Publications

2024

77) " Multiplexed colorimetric assay of antioxidants in wines with paper-based sensors fabricated by pen plotting" A. Diela, V. Pagkali, C. Kokkinos, A. Calokerinos, A. Economou, Talanta, 2024, 277, 126425

76) "Digital fabrication of 3D printed bismuth sparked sensors for electrochemical sensing" M. Mertiri, J. Hrbac, M. Prodromidis, A. Economou, C. Kokkinos, Applied Materials Today, 2024,39, 102289

75) " Α simplified lateral flow immunosensor for the assay of carcinoembryonic antigen in low-resource settings" I. Tsogka, E. Mermiga, V. Pagkali, C. Kokkinos, A. Economou, Analytical Methods 2024,16, 2921-2929


74) "3D Printable Multifunctional Electrochemical Nano-Doped Biofilament". E. Koukouviti,  A. Economou, C. Kokkinos. Advanced Functional Materials 2024, 2402094.

2023

73) "Smartphone-Addressable Paper-Based Devices for the Colorimetric Detection of Ampicillin Based on Salt-Induced Aggregation of Gold Nanoparticles". D. Soulis , A. Economou, C. Kokkinos. Eng. Proc. 2023, 48, 40.

72) "Development of a “Green” Paper-Based Voltammetric Platform for the On-Site Assay of Tl(I)". K. Kouseri, I. Panagiotopoulou, D. Soulis, A. Economou , M. Prodromidis, C. Kokkinos. Eng. Proc. 2023, 48, 6.

71) "An Aptamer-Based Lateral Flow Biosensor for Low-Cost, Rapid and Instrument-Free Detection of Ochratoxin A in Food Samples" E. Mermiga, V. Pagkali, C.Kokkinos, A. Economou, Molecules,  2023, 28(24), 8135

70) "Paper-Based Aptasensors: Working Principles, Detection Modes, and Applications" A. Economou, C. Kokkinos, L. Bousiakou, T. Hianik, Sensors 2023, 23, 7786.


69) "Eco-friendly voltammetric platform for trace metal determination using a conductive polymer sensor modified with bismuth nanoparticles generated by spark discharge" A. Karapa, C. Kokkinos, P. R. Fielden, S. J. Baldock, N. J. Goddard, A. Economou, M. Prodromidis, Microchimica Acta,  190 (2023) 376


68) " A 3D-Printed Electrochemical Immunosensor Employing Cd/SeZnS QDs as Labels for the Rapid and Ultrasensitive Detection of Salmonella typhimurium in Poultry Samples" M. Angelopoulou, D.Kourti, M. Mertiri, P. Petrou, S. Kakabakos, C.Kokkinos, Chemosensors 2023, 11, 475.

67) "Electrochemical Determination of the Drug Colchicine in Pharmaceutical and Βiological Samples Using a 3D-Printed Device" M. Filopoulou, G. Michail, V. Katseli, A. Economou,C. Kokkinos, Molecules,  2023, 28(14), 5539

66) " 3D‑printed electrochemical glucose device with integrated Fe(II)‑MOF nanozyme" E. Koukouviti, A. K. Plessas, V. Pagkali, A. Economou, G. S. Papaefstathiou,  C. Kokkinos, Microchimica Acta,  190 (2023) 274

65) "Gold nanoparticle-modified sustainable plastic sensor chip for voltammetric monitoring of Hg(II)" A. Karapa, C. Kokkinos, P. R. Fielden, S. J. Baldock, N. J. Goddard, A. Economou, Talanta, 265 (2023) 124850

64)  "Wooden Tongue Depressor Multiplex Saliva Biosensor Fabricated via Diode Laser Engraving" E. koukouviti, D. Soulis, A. Economou, C. Kokkinos, Analytical Chemistry, 2023, 95, 6765-6768

63) " Immunosensors and Genosensors Based on Voltammetric Detection of Metal-Based Nanoprobes"C. Kokkinos,A. Economou,  Nanosensors (2023) 1st Edition,Chapter 5,  eBook ISBN: 9780367822286, DOI: 10.1201/9780367822286-5

62) "Rapid voltammetric monitoring of trace Αs(III) using disposable injection-moulded sensors in a portable configuration" A. Karapa, C. Kokkinos, P. R. Fielden, S. J. Baldock, N. J. Goddard, A. Economou, Journal of Electroanalytical Chemistry, 929 (2023) 117126

