Åbo Akademi Functional Printing Center publications 2016:
Chen, H., Jia, P., Kang, H., Zhang, H., Liu, Y., Yang, P., Yan, Y., Zuo, G., Guo, L., Jiang, M., Qi, J., Liu, Y., Cui, W., Santos, H. A., and Deng, L. (2016). Upregulating Hif-1 by Hydrogel Nanofibrous Scaffolds for Rapidly Recruiting Angiogenesis Relative Cells in Diabetic Wound. Advanced Healthcare Materials, 5(8):907–918. [ DOI ]
Devyatkov, S. Y., Zinnurova, A. A., Aho, A., Kronlund, D., Peltonen, J., Kuzichkin, N. V., Lisitsyn, N. V., and Murzin, D. Y. (2016). Shaping of Sulfated Zirconia Catalysts by Extrusion: Understanding the Role of Binders. Industrial & Engineering Chemistry Research, 55(23):6595–6606. [ DOI ]
Genina, N., Holländer, J., Jukarainen, H., Mäkilä, E., Salonen, J., and Sandler, N. (2016). Ethylene vinyl acetate (EVA) as a new drug carrier for 3D printed medical drug delivery devices. European Journal of Pharmaceutical Sciences, 90:53–63. [ DOI ]
Han, T., Vanamo, U., and Bobacka, J. (2016). Influence of Electrode Geometry on the Response of Solid-Contact Ion-Selective Electrodes when Utilizing a New Coulometric Signal Readout Method. ChemElectroChem, 3(12):2071–2077. [ DOI ]
Hiltunen, A. K., Skogman, M. E., Rosenqvist, K., Juvonen, H., Ihalainen, P., Peltonen, J., Juppo, A., and Fallarero, A. (2016). Bioactive glass combined with bisphosphonates provides protection against biofilms formed by the periodontal pathogen Aggregatibacter actinomycetemcomitans. International Journal of Pharmaceutics, 501(1-2):211–220. [ DOI ]
Holländer, J., Genina, N., Jukarainen, H., Khajeheian, M., Rosling, A., Mäkilä, E., and Sandler, N. (2016). Three-Dimensional Printed PCL-Based Implantable Prototypes of Medical Devices for Controlled Drug Delivery. Journal of Pharmaceutical Sciences, 105(9):2665–2676. [ DOI ]
Ihalainen, P., Pesonen, M., Sund, P., Viitala, T., Määttänen, A., Sarfraz, J., Wilén, C.-E., Österbacka, R., and Peltonen, J. (2016). Printed biotin-functionalised polythiophene films as biorecognition layers in the development of paper-based biosensors. Applied Surface Science, 364:477–483. [ DOI ]
Kaisti, M., Boeva, Z., Koskinen, J., Nieminen, S., Bobacka, J., and Levon, K. (2016). Hand-Held Transistor Based Electrical and Multiplexed Chemical Sensing System. ACS Sensors, 1(12):1423–1431. [ DOI ]
Kong, F., Zhang, H., Zhang, X., Liu, D., Chen, D., Zhang, W., Zhang, L., Santos, H. A., and Hai, M. (2016). Biodegradable Photothermal and pH Responsive Calcium Carbonate@Phospholipid@Acetalated Dextran Hybrid Platform for Advancing Biomedical Applications. Advanced Functional Materials, 26(34):6158–6169. [ DOI ]
Kumar, V., Elfving, A., Koivula, H., Bousfield, D., and Toivakka, M. (2016). Roll-to-Roll Processed Cellulose Nanofiber Coatings. Industrial & Engineering Chemistry Research, 55(12):3603–3613. [ DOI ]
Kupis-Rozmyslowicz, J., Wagner, M., Bobacka, J., Lewenstam, A., and Migdalski, J. (2016). Biomimetic membranes based on molecularly imprinted conducting polymers as a sensing element for determination of taurine. Electrochimica Acta, 188:537–544. [ DOI ]
Lisak, G., Arnebrant, T., Lewenstam, A., Bobacka, J., and Ruzgas, T. (2016). In Situ Potentiometry and Ellipsometry: A Promising Tool to Study Biofouling of Potentiometric Sensors. Analytical Chemistry, 88(6):3009–3014. [ DOI ]
Liu, D., Jiang, T., Cai, W., Chen, J., Zhang, H., Hietala, S., Santos, H. A., Yin, G., and Fan, J. (2016). An In Situ Gelling Drug Delivery System for Improved Recovery after Spinal Cord Injury. Advanced Healthcare Materials, 5(12):1513–1521. [ DOI ]
Määttänen, A., Ihalainen, P., Törngren, B., Rosqvist, E., Pesonen, M., and Peltonen, J. (2016). Hierarchically structured self-supported latex films for flexible and semi-transparent electronics. Applied Surface Science, 364:37–44. [ DOI ]
Mennillo, M., Zhang, Y., Pettersson, F., Wikman, C.-J., Remonen, T., Österbacka, R., and Wilén, C.-E. (2016). Synthesis of electron beam cured free-standing ion-gel membranes for organic electronics applications. Journal of Polymer Science Part A: Polymer Chemistry, 54(15):2352–2360. [ DOI ]
