Your search keyword '"Bernacka-Wojcik, Iwona"' showing total 32 results

1. Continuous iontronic chemotherapy reduces brain tumor growth in embryonic avian in vivo models

Author

Handl, Verena, Waldherr, Linda, Arbring Sjöström, Theresia, Abrahamsson, Tobias, Seitanidou, Maria, Erschen, Sabine, Gorischek, Astrid, Bernacka-Wojcik, Iwona, Saarela, Helena, Tomin, Tamara, Honeder, Sophie Elisabeth, Distl, Joachim, Huber, Waltraud, Asslaber, Martin, Birner-Grünberger, Ruth, Schäfer, Ute, Berggren, Magnus, Schindl, Rainer, Patz, Silke, Simon, Daniel T., and Ghaffari-Tabrizi-Wizsy, Nassim

Published

2024

2. Long-distance turgor pressure changes induce local activation of plant glutamate receptor-like channels

Author

Grenzi, Matteo, Buratti, Stefano, Parmagnani, Ambra Selene, Abdel Aziz, Ilaria, Bernacka-Wojcik, Iwona, Resentini, Francesca, Šimura, Jan, Doccula, Fabrizio Gandolfo, Alfieri, Andrea, Luoni, Laura, Ljung, Karin, Bonza, Maria Cristina, Stavrinidou, Eleni, and Costa, Alex

Published

2023

3. Sequencing complex plants on a budget: The development of Kalanchoë blossfeldiana as a C3, CAM comparative tool.

Author

Cowan‐Turner, Daniel, Morris, Bethan A., Sandéhn, Alexandra, Bernacka‐Wojcik, Iwona, Stavrinidou, Eleni, Powell, Robyn F., Leitch, Ilia J., Taylor, Jessica, Walker, Max, Nwokeocha, Osita, Kapralov, Maxim V., and Borland, Anne M.

Subjects

CRASSULACEAN acid metabolism, PLANT genomes, GENE expression, ABSCISIC acid, PLANT development

Abstract

Societal Impact Statement: Research efforts in plant biology have often been focused on sequenced and well‐studied 'model' organisms. Despite the advent of relatively inexpensive genome sequencing, most plant taxonomic groups are underrepresented, with few species that 'represent' the diversity of whole genera. This study describes an economical guide to sequencing a non‐model organism, which may be useful in reducing the cost of sequencing more species within genera and across plant life. This method was used to develop Kalanchoë blossfeldiana as a resource for comparing C3 and the water‐conserving mode of photosynthesis known as Crassulacean acid metabolism (CAM) within the same plant. Summary: Despite the increasing number of well‐studied plant species with well‐annotated genomes across plant life, there are few densely sampled genera with more than a couple of genome sequences representing the diversity of whole genera. Here, we develop an economic approach to full‐genome sequencing that could be used to sequence many species within a genus. We made use of the Nanopore rapid sequencing kit to assist in plant genome assembly, dramatically reducing the cost.Here we applied this method to cost‐effectively develop genomic resources for Kalanchoë blossfeldiana, a commercially important ornamental, in which Crassulacean Acid Metabolism (CAM), a water‐conserving mode of photosynthesis can be induced. We present a physiological and biochemical characterisation of Kalanchoe blossfeldiana with its nuclear and chloroplastic genome and a comparative C3, CAM dusk transcriptome.We apply this approach to a complex tetraploid genome, making use of a relative species for chromosomal scaffolding to reduce assembly ploidy, we provide a resource for future gene expression studies. We highlight its limitations, e.g. the need for deeper sequencing to accurately resolve genome structure and haplotypes without using a relative species for scaffolding.The study demonstrates the merits of K. blossfeldiana as a comparative system for studying C3 and CAM within a plant and has identified substantial changes in the dusk transcriptome between young C3 and mature CAM K. blossfeldiana leaves in response to age‐induced CAM, and shows that in the absence of abiotic stress, CAM induction still involves the engagement of drought and abscisic acid (ABA) response pathways. [ABSTRACT FROM AUTHOR]

Published

2024

4. Sequencing complex plants on a budget: The development of Kalanchoë blossfeldiana as a C3, CAM comparative tool

Author

Cowan‐Turner, Daniel, primary, Morris, Bethan A., additional, Sandéhn, Alexandra, additional, Bernacka‐Wojcik, Iwona, additional, Stavrinidou, Eleni, additional, Powell, Robyn F., additional, Leitch, Ilia J., additional, Taylor, Jessica, additional, Walker, Max, additional, Nwokeocha, Osita, additional, Kapralov, Maxim V., additional, and Borland, Anne M., additional

Published

2024

5. Biohybrid Energy Storage Circuits Based on Electronically Functionalized Plant Roots

Author

Parker, Daniela, Dar, Abdul Manan, Armada-Moreira, Adam, Bernacka Wojcik, Iwona, Rai, Rajat, Mantione, Daniele, and Stavrinidou, Eleni

