Pubblicazioni

LISTA DELLE PUBBLICAZIONI [*autore corrispondente, Yautori che hanno contribuito egualmente]

PUBLICATIONS LIST [*corresponding author, Yequally contributed authors]

[76]   Tricase, A., Imbriano, A., Ditaranto, N., Macchia, E., Picca, R.A., Blasi, D., Torsi, L., Bollella, P., Electrochemical and X-ray Photoelectron Spectroscopy Surface Characterization of Interchain-Driven Self-Assembled Monolayer (SAM) Reorganization, Nanomaterials, (2022) 12, art. No. 867. DOI: https://doi.org/10.3390/nano12050867. (IF 2020: 5.076) 

[75]   Tasić, M., Ivković, J., Carlström, G., Melcher, M., Bollella, P., Bendix, J., Gorton, L., Persson, P., Uhlig, J., Strand, D., Electro-mechanically switchable hydrocarbons based on [8]annulenes, Natur. Commun., (2022) 13, art. No. 860. DOI: https://doi.org/10.1038/s41467-022-28384-8. (IF 2020: 14.92) 

[74]   Macchia, E., Torricelli, F., Bollella, P., Sarcina, L., Tricase, A., Di Franco, C., Österbacka, R., Kovács-Vajna, Z.M., Scamarcio, G., Torsi, L., Large-Area Interfaces for Single-Molecule Label-free Bioelectronic Detection, Chem. Rev., (2022) 122, pp. 4636-4699. DOI: https://doi.org/10.1021/acs.chemrev.1c00290. (IF 2020: 60.22) 

[73] Sarcina, L., Macchia, E., Tricase, A., Imbriano, A., Scandurra, C., Cioffi, N., Torsi, L., Bollella, P.*, Enzyme based field effect transistor: State‐of‐the‐art and future perspectives, Electrochemical. Sci. Adv., (2022), art. No. e2100216. DOI: https://doi.org/10.1002/elsa.202100216. (IF 2020: N/A)

[72]   Tricase, A., Imbriano, A., Macchia, E., Sarcina, L.,Scandurra, C., Cioffi, N., Torsi, L., Bollella, P.*, Enzyme based amperometric wide field biosensors: Is single‐molecule detection possible?, Electrochemical. Sci. Adv., (2022), art. No. e2100215. DOI: https://doi.org/10.1002/elsa.202100215. (IF 2020: N/A) 

[71]   Pankratova, G., Bollella, P.*, Pankratov, D., Gorton, L., Supercapacitive biofuel cells, Curr. Opin Biotech., (2022) 73, pp. 179-187. DOI: https://doi.org/10.1016/j.copbio.2021.08.008. (IF 2020: 9.74) 

[70]   Masi, M., Bollella, P., Smutok, O., Katz, E., Photo-stimulated self-powered electrochemical system for DNA release, Sens. Actuat. Rep. (2021) 3, art. No. 100058. DOI: https://doi.org/10.1016/j.snr.2021.100058. (IF 2020: N/A) 

[69]   Bollella, P.*, Melman, A., Katz, E., Operando Local pH Mapping of Electrochemical and Bioelectrochemical Reactions Occurring at an Electrode Surface: Effect of the Buffer Concentration, ChemElectroChem (2021) 8, pp. 3923-3935. DOI: https://doi.org/10.1002/celc.202101141. (IF 2020: 4.590)

[68]    Bollella, P., Edwardraja, S., Guo, Z., Vickers, C.E., Whitfield, J., Walden, P., Melman, A., Alexandrov, K., Katz, E., Connecting Artificial Proteolytic and Electrochemical Signaling Systems with Caged Messenger Peptides, ACS Sensors (2021) 6, pp. 3596-3603. DOI: https://doi.org/10.1021/acssensors.1c00845. (IF 2020: 7.711

[67]   Parnianchi, F., Kashanian, S., Nazai, M., Santoro, C., Bollella P., Varmira, K., Highly selective and sensitive molecularly imprinting electrochemical sensing platform for bilirubin detection in saliva, Microchem. Journal (2021) 168, art. No. 106367. DOI: https://doi.org/10.1016/j.microc.2021.106367. (IF 2020: 4.821)

