ISI Ranked Journals   Books and book chapters   Patents



ISI Ranked Journals
  1. M. Volmer, M. Avram, „Using permalloy based planar hall effect sensors to capture and detect superparamagnetic beads for lab on a chip applications”, Journal of Magnetism and Magnetic Materials, 381, 2015, pp.481-487.
  2. Iliescu, C., Mărculescu, C., Venkataraman, S.,  Languille, B. , Yu, H. and Tresset, G. “On-Chip Controlled Surfactant–DNA Coil–Globule Transition by Rapid Solvent Exchange Using Hydrodynamic Flow Focusing”, Langmuir, 2014, 30 (44), pp 13125–13136, DOI: 10.1021/la5035382
  3. A. Avram, A.C. Bunea, C. Obreja, M. Avram, B. Bita, C. Parvulescu, M. Popescu, D. Neculoiu, "Fabrication of Thin Dielectric Membranes for Microwave Applications", Digest  Journal of Nanomaterials and Biostructures 9: 2, April - June 2014, p. 475 – 481.
  4. Catalin MARCULESCU, Catalin Mihai BALAN, Andrei AVRAM and Marioara AVRAM, "Analyzing Microfluidic Devices Using Numerical Modeling", U.P.B. Sci. Bull., Series D, Vol. 76, Iss. 2, 2014, 235-241.
  5. M. Volmer, M. Avram, „Signal dependence on magnetic nanoparticles position over a planar Hall effect biosensor”, Microelectronic Engineering, 108, 2013, pp.116-120.
  6. Tresset, G., Mărculescu, C., Salonen, A., Ni, M., Iliescu, C. “Fine control over the size of surfactant- polyelectrolyte nanoparticles by hydrodynamic flow focusing”, Anal. Chem. 2013, 85, 5850−5856.
  7. M. Avram, C. Balan, I. Petrescu, V. Schiopu, C. Marculescu, A. Avram, “ Gold Nanoparticle Uptake by Tumor Cells of B16 Mouse Melanoma”, Plasmonics (2012), 7, 707-717.
  8. M. Volmer, M. Avram, „Microbeads Detection Using Spin-Valve Planar Hall Effect Sensors”, Journal of Nanoscience and Nanotechnology, Vol. 12, 1–4, 2012.
  9. C.Iliescu, H.Taylor, M. Avram, J.Miao, S. Franssila, „A practical guide for the fabrication of microfluidic devices using glass and silicon”, Biomicrofluidics 6, 016505 (2012); 1-16; doi: 10.1063/1.3689939.
  10. Broboană D., C. M. Bălan, T. Wohland, C. Bălan., 2011, "Investigations of the unsteady diffusion process in microchannels". J. Chem. Eng. Sci., vol. 66, pp. 1962-1972
  11. C. Iliescu, M. Avram, B. Chen, A. Popescu, V. Dumitrescu, D.P. Poenar, A. Sterian, D. Vrtacnik, S. Amon, P. Sterian, „Residual stress in thin films PECVD depositions: a review”, JOAM, vol.13, No.4, pp. 387-394, 2011.
  12. M. Volmer, M. Avram, „Micromagnetic Simulations on Detection of Magnetic Labelled Biomolecules Using MR Sensors”, Journal of Magnetism and Magnetic Materials, 321 (2010), 1683-1685.
  13. Bălan C. M., Broboană D. and Bălan C., 2010, "Mixing process of immiscible fluids in microchannels". Int. J. of Heat and Fluid Flow, vol 31, pp. 1125-1133
  14. M. Volmer, M. Avram, „Improving the Detection Sensitivity of Magnetic Micro Beads by Spin Valve Sensors”, The American Institute of Physics Conference Proceedings Series, Vol.1311, pp261-266, 2010, ISBN: 978-0-7354-0866-1
  15. Marius VOLMER, Marioara AVRAM, „On Designing a Positioning and Detection System for a Lab-on-a Chip Device”, ROJIST, Volume 13, Number 4, 2010, pp. 378–388
  16. F.S. Iliescu, A.P. Sterian , E. Barbarini, M. Avram, C. Iliescu, “Continuous Separation of White Blood Cells From Blood in a Microfluidic Device, UPB. Sci. Bull., Series A, Vol. 71, Is.4, ISSN 1223-7027, 2009.