61) "Oxalamide Based Fe(II)-MOFs as Potential Electrode Modifiers for Glucose Detection " P. Oikonomopoulos, V. Pagkali, E. Kritikou, a. Panara, M. Kostakis,  N. Thomaidis,  T. Tziotzi, A. Economou, C. Kokkinos, G. S. Papaefstathiou  Chemistry, 5(1) (2023) 119-30

2022


60) "3D Printed Voltammetric Sensor Modified with an Fe(III)-Cluster for the Enzyme-Free Determination of Glucose in Sweat " E. Koukouviti, A. Plessas, A. Economou, N. Thomaidis, G. S. Papaefstathiou,  C. Kokkinos, Biosensors, 12(12) (2022) 1156

59) "Mechanical and electrochemical characterization of 3D printed orthodontic metallic appliances after in vivo ageing", S. Zinelis, G. Polychronis,F. Papadopoulos, C. Kokkinos, , A. Economou, N. Panayi, S.Papageorgiou, T. Eliades, Dental Materials  38 (2022) 1721-1727. 

58) "Electrochemical characterization of three types of Co-Cr based alloys manufactured by casting and selective laser melting according to ISO 10271", Y.S. Al Jabbari, S. Karavoltsos, C. Kokkinos, G. Polychronis, A. Economou, S. Zinelis, Dental Materials 38 (2022)1162-1172. 

57) "Plot‑on‑demand integrated paper‑based sensors for drop‑volume voltammetric monitoring of Pb(II) and Cd(II) using a bismuth nanoparticle‑modified electrode" D. Soulis,V. Pagkali, C. Kokkinos, A. Economou, Microchimica Acta (2022) 189:240

56) "Graphite paste sensor modified with a Cu(II)-complex for the enzyme-free simultaneous voltammetric determination of glucose and uric acid in sweat" F. Vasiliou, A. Plessas, A. Economou, N. Thomaidis, G. S. Papaefstathiou,  C. Kokkinos, Journal of Electroanalytical Chemistry, 917 (2022) 116393

55) "Wearable Electronic Finger for Date Rape Drugs Screening: From “Do-It-Yourself” Fabrication to Self-Testing" G. Poulladofonou, Ch. Freris, A. Economou, C. Kokkinos, Analytical Chemistry, 2022, 94, 9, 4087–4094

54) "Fully drawn electrochemical paper-based glucose biosensors fabricated by a high-throughput dual-step pen-on-paper approach with commercial writing stationery" V. Pagkali, D. Soulis, C. Kokkinos, A. Economou, Sensors and Actuators B, 2022,358,131546

2021


53) "Green Three-Electrode Sensors Fabricated by Injection-Moulding for On-Site Stripping Voltammetric Determination of Trace In(III) and Tl(I)" M. Pitsou,  C. Kokkinos, A. Economou, P. Fielden, S. Baldock, N. Goddard, Chemosensors 2021, 9(11), 310

52) "Single‐Use Fluidic Electrochemical Paper‐Based Analytical Devices Fabricated by Pen Plotting and Screen‐Printing for On‐Site Rapid Voltammetric Monitoring of Pb(II) and Cd(II)" D. Soulis, M. Trachioti, C. Kokkinos, A. Economou, M. Prodromidis, Sensors 2021, 21, 6908

51) "3D Printed Enzymatic Microchip for Multiplexed Electrochemical Biosensing", E. Koukouvity, C. Kokkinos, Analytica Chimica Acta,  1186 (2021) 339114

50) "Fully Integrated 3D-Printed Electronic Device for the On-Field Determination of Antipsychotic Drug Quetiapine", K. Ragazou, R. Lougkovois, V. Katseli, C. Kokkinos, Sensors 2021, 21(14), 4753

49) "Voltammetric Determination of Trace Heavy Metals by Sequential-Injection Analysis at Plastic Fluidic Chips with Integrated Carbon Fibre-Based Electrodes", V. Partheni, K. Svarnias, C. Kokkinos, A. Economou, P. Fielden, S. Baldock, N. Goddard, Electroanalysis, 33 (2021) 1930-1935 