[66]   Massana Roquero, D., Bollella, P., Smutok, O., Melman, A., Katz, E., Protein release from interpenetrating polymer network hydrogels triggered by endogenous biomarkers, Mater. Today Chem., (2021) 21, art. No. 100514. DOI: https://doi.org/10.1016/j.mtchem.2021.100514. (IF 2020: 8.301) 

[65]   Massana Roquero, D., McCorduck, B., Bollella, P.*, Smutok, O., Melman, A., Katz, E., Biomolecule Release from Alginate Composite Hydrogels Triggered by Logically Processed Signals, ChemPhysChem, (2021) 22, 1967-1975. DOI: https://doi.org/10.1002/cphc.202100458. (IF 2020: 3.102) 

[64]   Ciogli, L., Zumpano, R., Poloznikov, A. A., Hushpulian, D. M., Tishkov, V. I., Andreu, R., Gorton, L., Mazzei, F., Favero, G., Bollella, P.*, Highly Sensitive Hydrogen Peroxide Biosensor Based on Tobacco Peroxidase Immobilized on p-Phenylenediamine Diazonium Cation Grafted Carbon Nanotubes: Preventing Fenton-like Inactivation at Negative Potential, ChemElectroChem, (2021) 8, pp. 2495-2504. DOI: https://doi.org/10.1002/celc.202100341. (IF 2020: 4.590) 

[63]   Sarcina, L., Mangiatordi, G. F., Torricelli, F., Bollella, P., Gounani, Z., Österbacka, R., Macchia, E., Torsi, L., Surface Plasmon Resonance Assay for Label-Free and Selective Detection of HIV-1 p24 Protein, Biosensors, (2021) 11, art. No. 180. DOI: https://doi.org/10.3390/bios11060180. (IF 2020: 5.519) 

[62]   Tricase, A., Stefanachi, A., Picca, R. A., Macchia, E., Favia, A., Leonetti, F, Scamarcio, G., Blasi, D., Bollella, P.*, Torsi, L., Negatively charged ions to probe self-assembled monolayer reorganization driven by interchain interactions, J. Mater. Chem. C, (2021) 9, pp. 10935-10943. DOI: https://doi.org/10.1039/D1TC02399C. (IF 2020: 7.393) 

[61]   Bollella, P.*, Kadambar, V. K., Melman, A., Katz, E., Reconfigurable Implication and Inhibition Boolean logic gates based on NAD+‐dependent enzymes: Application to signal‐controlled biofuel cells and molecule release, Electrochem. Sci. Adv., (2021), art. No. e2100008. DOI: https://doi.org/10.1002/elsa.202100008. (IF 2020: N/A) 

[60]   Szekeres, K., Bollella, P.*, Kim, Y., Minko, S., Melman, A., Katz, E., Magneto-Controlled Enzyme Activity with Locally Produced pH Changes, J. Phys. Chem. Lett., (2021) 12, 2523-2527. DOI: https://doi.org/10.1021/acs.jpclett.1c00036. (IF 2020: 6.475) 

[59]   Massana Roquero, D., Bollella, P., Katz, E., Melman, A., Controlling Porosity of Calcium Alginate Hydrogels by Interpenetrating Polyvinyl Alcohol−Diboronate Polymer Network, ACS Appl. Polym. Mater., (2021) 3, pp. 1499-1507. DOI:https://doi.org/10.1021/acsapm.0c01358. (IF 2020: N/A) 

[58]   Bollella, P.*, Guo, Z., Edwardraja, S., Kadambar, V. K., Alexandrov, K., Melman, A., Katz, E., Self-powered molecule release systems activated with chemical signals processed through reconfigurable Implication or Inhibition Boolean logic gates, Bioelectrochemistry, (2021) 138, art. No. 107735. DOI: https://doi.org/10.1016/j.bioelechem.2020.107735. (IF 2020: 5.373) 