  17. Jia-Shen Wei, Kwong Joo Leck, Philip Gaughwin, Marioara Avram, Ciprian Iliescu, „Low stress nanoporous SiNx membrane for cell culture” Int. J. Computational Materials Science and Surface Engineering, Vol. 2, No. 3/4, 2009, pp..268-281
  18. Ciprian Iliescu, Guolin Xu, Elena Barbarini,  Marioara Avram, Andrei Avram, „Microfluidic device for continuous magnetophoretic separation of white blood cells” , Microsystem technologies-micro-and nanosystems-information storage and processing systems (2009) 15, pp.1157–1162, DOI 10.1007/s00542-008-0718-9
  19. Marius Volmer, Marioara Avram,  „Micromagnetic simulations on detection of magnetic labelled biomolecules using MR sensors”, Journal of Magnetism and Magnetic Materials 321 (2009) pp.1683–1685
  20. M. Avram, A.M. Avram, R. Vasilco, M. Volmer, A. Popescu, and A. Ghiu, The optimised spin-valve magnetotransistor, Materials Science & Engineering B 152/1-3, (2008) pp. 72-75,
  21. M. Volmer, M. Avram, Electrical characterization of magnetoresistive sensors based on AMR and GMR effects used for lab-on-a-chip applications, Reviews on advanced materials science, 15(2008) 220-224,
  22. M. Volmer, J. Neamtu, M. Avram, Magnetoresistance sensors with magnetic layers for high sensitivity measurements, Journal of Optoelectronics & Advanced materials, 10(1), 2008, p.104– 109
  23. Mărculescu, C., Bălan, C., "Theoretical, experimental and numerical investigation of the flow generated by a 3D spinning disk", International Conference on Numerical Analysis and Applied Mathematics 2008, AIP Conference Proceedings 1048, p. 787-791.
  24. Marioara AVRAM, Andrei Marius AVRAM, Adina BRAGARU, Andrei GHIU, Ciprian ILIESCU, Plasma Surface Modification for Selective Hydrophobic Control, ROJIST, vol.11, No.4, pp. 409–422, (2008).
  25. Marius Volmer, Marioara Avram, „Magnetoresistive sensor based on AMR and GMR effects for biomedical applications”, Journal of Optoelectronics and Advanced Materials, vol.9, no. 6, pp. 1808-1812, 2007
  26. M. Volmer, M. Avram, J. Neamtu, “Development of a rotation sensor based on anisotropic magnetoresistance effect”, Journal of optoelectronics and advanced materials, 9(4), 2007, p. 1048-1051
  27. M. Avram, A. Avram and C. Iliescu, “Biodynamical analysis microfluidic system”, Microelectronic Engineering, vol. 83, issue 4-9, April-September 2006, pp. 1688-1691, doi:10.1016/j.mee.2006.01.158.
  28. M. Avram, C. Iliescu, O. Neagoe, C. Voitinicu and S. Nedelcu, “Bipolar magnetic microsensor for longitudinal and transversal magnetic fields”, Sensors and Actuators A, vol. 123-124, September 2005, pp. 296-302, doi:10.1016/j.sna.2005.04.010.
  29. M. Avram, „Deposition experiments of thin metallic multilayers with magnetoresistive properties”, Journal of optoelectronics and advanced materials, Volume: 6   Issue: 3   Pages: 987-990, (2004)
  30. M. Avram, O. Neagoe, C. Codreanu, „Bipolar magnetic microsensor for longitudinal fields”,   Sensors and Actuators A, Volume: 110   Issue: 1-3   Pages: 259-263, 2004
Books and book chapters
  1. Marioara Avram „Magnetoelectronic Microsensors”, (in Romanian), PRINTECH (2006), ISBN (13) 978-973-718-630-0
  2. Marioara Avram „Fundamentals of Microfluidics for Biomedical Applications”, (in Romanian), PRINTECH (2007), ISBN (10) -973-718-630-3
  3. M. Avram, M. Volmer, A. Avram, „Advanced Magnetoresistance Sensing of Rotation Rate for Biomedical Applications”, The American Institute of Physics Conference Proceedings Series, 1025 (2008), 186-193, ISBN 978-0-7354-05479-9
  4. C. Iliescu, A. Avram  „Metallization Over Nonplanar Surfaces”, Chemical Mineralogy, Smelting and Metallization, Nova Publishers, New York, USA, (2009), pp. 289-314, ISBN: 978-1-60876-765-6
  5. M. Volmer, M. Avram, „Bioanalytical Methods for Life Sciences. Chromatography. Sensors and Biosensors” pp. 85-98   Ed. Universitatii Transilvania din Brasov, (2010),    ISBN 978-973-598-723-7
  6. M. Volmer, M. Avram, „Improving the Detection Sensitivity of Magnetic Micro Beads by Spin Valve Sensors”, The American Institute of Physics Conference Proceedings Series,       Vol.1311, pp. 261-266, (2010), ISBN: 978-0-7354-0866-1
  7. M. Avram, A. Angelescu, M. Miu, I. Kleps, M. Simion „Thin Film Multilayer for Giant Magnetoresistive Sensor Applications”, Nanoscience and Nanoengineering, (2002) ISBN 973-27-0966-9, pp. 191 – 204, Publishing House of the Romanian Academy.