48) "3D Printed Bioelectronic Microwells", V. Katseli, M. Angelopoulou, C. Kokkinos, Advanced Functional Materials, 2021, 31, 2102459 

47) "3D-printed fluidic electrochemical microcell for sequential injection/stripping analysis of heavy metals", A. Baltima, H. Panagopoulou, A. Economou, C. Kokkinos, Analytica Chimica Acta, 1159 (2021) 338426

46) "Smartphone-Addressable 3D-Printed Electrochemical Ring for Nonenzymatic Self-Monitoring of Glucose in Human Sweat", V. Katseli, A. Economou, C. Kokkinos, Analytical Chemistry, 2021,  93, 7, 3331–3336

45) " 3D printed microcell featuring a disposable nanocomposite Sb/Sn immunosensor for quantum dot-based electrochemical determination of adulteration of ewe/goat’s cheese with cow’s milk"  , D. Livas, M. Trachioti, S. Banou, M. Angelopoulou, A. Economou, M. Prodromidis, P. Petrou, S. Kakabakos, C. Kokkinos, Sensors and Actuators B334 (2021) 129614

2020

44) " Rapid Drop-Volume Electrochemical Detection of the “Date Rape” Drug Flunitrazepam in Spirits Using a Screen-Printed Sensor in a Dry-Reagent Format"  F. Papadopoulos, K. Diamanteas, A. Economou, C. Kokkinos, Sensors 2020, 20(18), 5192

43) " Voltammetric Determination of Pb(II) by a Ca-MOF-Modified Carbon Paste Electrode Integrated in a 3D-Printed Device", E. Vlachou, A. Margariti, G. Papaefstathiou,C. Kokkinos, Sensors 2020, 20(16), 4442

42) " 3D-printed lab-in-a-syringe voltammetric cell based on a working electrode modified with a highly efficient Ca-MOF sorbent for the determination of Hg (II)" C. Kokkinos, A. Economou, A. Pournara, M. Manos, I. Spanopoulos, M. Kanatzidis, T. Tziotzi, V. Petkov, A. Margariti, P. Oikonomopoulos, G. Papaefstathiou,Sensors and Actuators B, 321 (2020) 128508


41) "Recent advances in voltammetric, amperometric and ion-selective (bio)sensors fabricated by microengineering manufacturing approaches" C. Kokkinos, A. Economou, Current Opinion in Electrochemistry 2020, 23:21–25

40) "Καινοτόμοι ηλεκτροχημικοί (βιο)αισθητήρες" Χ. Κόκκινος, Α. Οικονόμου, Χημικά Χρονικά 82 (2020) 10-15

39) "Miniature 3D-printed integrated electrochemical cell for trace voltammetric Hg(II) determination" V. Katseli, Ν. Thomaidis,  A. Economou, C. Kokkinos, Sensors and Actuators B, 308 (2020) 127715

38) "A novel all-3D-printed cell-on-a-chip device as a useful electroanalytical tool: Application to the simultaneous voltammetric determination of caffeine and paracetamol", V. Katseli, A. Economou, C. Kokkinos, Talanta 208 (2020) 120388

2019


37) "Disposable Injection Molded Conductive Electrodes Modified with Antimony Film for the Electrochemical Determination of Trace Pb(II) and Cd(II)", S. Christidi, A. Chrysostomou, A. Economou, C. Kokkinos, P.  Fielden, S. Baldock, N. Goddard, Sensors 2019, 19(21), 4809

36) "Electrochemical DNA Biosensors Based on Labeling with Nanoparticles" C. Kokkinos, Nanomaterials, 2019, 9(10), 1361

35) “A Ca2+ MOF combining highly efficient sorption and capability for voltammetric determination of heavy metal ions in aqueous media”,A. Pournara,  A. Margariti,  G. Tarlas,  A. Kourtellaris,  V. Petkov,  C. Kokkinos,  A. Economou,  G. Papaefstathiou, M. Manos,  Journal of Materials Chemistry A, 2019, 7, 15432–15443

34) “Single-step fabrication of an integrated 3D-printed device for electrochemical sensing applications“ V. Katseli, A. Economou, C. Kokkinos, Electrochemistry Communications, 103 (2019) 100–103

33) “Integrated on-chip sensor with sputtered Ag-Au-Au electrodes for the voltammetric determination of trace Hg(II)” E. Roditi, M. Tsetsoni, C. Kokkinos, A. Economou, Sensors and Actuators B, 2019, 286, 125-130.