[57]   Bollella, P., Boeva, Z., Latonen, R.-M., Kano, K., Gorton, L, Bobacka, J.,  Highly Sensitive and Stable Fructose Self-Powered Biosensor based on a Self-Charging Biosupercapacitor, Biosens. Bioelectron., (2021) 176, art. No. 112909. DOI:https://doi.org/10.1016/j.bios.2020.112909. (IF 2020: 10.618)   

[56]   Katz, E., Bollella, P.*, Fuel Cells and Biofuel Cells: From Past to Perspectives, Isr. J. Chem., (2021) 61, 68-84. DOI: https://doi.org/10.1002/ijch.202000039. (IF 2020: 3.333)

[55]   Kadambar, V. K., Bellare, M., Bollella, P., Katz, E., Melman, A., Electrochemical control of the catalytic activity of immobilized enzymes, Chem. Commun., (2020) 56, pp. 13800-13803. DOI: https://doi.org/10.1039/D0CC06190E. (IF 2020: 6.222) 

[54]   Masi, M., Bollella, P.*, Riedel, M., Lisdat, F., Katz, E., Photobiofuel Cell with Sustainable Energy Generation Based on Micro/Nanostructured Electrode Materials, ACS Appl. Energy Mater., (2020) 3, 9543-9549. DOI:https://doi.org/10.1021/acsaem.0c02169. (IF 2020: 6.024)  

[53]   Kaniewska, K., Bollella, P.*, Katz, E., Implication and Inhibition Boolean Logic Gates Mimicked with Enzyme Reactions, ChemPhysChem, (2020) 21, 2150-2154. DOI: https://doi.org/10.1002/cphc.202000653. (IF 2020: 3.102)  

[52]   Zumpano, R., Lambertini, L., Tortolini, C., Bollella, P.*, Favero, G., Antiochia, R., Mazzei, F., A Glucose/Oxygen Enzymatic Fuel Cell exceeding 1.5 V based on Glucose Dehydrogenase Immobilized onto polyMethylene Blue-Carbon Nanotubes modified Double-Sided Screen Printed Electrodes: Proof-of-Concept in Human Serum and Saliva, J. Power Sources, (2020) 476, art. no. 228615. DOI: https://doi.org/10.1016/j.jpowsour.2020.228615. (IF 2020: 9.127) 

[51]   Bollella, P., Edwardraja, S., Guo, Z., Alexandrov, K., Katz, E., Control of Allosteric Protein Electrochemical Switch Using Magnetic Signals, Chem. Commun., (2020) 56, pp. 9206-9209. DOI: https://doi.org/10.1039/D0CC04284F. (IF 2020: 6.222) 

[50]   Bollella, P.*, Katz, E., Enzyme-Based Biosensors: Tackling Electron Transfer Issues, Sensors, (2020) 20, art. no. 3517. DOI: https://doi.org/10.3390/s20123517. (IF 2020: 3.576) 

[49]   Bollella, P., Edwardraja, S., Guo, Z., Alexandrov, K., Katz, E., Control of Allosteric Protein Electrochemical Switches with Biomolecular and Electronic Signals, J. Phys. Chem. Lett., (2020) 10, pp. 5549-5554. DOI: https://doi.org/10.1021/acs.jpclett.0c01223. (IF 2020: 6.475)

[48]   Bollella, P.*, Melman, A.,  Katz, E., Electrochemically Generated Interfacial pH Change–Application to Signal‐Triggered Molecule Release, ChemElectroChem, (2020) 3, pp. 3386-3407. DOI: https://doi.org/10.1002/celc.202000615. (IF 2020: 4.590) 

[47]   Massana Roquero, D., Bollella, P.*, Melman, A., Katz, E., Nanozyme-Triggered DNA Release from Alginate Films, ACS Appl. Bio Mater., (2020) 3(6), pp. 3741-3750. DOI: https://doi.org/10.1021/acsabm.0c00348. (IF 2020: N/A)

[46]   Bollella, P.*, Katz E. DNA Computing – Origination, Motivation and Goals, Int. J. Unconv. Comp., (2020) 15, pp. 127-140. (IF 2020: 0.725) 