Nyman, M., Dahlström, S., Sandberg, O. J., and Österbacka, R. (2016). Unintentional Bulk Doping of Polymer-Fullerene Blends from a Thin Interfacial Layer of MoO3. Advanced Energy Materials, 6(15):1600670. [ DOI ]
Palo, M., Kogermann, K., Genina, N., Fors, D., Peltonen, J., Heinämäki, J., and Sandler, N. (2016). Quantification of caffeine and loperamide in printed formulations by infrared spectroscopy. Journal of Drug Delivery Science and Technology, 34:60–70. [ DOI ]
Reddy, K. L., Rai, M., Prabhakar, N., Arppe, R., Rai, S. B., Singh, S. K., Rosenholm, J. M., and Krishnan, V. (2016). Controlled synthesis, bioimaging and toxicity assessments in strong red emitting Mn2 doped NaYF4:Yb3/Ho3 nanophosphors. RSC Advances, 6(59):53698–53704. [ DOI ]
Rosenholm, J. M., Zhang, J., Linden, M., and Sahlgren, C. (2016). Mesoporous silica nanoparticles in tissue engineering a perspective. Nanomedicine, 11(4):391–402. [ DOI ]
Sandberg, O. J., Sundqvist, A., Nyman, M., and Österbacka, R. (2016). Relating Charge Transport, Contact Properties, and Recombination to Open-Circuit Voltage in Sandwich-Type Thin-Film Solar Cells. Physical Review Applied, 5(4). [ DOI ]
Sandén, S., Wilson, N. M., Sandberg, O. J., and Österbacka, R. (2016). Characterization of the dominating bulk recombination in bulk-heterojunction blends using photoinduced absorption. Applied Physics Letters, 108(19):193301. [ DOI ]
Sandler, N., Holländer, J., Långström, D., Santtila, P., Saukkonen, A., and Torvinen, S. (2016). Evaluation of inhaler handling-errors, inhaler perception and preference with Spiromax, Easyhaler and Turbuhaler devices among healthy Finnish volunteers: a single site, single visit crossover study (Finhaler). BMJ Open Respiratory Research, 3(1):e000119. [ DOI ]
Sandler, N. and Preis, M. (2016). Printed Drug-Delivery Systems for Improved Patient Treatment. Trends in Pharmacological Sciences, 37(12):1070–1080. [ DOI ]
Sjöberg, P., Määttänen, A., Vanamo, U., Novell, M., Ihalainen, P., Andrade, F. J., Bobacka, J., and Peltonen, J. (2016). Paper-based potentiometric ion sensors constructed on ink-jet printed gold electrodes. Sensors and Actuators B: Chemical, 224:325–332. [ DOI ]
Songok, J. and Toivakka, M. (2016a). Controlling capillary-driven surface flow on a paper-based microfluidic channel. Microfluidics and Nanofluidics, 20(4). [ DOI ]
Songok, J. and Toivakka, M. (2016b). Enhancing Capillary-Driven Flow for Paper-Based Microfluidic Channels. ACS Applied Materials & Interfaces, 8(44):30523–30530. [ DOI ]
Sundqvist, A., Sandberg, O. J., Nyman, M., Smått, J.-H., and Österbacka, R. (2016). Origin of the S-Shaped JV Curve and the Light-Soaking Issue in Inverted Organic Solar Cells. Advanced Energy Materials, 6(6):1502265. [ DOI ]
Suutari, T., Silen, T., Karaman, D. S., Saari, H., Desai, D., Kerkelä, E., Laitinen, S., Hanzlikova, M., Rosenholm, J. M., Yliperttula, M., and Viitala, T. (2016). Real-Time Label-Free Monitoring of Nanoparticle Cell Uptake. Small, 12(45):6289–6300. [ DOI ]
Vakili, H., Nyman, J. O., Genina, N., Preis, M., and Sandler, N. (2016). Application of a colorimetric technique in quality control for printed pediatric orodispersible drug delivery systems containing propranolol hydrochloride. International Journal of Pharmaceutics, 511(1):606–618. [ DOI ]
Valtakari, D., Stepien, M., Haapanen, J., Teisala, H., Tuominen, M., Kuusipalo, J., Mäkelä, J. M., Toivakka, M., and Saarinen, J. J. (2016). Planar fluidic channels on TiO2 nanoparticle coated paperboard. Nordic Pulp & Paper Research Journal, 31(2):232–238. [ DOI ]
Vanamo, U., Hupa, E., Yrjänä, V., and Bobacka, J. (2016). New Signal Readout Principle for Solid-Contact Ion-Selective Electrodes. Analytical Chemistry, 88(8):4369–4374. [ DOI ]
Vikholm-Lundin, I., Rosqvist, E., Ihalainen, P., Munter, T., Honkimaa, A., Marjomäki, V., Albers, W. M., and Peltonen, J. (2016). Assembly of citrate gold nanoparticles on hydrophilic monolayers. Applied Surface Science, 378:519–529. [ DOI ]
Szűcs, J., Lindfors, T., Bobacka, J., and Gyurcsányi, R. E. (2015). Ion-selective Electrodes with 3D Nanostructured Conducting Polymer Solid Contact. Electroanalysis, 28(4):778–786. [ DOI ]