2018

32) “Paper-based microfluidic device with integrated sputtered electrodes for stripping voltammetric determination of DNA via quantum dot labeling” C. Kokkinos, D. Giokas, A. Economou, P. Petrou, S. Kakabakos.  Analytical Chemistry, 2018, 90, 1092-1097

31) “Paper-based device with a sputtered tin-film electrode for the voltammetric determination of Cd(II) and Zn(II) ” C. Kokkinos, A. Economou, D. Giokas,  Sensors and Actuators B, 2018, 260, 223-226.

30) “Flexible plastic, paper and textile lab-on-a chip platforms for electrochemical biosensing”. A. Economou ,C. Kokkinos, M. Prodromidis, Lab on Chip, 2018, 18, 1812-1830.

29) “Integrated electrochemical immunosensors”. C. Kokkinos, A. Economou, 2018. In: Wandelt, K., (Ed.) Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, vol. 7, pp 261–268.

28) “Microfabricated Au-film sensors for the voltammetric determination of Hg(II) ”  M. Tsetsoni, E. Roditi, C. Kokkinos, A. Economou,  Proceedings mdpi 2018, 2, 1518; doi:10.3390/proceedings2131518,

2017

27) “Emerging trends in biosensing using stripping voltammetric detection  of metal-containing nanolabels - A review”. C. Kokkinos, A. Economou.  Analytica Chimica Acta, 2017, 961, 12-32. 

2016

26) “Electrochemical immunosensors: Critical survey of different architectures and transduction strategies”. C. Kokkinos, A. Economou M. Prodromidis. Trends in Analytical Chemistry, 2016, 79, 88-105.

 25) “Microfabricated chip integrating a bismuth microelectrode array for the determination of trace cobalt(II) by adsorptive cathodic stripping voltammetry”. C. Kokkinos, A. Economou. Sensors and Actuators B, 2016, 229, 362-369.

 24) “Determination of Pb(II) by sequential injection/stripping analysis at all-plastic electrochemical fluidic cells with integrated composite electrodes”. C. Kokkinos, A. Economou, N. G. Goddard, P. R. Fielden, S. J. Baldock. Talanta, 2016, 153, 170-176.

 23) “Lab-on-a-membrane foldable devices for duplex drop-volume electrochemical biosensing using quantum dot tags”. C. Kokkinos, Μ. Angelopoulou, A. Economou, M. Prodromidis, A. Florou, W. Haasnoot, P. Petrou, S. Kakabakos. Analytical Chemistry, 2016, 88, 6897-6904.

2015

22) “Flexible microfabricated film sensors for the in situ quantum dot-based voltammetric detection of DNA hybridization in microwells”.  C. Kokkinos, A. Economou, T. Speliotis, P. Petrou, S. Kakabakos.  Analytical Chemistry, 2015, 87, 853-857.

21) “Quantum dot-based electrochemical DNA biosensor using a screen-printed graphite surface with embedded bismuth precursor”. C. Kokkinos, M. Prodromidis, A. Economou, P. Petrou, S. Kakabakos. Electrochemistry Communications, 2015, 60, 47-51.

20) “Disposable integrated bismuth citrate-modified screen-printed immunosensor for ultrasensitive quantum dot-based electrochemical assay of C-reactive protein in human serum”.  C. Kokkinos, M. Prodromidis, A. Economou, P. Petrou, S. Kakabakos. Analytica Chimica Acta, 2015, 886, 29-36.

19) “Advances in Stripping Analysis of Metals”.  A. Economou, C. Kokkinos. RSC Detection Science Series No. 6, Electrochemical Strategies in Detection Science, 2015, 1-18.

2014

18) “Disposable microfabricated 3-electrode electrochemical devices with integrated antimony working electrode for stripping voltammetric determination of selected trace metals”. C. Kokkinos, A. Economou.  Sensors and Actuators B, 2014, 192 , 572-577.

 17) “Tin-film mini-sensors fabricated by a thin-layer microelectronic approach for stripping voltammetric determination of trace metals”. C. Kokkinos, A. Economou, T. Speliotis.  Electrochemistry Communications, 2014, 38, 96-99.