[45]   Bollella, P.*, Porous Gold: A New Frontier for Enzyme-Based Electrodes, Nanomaterials (2020) 10, art. no. 722. DOI: https://doi.org/10.3390/nano10040722. (IF 2020: 5.076)  

[44]   Bollella, P., Bellare, M., Kadambar, V. K., Guo, Z., Alexandrov, K., Melman, A., Katz, E., Boolean Logic Networks Mimicked with Chimeric Enzymes Activated/Inhibited by Several Input Signals, ChemPhysChem, (2020) 21(7), pp. 589-593. DOI: https://doi.org/10.1002/cphc.201901050. (IF 2020: 3.102) 

[43]   Calitri, G.YBollella, P.Y, Ciogli, L., Tortolini, C., Mazzei, F., Antiochia, R., Favero, G., Evaluation of different storage processes of passion fruit (Passiflora edulis Sims) using a new dual biosensor platform based on a conducting polymer. Microchem. J. (2020) 154, art. no. 104573. DOI: https://doi.org/10.1016/j.microc.2019.104573. (IF 2020: 4.821) 

[42]   Masi, M., Bollella, P.*, Katz, E., Biomolecular Release Stimulated by Electrochemical Signals at a Very Small Potential Applied. Electroanalysis, (2020) 32, pp. 95-103. DOI: https://doi.org/10.1002/elan.201900377. (IF 2020: 3.223)

[41]   Bollella, P., Lee, I., Blaauw, D., Katz, E., A Microelectronic Sensor Device Powered by a Small Implantable Biofuel Cell. ChemPhysChem, (2020) 21(1), pp. 120-128. DOI: https://doi.org/10.1002/cphc.201900700. (IF 2020: 3.102)  

[40]   Singh, M., Bollella, P., Gorton, L., Dey, E., Dicko, C., Conductive and Enzime-Like Silk Fibers for Soft Sensing Application. Biosens. Bioelectron., (2020) 150, art. no. 111859. DOI: https://doi.org/10.1016/j.bios.2019.111859. (IF 2020: 10.618)  

[39]   Bellare, M., Kadambar, V. K., Bollella, P., Katz, E., Melman, A., Molecular Release Associated with Interfacial pH Change Stimulated by a Small Electrical Potential Applied. ChemElectroChem, (2020) 7, pp. 59-63. DOI: https://doi.org/10.1002/celc.201901713. (IF 2020: 4.590) 

[38]   Masi, M., Bollella, P.*, Katz, E., DNA Release from a Modified Electrode Triggered by a Bioelectrocatalytic Process. ACS Appl. Mater. Interfaces, (2019) 11(50), pp. 47625-47634. DOI: https://doi.org/10.1021/acsami.9b18427. (IF 2019: 8.758)  

[37]   Momeni, M. H., Bollella, P.Ortiz, R., Thormann, E., Gorton, L., Hachem, M. A., A novel starch-binding laccase from the wheat pathogen Zymoseptoria tritici highlights the functional diversity of ascomycete laccases. BMC Biotechnology (2019) 19 (1), art. no. 61. DOI: https://doi.org/10.1186/s12896-019-0552-4. (IF 2019: 2.29) 

[36]   Bellare, M., Kadambar, V. K., Bollella, P., Gamella, M., Katz, E., Melman, A., Electrochemical Signal-Triggered Release of Biomolecules Functionalized with His-tag Units. Electroanalysis, (2019) 31 (11), pp. 2274-2282. DOI: https://doi.org/10.1002/elan.201900238. (IF 2019: 2.550)  

[35]   Piccinino, D., Capecchi, E., Botta, L., Bollella, P., Antiochia, R., Crucianelli, M., Saladino, R., Layer by Layer Supported Laccase on Lignin Nanoparticles catalyzes the selective Oxidation of Alcohols to Aldehydes. Catal. Sci. Technol., (2019) 9 (15), pp. 4125-4134. DOI: https://doi.org/10.1039/C9CY00962K. (IF 2019: 5.726) 

