudis, and E. Gogolides, “Integrated simulation of line-edge roughness (LER) effects on sub-65 nm transistor operation: From lithography simulation, to LER metrology, to device operation”, Proc. SPIE 6151, 61513J (2006).

[5] V. Constantoudis, E. Gogolides, G. P. Patsis; M. I. Wagner, J. P. DeYoung, “Line-width roughness analysis of EUV resists after development in homogenous CO2 solutions using CO2 compatible salts (CCS) by using a three-parameter model”, Proc. SPIE 6153, 61533W (2006).

[6] G. P. Patsis, V. Constantoudis, and E. Gogolides, “Effects of Lithography Nonuniformity on Device Electrical Behavior. Simple Stochastic Modeling of Material and Process Effect on Device Performance”, J. Computational Electronics 5, 341 (2006).

[7] D.N. Pagonis, A.G. Nassiopoulou, “Free-Standing Macroporous Silicon Membranes Over a large Cavity for filtering and lab-on-chip applications”, Microelectronic Engineering, 83, (2006), 1421–1425.

[8] Ο. Tsakiridis, E. Zervas, E. Lytra and J. Stonham,  “High Frequency Digital Chaos Generator”, WSEAS Trans. on Communications, 5, (2006), 130-132.

[9] G. Kaltsas, D. Goustouridis and A. G. Nassiopoulou “A Thermal Convective Accelerometer System Based On A Silicon Sensor – Study And Packaging”, Sensors and Actuators A, 132 (2006), 147-153.

[1] G. P. Patsis, “Monte Carlo Study of Surface and Line-Width Roughness of Resist Film Surfaces during Dissolution”, Mathematics and Computers in Simulation 68(2), (2005), 145.

[2] L. H. A. Leunissen, M. Ercken, G. P. Patsis, “Determining the impact of statistical fluctuations on resist line-edge roughness”, Microelectronic Engineering, 2, (2005), 78–79.

[3] G. P. Patsis, and N. Glezos, “Electron-beam simulation for EUVL mask applications”, J. Phys. Conf. Series 10, (2005), 385–388.

[4] G. P. Patsis, and E. Gogolides, “Effects of model polymer chain architecture of photoresists on film surface and line edge roughness. Monte Carlo Simulations”, J. Phys. Conf. Series 10, (2005), 389–392.

[5] V.Constantoudis, E. Gogolides, G. P. Patsis, “Fractal Roughness of Polymers During Lithographic Processing”, VJpn. J. Appl. Phys. Lett. 44 (5A), L186 (2005).

[6] G. P. Patsis, “Stochastic Simulation of Thin Photoresist Film Dissolution: A Dynamic and a Quasi-Static Dissolution Algorithm for the Simulation of Surface and Line-Edge Roughness Formation”, Polymer 46, 2404 (2005).

[7] G. P. Patsis and E. Gogolides, “Material and Process Effects on Line-Edge-Roughness, Simulations using a Fast 3D Stochastic Lithography Simulator”, J. Vac. Sci. Technol. B(23), 1371 (2005).

[8] G. P. Patsis and E. Gogolides, “Material and Process Effects on Line-Edge-Roughness, Simulations using a Fast 3D Stochastic Lithography Simulator”, Virtual Journal of Nanoscale Science & Technology, 12 (5), (2005).

[9] G. P. Patsis, E. Gogolides, K. Van Werden, “Effects of Photoresist Polymer Molecular Weight and Acid-Diffusion on Line-Edge Roughness”, Jpn. J. Appl. Phys. 44(8), 6341 (2005).

[10] V. Sarris, G. P. Patsis and E. Gogolides, “A Stochastic Photoresist-Polymer Dissolution Model Combining the Percolation and Critical Ionization Models”, Jpn. J. Appl. Phys. 44(10), (2005), 7400.

[11] N. Pantazis, D. Kandris, “Power Control Schemes in Wireless Sensor Networks”, WSEAS Transactions on Communications, 10 (4), (2005), 1100-1107.

[12] S. Manesis, D. Kandris, N. Pantazis, “Application of Multi-Rate Signal Processing in Programmable Logic Controllers”, WSEAS Transactions on Systems, 4 (6), (2005), 890-894.

[13] O. Tsakiridis, E. Zervas, E. Lytra and J. Stonham, “Two Inputs Electronic Controlled Chaotic Pattern Modulator”, WSEAS Trans. on Circuits and Systems, 4, (2005), 1464-1468.

[14] P. Asimakopoulos, G. Kaltsas and A. G. Nassiopoulou, “A microcontroller-based interface circuit for data acquisition and control of a micromechanical thermal flow sensor”, Journal of Physics: C. Series, 10 (2005), 301-304.

[15] G. Kaltsas, D. Goustouridis, A. G. Nassiopoulou and D. Tsoukalas, “Combination of integrated thermal flow and capacitive pressure sensors for high sensitivity flow measurements in both laminar and turbulent regions” Journal of Physics: C. Series, 10 (2005), 277-280.