 16) “Tin film sensor with on-chip three-electrode configuration for voltammetric determination of trace Tl(I) in strong acidic media”. C. Kokkinos, A. Economou. Talanta, 2014, 125, 215-220.

2013

15) “Voltammetric determination of trace Tl(I) at disposable screen-printed electrodes modified with bismuth precursor compounds”.  N. Lezi, C. Kokkinos, A. Economou, M. I. Prodromidis. Sensors and Actuators B, 2013, 182, 718-724.

14) “Microfabricated tin−film electrodes for protein and DNA sensing based on stripping voltammetric detection of Cd(II) released from quantum dots labels”. C. Kokkinos, A. Economou, P. Petrou, S. Kakabakos. Analytical Chemistry, 2013, 85, 10686-10691.

2012

13) “Microfabricated disposable lab-on-a-chip sensors with integrated bismuth microelectrode arrays for voltammetric determination of trace metals”. C. Kokkinos, A. Economou, I. Raptis. Analytica Chimica Acta, 2012, 710, 1-8.

2011

12) “Disposable Nafion-modified micro-fabricated bismuth-film sensors for voltammetric stripping analysis of trace metals in the presence of surfactants”. C. Kokkinos, A. Economou.  Talanta, 2011, 84, 696-701.

11) “Disposable lithographically fabricated bismuth microelectrode arrays for stripping voltammetric detection of trace metals”. C. Kokkinos, A. Economou, I. Raptis, T. Speliotis.  Electrochemistry Communications, 2011, 13, 391-395.

10) “Disposable microfabricated bismuth microelectrode arrays for trace metal analysis by stripping voltammetry”. C. Kokkinos, A. Economou, I. Raptis, T. Speliotis. Proceedia Engineering, 2011, 25, 880-883.

2010

9) “Determination of trace Tl(I) by anodic stripping voltammetry on novel disposable micro-fabricated bismuth-film sensors”.  C. Kokkinos, I. Raptis, A.Economou, T. Speliotis.  Electroanalysis, 2010, 22, 2359-2365.

2009

8) “Determination of trace cobalt(II) by adsorptive stripping voltammetry on disposable microfabricated electrochemical cells with integrated planar metal-film electrodes”. C. Kokkinos, A. Economou, M. Koupparis.  Talanta, 2009, 77, 1137-1142.

7) “Novel disposable microfabricated antimony-film electrodes for adsorptive stripping analysis of trace Ni(II)”.  C. Kokkinos, A. Economou, I. Raptis, T. Speliotis.  Electrochemistry Communications, 2009, 11, 250-253.

6) “Disposable micro-fabricated electrochemical bismuth sensors for the determination of Tl(I) by stripping voltammetry”.  C. Kokkinos, I. Raptis, A. Economou, T. Speliotis. Proceedia Chemistry, 2009, 1, 1039-1042.

2008

5) “Lithographically fabricated disposable bismuth-film electrodes for the trace determination of Pb(II) and Cd(II) by anodic stripping voltammetry”.  C. Kokkinos, A. Economou, I. Raptis, C. E. Efstathiou. Electrochimica Acta, 2008, 53, 5294-5299.

4) “Disposable mercury-free cell-on-a-chip devices with integrated microfabricated electrodes for the determination of trace nickel(II) by adsorptive stripping voltammetry”. C. Kokkinos, A. Economou, I. Raptis, T. Speliotis.  Analytica Chimica Acta, 2008, 622, 111-118.

3) “Stripping analysis at bismuth-based electrodes”. C. Kokkinos, A. Economou.  Current Analytical Chemistry, 2008, 4, 183-190.

2) “Lithographically-fabricated bismuth-film electrodes as disposable mercury-free voltammetric sensors for trace analysis of Pb(II) ”.  C. Kokkinos, A. Economou, I. Raptis, T. Speliotis, C. E. Efstathiou.  Sensing in Electroanalysis, University of Pardubice, 2008, 3, 91-103.

2007

1) “Novel disposable bismuth-sputtered electrodes for the determination of trace metals by stripping voltammetry”. C. Kokkinos, A. Economou, I. Raptis, T. Speliotis, C. E. Efstathiou. Electrochemistry Communications, 2007, 9, 2795-2800.