[34]   Bollella, P., Sharma, S., Cass, A. E. G., Tasca, F., Antiochia, A., Minimally Invasive Glucose Monitoring Using a Highly Porous Gold Microneedles-Based Biosensor: Characterization and Application in Artificial Interstitial Fluid. Catalysts, (2019) 9 (7), art. no. 580. DOI: https://doi.org/10.3390/catal9070580. (IF 2019: 3.520) 

[33]   Bellare, M., Kadambar, V. K., Bollella, P., Katz, E., Melman, A., Electrochemically stimulated molecule release associated with interfacial pH changes. Chem. Commun., (2019) 55 (54), pp. 7856-7859. DOI: https://doi.org/10.1039/C9CC03467F. (IF 2019: 5.998)

[32]   Filipov, Y., Bollella, P.*, Katz, E., Not-XOR (NXOR) Logic Gate Realized with Enzyme-Catalyzed Reactions - Optical and Electrochemical Signal Transduction. ChemPhysChem, (2019) 20 (16), pp. 2082-2092. DOI: https://doi.org/10.1002/cphc.201900528. (IF 2019: 3.144)  

[31]   Karschuck, T. L., Filipov, Y., Bollella, P.*, Schöning, M., Katz, E., Not-XOR (NXOR) Logic Gate Based on an Enzyme-Catalyzed Reaction. Int. J. Unconv. Comp., (2019) 14 (3-4), pp. 235-242. (IF 2019: 0.725) 

[30]   Bollella, P., Hibino, Y., Conejo-Valverde, P., Soto-Cruz, J., Bergueiro, J., Calderón, M., Rojas-Carrillo, O., Kano, K., Gorton, L., The influence of the shape of Au nanoparticles on the catalytic current of fructose dehydrogenase. Anal. Bioanal. Chem., (2019). 411 (29), pp. 7645-7657. DOI: https://doi.org/10.1007/s00216-019-01944-6. (IF 2019: 3.637) 

[29]   Tasca F., Tortolini C., Bollella P., Antiochia R., Microneedles-based electrochemical devices for transdermal biosensing: a review, Curr. Opin. Electrochem., (2019) 16, pp. 42-49. DOI: https://doi.org/10.1016/j.coelec.2019.04.003. (IF 2019: 5.579) INVITED REVIEW 

[28]   Bollella, P.*, Katz E., Unconventional Computing Based on Enzyme-Catalyzed Reactions –Motivation, Goals, Perspectives. Int. J. Unconv. Comp., (2019) 14 (3-4), pp. 181-198. (IF 2019 0.725) 

[27]   Bollella, P., Sharma, S., Cass, A.E.G., Antiochia, R., Minimally-invasive Microneedle-based Biosensor Array for Simultaneous Lactate and Glucose Monitoring in Artificial Interstitial Fluid. Electroanalysis, (2019) 31 (2), pp. 374-382. DOI: https://doi.org/10.1002/elan.201800630. (IF 2019: 2.550)  

[26]   Bollella, P., Sharma, S., Cass, A.E.G., Antiochia, R., Microneedle-based biosensor for minimally-invasive lactate detection. Biosens. Bioelectron., (2019) 123, pp. 152-159. DOI: https://doi.org/10.1016/j.bios.2018.08.010. (IF 2019: 10.257) 

[25]   Rafighi, P., Bollella, P., Pankratova, G., Peterbauer, C.K., Conghaile, P.Ó., Leech, D., Haghighi, B., Gorton, L. Substrate Preference Pattern of Agaricus meleagris Pyranose Dehydrogenase Evaluated through Bioelectrochemical Flow Injection Amperometry. ChemElectroChem, (2019) 6 (3), pp. 801-809. DOI: https://doi.org/10.1002/celc.201801194. (IF 2019: 4.154) 

[24]   Tortolini, C., Bollella, P., Zumpano, R., Favero, G., Mazzei, F., Antiochia, R. Metal Oxide Nanoparticle Based Electrochemical Sensor for Total Antioxidant Capacity (TAC) Detection in Wine Samples. Biosensors, (2018) 8 (4), art. no.108. DOI: https://doi.org/10.3390/bios8040108. (IF 2019: 3.240) 