  8. M. Avram, G. Brezeanu, C. Codreanu, D. P. Poenar „Romanian Results in Micro- and Nanoelectronics on Silicon Carbide”, Advanced in Micro- and Nanoengineering, (2004) ISBN: 973-27-1110-8,  pp. 178 – 207, Publishing House of the Romanian Academy.
  9. Marius Volmer si Marioara Avram, Progress in Nanoscience and Nanotechnologies „Magnetoresistive sensors for biomedical applications a micromagnetic approach”,  (2007) ISBN: 978-973-27-1576-5, Publishing House of the Romanian Academy
  10. Andrei Avram, Marioara Avram, Marius Volmer, Daniel Puiu Poenar, Ciprian Iliescu „Magnetic – Based Microfluidic Platform for biomolecular separation”, New applications of micro- and nanotechnologies (2009), Publishing House of the Romanian Academy
  11. Bălan, C., Mărculescu, C., Călin, A., "Modeling of interfaces between immiscible fluids with the VOF method". Vortex Flow and Applications (ISBN 978-973-687-659-2), Eurostampa Publishing, Timişoara, Romania, 2008, p. 195-202.
  12. Broboană D., Bălan C.M., Bălan C., "Fluid Mechanics with FLUENT (Mecanicafluidelor cu FLUENT)" - Vol II.Chapter Numerical study of blood flow in carotid artery (Studiul numeric al curgerii sangvine în arteracarotidă).Editura Politehnica Press. 2010, ISBN: 973-7838-06-8.
  1. Reagent based on gold nanoparticles, recipe for its preparation and its use for mapping of tumor tissue architecture, Avram M; Petrescu I; Avram A; Radoi A, Patent Number: RO128557/29.08.2014
  2. Process for making spin valve transistor includes emitter, semiconductor collector, metallic base and structured nano multilayer with gigantic magnetoresistance, Marioara Avram, Anca Angelescu, Irina Kleps, Patent Number: RO122168-B1 
  3. Monolithic silicon based Hall sensor fabrication technique has symmetry, to minimize the main effects of parasitic elements on precision, Marioara Avram, Cecilia Codreanu, Patent Number: RO120515-B1 
  4. Production of bipolar magneto transistors provides two vertical npn transistors in an antisymmetrical configuration, (THE WIPO AWARD FOR WOMAN INVENTOR), Marioara Avram, Patent Number: RO120681-B1 
  5. Production of field emission based magnetic field sensors consists of controlled corrosion by MOSFET technique with regulated oxide formation, Marioara Avram, Anca Angelescu, Irina Kleps, Patent Number: RO118499-B 
  6. Microheater with distributed sensor network for the detection of temperature gradients, Cecilia Codreanu, Vasile Obreja, Marioara Avram, Irina Codreanu, No. 013928 / 09.06.2005. 
  7. Layout of the bipolar magnetotransistor, Marioara Avram, No. 4/11.02.2005 – TCI / 15.03.2005. 
  8. Layout of silicon integrated Hall microsensor, Marioara Avram, No. 3/11.02.2005 – TCI / 15.03.2005. 
  9. Microgear wheel fabricated with the sacrificial layer technique, Marioara Avram, Andrei Avram, brevet No. 016154 / 07.06.2006 
  10. Buried hot wire anemometer for the detection of turbulent flows in microfluidic channels, Marioara Avram, Andrei Marius Avram, Corneliu Voitincu, No. 13 – TPS/2011 
  11. Active magnetophoretic system for cell separation in magnetic field, Marioara Avram, Andrei Marius Avram, Corneliu Voitincu, Certificat No. 14 – TPS/2011 
  12. Microfluidic filter system for microparticle separation depending on morphological, electric and magnetic properties, Marioara Avram, Andrei Marius Avram, Corneliu Voitincu, No. 15 – TPS/2011 
  13. Magnetophoretic system for the detection of magnetic marked molecules, Marioara Avram, Andrei Marius Avram, Corneliu Voitincu, Certificat No. 16 – TPS/2011


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Last update: November, 2015