[23]   Bollella, P.*, Hibino, Y., Kano, K., Gorton, L., Antiochia, R., Enhanced Direct Electron Transfer of Fructose Dehydrogenase Rationally Immobilized on a 2-Aminoanthracene Diazonium Cation Grafted Single-Walled Carbon Nanotube Based Electrode. ACS Catalysis, (2018) 8 (11), pp. 10279-10289. DOI: https://doi.org/10.1021/acscatal.8b02729. (IF 2018: 12.22) 

[22]   Bollella, P.*, Hibino, Y., Kano, K., Gorton, L., Antiochia, R., Highly Sensitive Membraneless Fructose Biosensor Based on Fructose Dehydrogenase Immobilized onto Aryl Thiol Modified Highly Porous Gold Electrode: Characterization and Application in Food Samples. Analytical Chemistry, (2018) 90 (20), pp. 12131-12136. DOI: https://doi.org/10.1021/acs.analchem.8b03093. (IF 2018:6.350) 

[21]   Piccinino, D., Capecchi, E., Botta, L., Bizzarri, B.M., Bollella, P., Antiochia, R., Saladino R., Layer-by-layer preparation of microcapsules and nanocapsules of mixed polyphenols with high antioxidant and UV-shielding properties. Biomacromolecules, (2018) 19 (9), pp. 3883-3893. DOI: https://doi.org/10.1021/acs.biomac.8b01006. (IF 2018:5.667)  

[20]   Bollella, P., Gorton, L., Enzyme based amperometric biosensors. Curr. Opin. Electrochem., (2018) 10, pp. 157-173. DOI: https://doi.org/10.1016/j.coelec.2018.06.003. (IF 2018: 5.579) INVITED REVIEW 

[19]   Capecchi, E., Piccinino, D., Delfino, I., Bollella, P., Antiochia, R., Saladino, R., Functionalized tyrosinase-lignin nanoparticles as sustainable catalysts for the oxidation of phenols. Nanomaterials, (2018)  8 (6), art. no. 438. DOI: https://doi.org/10.3390/nano8060438. (IF 2018: 4.034) 

[18]   Zappi, D., Masci, G., Sadun C., Tortolini, C., Antonelli, M.L., Bollella, P.*, Evaluation of new cholinium-amino acids based room temperature ionic liquids (RTILs) as immobilization matrix for electrochemical biosensor development: Proof-of-concept with Trametes Versicolor laccase. Microchem. Journal, (2018) 141, pp. 346-352. DOI: https://doi.org/10.1016/j.microc.2018.05.045. (IF 2018: 3.206) 

[17]   Bollella, P., Gorton, L., Antiochia, R., Direct electron transfer of dehydrogenases for development of 3rd generation biosensors and enzymatic fuel cells. Sensors, (2018) 18 (5), art. no. 1319. DOI: https://doi.org/10.3390/s18051319. (IF 2018: 3.031) 

[16]   Kanso, H., Pankratova, G., Bollella, P., Leech, D., Hernandez, D., Gorton, L. Sunlight Photocurrent Generation from Thylakoid Membranes on Gold Nanoparticle Modified Screen-Printed Electrodes. J. Electroanal. Chem., (2018) 816, pp. 259-264. DOI: https://doi.org/10.1016/j.jelechem.2018.03.030. (IF 2018: 3.807) 

[15]   Bollella, P., Hibino, Y., Kano, K., Gorton, L., Antiochia, R. The influence of pH and divalent/monovalent cations on the internal electron transfer (IET), enzymatic activity, and structure of fructose dehydrogenase. Anal. Bioanal. Chem., (2018) 410, pp. 3253-3264. DOI: https://doi.org/10.1007/s00216-018-0991-0. (IF 2018: 3.286) 

[14]   Bollella, P., Fusco, G., Stevar, D., Gorton, L., Ludwig, R., Ma, S., Boer, H., Koivula, A., Tortolini, C., Favero, G., Antiochia, R., Mazzei, F. A Glucose/Oxygen Enzymatic Fuel Cell based on Gold Nanoparticles modified Graphene Screen-Printed Electrode. Proof-of-Concept in Human Saliva, Sens. Actuators B, (2018) 256, pp. 921-930. DOI: https://doi.org/10.1016/j.snb.2017.10.025. (IF 2018: 6.393) 

[13]   Bollella, P., Medici, L., Tessema, M., Poloznikov, A.A., Hushpulian, D.M., Tishkov, V.I., Andreu, R., Leech, D., Megersa, N., Marcaccio, M., Gorton, L., Antiochia, R. Highly sensitive, stable and selective hydrogen peroxide amperometric biosensors based on peroxidases from different sources wired by Os-polymer: A comparative study, Solid State Ionics, (2018) 314, pp. 178-186. DOI: https://doi.org/10.1016/j.ssi.2017.10.015. (IF 2018: 2.886) 

[12]   Bollella, P., Ludwig, R., Gorton, L. Cellobiose dehydrogenase: Insights on the nanostructuration of electrodes for improved development of biosensors and biofuel cells, Appl. Mater. Today, (2017) 9, pp. 319-332. DOI: https://doi.org/10.1016/j.apmt.2017.08.009. (IF 2018: 7.97)

[11]   Bollella, P., Gorton, L., Ludwig, R., Antiochia, R. A third generation glucose biosensor based on cellobiose dehydrogenase immobilized on a glassy carbon electrode decorated with electrodeposited gold nanoparticles: Characterization and application in human saliva, Sensors, (2017) 17 (8), art. no. 1912. DOI: https://doi.org/10.3390/s17081912. (IF 2017: 2.475) 

[10]   Fusco, G., Gallo, F., Tortolini, C., Bollella, P., Ietto, F., De Mico, A., D'Annibale, A., Antiochia, R., Favero, G., Mazzei, F. AuNPs-functionalized PANABA-MWCNTs nanocomposite-based impedimetric immunosensor for 2,4-dichlorophenoxy acetic acid detection, Biosens. Bioelectron., (2017) 93, pp. 52-56. DOI: https://doi.org/10.1016/j.bios.2016.10.016. (IF 2017: 7.780) 

  [9]   Bollella, P., Fusco, G., Tortolini, C., Sanzò, G., Favero, G., Gorton, L., Antiochia, R. Beyond graphene: Electrochemical sensors and biosensors for biomarkers detection, Biosens. Bioelectron., (2017) 89, pp. 152-166. DOI: https://doi.org/10.1016/j.bios.2016.03.068. (IF 2017: 7.780) 

  [8]   Bollella, P., Mazzei, F., Favero, G., Fusco, G., Ludwig, R., Gorton, L., Antiochia, R. Improved DET communication between cellobiose dehydrogenase and a gold electrode modified with a rigid self-assembled monolayer and green metal nanoparticles: The role of an ordered nanostructuration, Biosens. Bioelectron., (2017) 88, pp. 196-203. DOI: https://doi.org/10.1016/j.bios.2016.08.027. (IF 2017: 7.780) 

  [7]   Bollella, P., Schulz, C., Favero, G., Mazzei, F., Ludwig, R., Gorton, L., Antiochia, R. Green Synthesis and Characterization of Gold and Silver Nanoparticles and their Application for Development of a Third Generation Lactose Biosensor, Electroanalysis, (2017) 29 (1), pp. 77-86. DOI: https://doi.org/10.1002/elan.201600476. (IF 2017: 2.851)

  [6]   Bollella, P., Fusco, G., Tortolini, C., Sanzò, G., Antiochia, R., Favero, G., Mazzei, F. Inhibition-based first-generation electrochemical biosensors: Theoretical aspects and application to 2,4-dichlorophenoxy acetic acid detection, Anal. Bioanal. Chem., (2016) 408 (12), pp. 3203-3211. DOI: https://doi.org/10.1007/s00216-016-9389-z. (IF 2016: 3.431) 

  [5]   Fusco, G., Bollella, P., Mazzei, F., Favero, G., Antiochia, R., Tortolini, C. Catalase-based modified graphite electrode for hydrogen peroxide detection in different beverages, J. Anal. Met. Chem., (2016) 2016, art. no. 8174913. DOI: https://doi.org/10.1155/2016/8174913. (IF 2016: 1.589) 

  [4]   Antiochia, R., Bollella, P., Favero, G., Mazzei, F. Nanotechnology-Based Surface Plasmon Resonance Affinity Biosensors for in Vitro Diagnostics, Int. J. Anal. Chem., (2016) 2016, art. no. 2981931. DOI: https://doi.org/10.1155/2016/2981931. (IF 2016: 0.94) 

  [3]   Tortolini, C., Bollella, P., Antiochia, R., Favero, G., Mazzei, F. Inhibition-based biosensor for atrazine detection, Sens. Actuators B, (2016) 224, pp. 552-558. DOI: https://doi.org/10.1016/j.snb.2015.10.095. (IF 2016: 5.401)

  [2]   Tortolini, C., Bollella, P., Antonelli, M.L., Antiochia, R., Mazzei, F., Favero, G. DNA-based biosensors for Hg2+ determination by polythymine-methylene blue modified electrodes, Biosens. Bioelectron., (2015) 67, pp. 524-531. DOI: https://doi.org/10.1016/j.bios.2014.09.031. (IF 2015: 7.476) 

  [1]   Mazzei, F., Favero, G., Bollella, P., Tortolini, C., Mannina, L., Conti, M.E., Antiochia, R. Recent  trends in electrochemical nanobiosensors for environmental analysis, Int. J. Environment and Health (2015) 7 (3), pp. 267-291. DOI: https://doi.org/10.1504/IJENVH.2015.073210. (IF 2015: 0.5) Editore: InderScience online

 

Books and Book chapters

[5]   Biosensors—Recent Advances and Future Challenges, Eds. Bollella, P., Katz E., MDPI (2020), ISBN: 9783039438877.

[4]   Bollella, P.*, Katz E., Bioelectrocatalysis at Carbon Nanotubes, Methods in Enzymology, Elsevier (2020), Vol. 630, pp. 215-247. DOI: https://doi.org/10.1016/bs.mie.2019.10.012.

  [3]   Bollella, P.*, Katz E., Magneto-controlled enzyme reactions, Methods in Enzymology, Elsevier (2020), Vol. 630, pp. 1-24. DOI: https://doi.org/10.1016/bs.mie.2019.09.002.

  [2]   Antiochia, R., Tortolini, C., Tasca, F., Gorton, L., Bollella, P.*, Graphene and 2D-like nanomaterials: different biofunctionalization pathways for electrochemical biosensors development, Graphene Bioelectronics, Elsevier (2018), pp. 1-35. DOI: https://doi.org/10.1016/B978-0-12-813349-1.00001-9

  [1]   Antonelli, M.L., Bollella, P., Tortolini, C., Sensori e Biosensori, ISBN: 9788868125912.

 

Proceedings

  [2]   Bollella, P., Sharma, S., Cass, A.E.G., Antiochia, R Transdermal Microneedle Array-Based Biosensor for Real Time Simultaneous Lactate and Glucose Monitoring. MDPI Institute Proceedings, (2019) 15 (1), pp. 42.

  [1]   Bollella, P., Marcaccio, M., Poloznikov, A., Hushpulian, D., Andreu, R., Leech, D., Gorton, L., Antiochia, R. A Comparative Study between Hydrogen Peroxide Amperometric Biosensors Based on Different Peroxidases Wired by Os-Polymer: Applications in Water, Milk and Human Urine. MDPI Institute Proceedings, (2017) 1, pp. 699.

 

Editorials

Bollella, P.*, Katz, E., Biosensors—Recent Advances and Future Challenges Sensors (2020) 20 (22), art. No. 6645. DOI: https://doi.org/10.3390/s20226645.

Bollella, P.*, Santoro, C., Cristiani, P., Atanassov, P., Bioelectrochemistry: An Electrifying Experience Over 70 Years. Editorial dello Special Issue dedicato al Prof. Lo Gorton. ChemElectroChem (2019) 6 (21), pp. 5356-5357. DOI: https://doi.org/10.1002/celc.20101900945

Azioni sul documento

pubblicato il 21/07/2017 ultima modifica 09/05/2022