Abstract

Biohybrid systems based on plants integrate plant structures and processes into technological components targeting more sustainable solutions. Plants’ biocatalytic machinery, for example, has been leveraged for the organization of electronic materials directly in the vasculature and roots of living plants, resulting in biohybrid electrochemical devices. Among other applications, energy storage devices were demonstrated where the charge storage electrodes were seamlessly integrated into the plant tissue. However, the capacitance and the voltage output of a single biohybrid supercapacitor are limited. Here, we developed biohybrid circuits based on functionalized conducting roots, extending the performance of plant based biohybrid energy storage systems. We show that root-supercapacitors can be combined in series and in parallel configuration, achieving up to 1.5 V voltage output or up to 11 mF capacitance, respectively. We further demonstrate that the supercapacitors circuit can be charged with an organic photovoltaic cell, and that the stored charge can be used to power an electrochromic display or a bioelectronic device. Furthermore, the functionalized roots degrade in composting similarly to native roots. The proof-of-concept demonstrations illustrate the potential of this technology to achieve more sustainable solutions for powering low consumption devices such as bioelectronics for agriculture or IoT applications.

Published

2024

6. Sequencing complex plants on a budget: The development of Kalanchoë blossfeldiana as a C3, CAM comparative tool

Author

Cowan-Turner, Daniel, Morris, Bethan A., Sandéhn, Alexandra, Bernacka Wojcik, Iwona, Stavrinidou, Eleni, Powell, Robyn F., Leitch, Ilia J., Taylor, Jessica, Walker, Max, Nwokeocha, Osita, Kapralov, Maxim V., Borland, Anne M., Cowan-Turner, Daniel, Morris, Bethan A., Sandéhn, Alexandra, Bernacka Wojcik, Iwona, Stavrinidou, Eleni, Powell, Robyn F., Leitch, Ilia J., Taylor, Jessica, Walker, Max, Nwokeocha, Osita, Kapralov, Maxim V., and Borland, Anne M.

Abstract

Despite the increasing number of well-studied plant species with well-annotated genomes across plant life, there are few densely sampled genera with more than a couple of genome sequences representing the diversity of whole genera. Here, we develop an economic approach to full-genome sequencing that could be used to sequence many species within a genus. We made use of the Nanopore rapid sequencing kit to assist in plant genome assembly, dramatically reducing the cost. Here we applied this method to cost-effectively develop genomic resources for Kalancho & euml; blossfeldiana, a commercially important ornamental, in which Crassulacean Acid Metabolism (CAM), a water-conserving mode of photosynthesis can be induced. We present a physiological and biochemical characterisation of Kalanchoe blossfeldiana with its nuclear and chloroplastic genome and a comparative C3, CAM dusk transcriptome. We apply this approach to a complex tetraploid genome, making use of a relative species for chromosomal scaffolding to reduce assembly ploidy, we provide a resource for future gene expression studies. We highlight its limitations, e.g. the need for deeper sequencing to accurately resolve genome structure and haplotypes without using a relative species for scaffolding. T he study demonstrates the merits of K. blossfeldiana as a comparative system for studying C3 and CAM within a plant and has identified substantial changes in the dusk transcriptome between young C3 and mature CAM K. blossfeldiana leaves in response to age-induced CAM, and shows that in the absence of abiotic stress, CAM induction still involves the engagement of drought and abscisic acid (ABA) response pathways., Funding Agencies|Biotechnology and Biological Sciences Research Council (BBSRC); [2132439]; [2462247]

Published

2024

7. Development of flexible Organic Electronic Ion Pump for bioelectronic petiole feeding

Author

Bernacka-Wojcik, Iwona, primary, Stavrinidou, Eleni, additional, Abdel Aziz, Ilaria, additional, Simura, Jan, additional, Oikonomou, Vasileios K., additional, Rossi, Stefano, additional, Mohammadi, Mohsen, additional, Dar, Abdul Manan, additional, Talide, Loïc, additional, Berggren, Magnus, additional, Simon, Daniel T., additional, Tybrandt, Klas, additional, Jonsson, Magnus P., additional, Ljung, Karin, additional, Niittylä, Totte, additional, and Seitanidou, Maria, additional

Published

2023

8. Flexible Organic Electronic Ion Pump for Flow-Free Phytohormone Delivery into Vasculature of Intact Plants

Author

Bernacka Wojcik, Iwona, Talide, Loic, Abdel Aziz, Ilaria, Simura, Jan, Oikonomou, Vasileios, Rossi, Stefano, Mohammadi, Mohsen, Manan Dar, Abdul Manan, Seitanidou, Maria S, Berggren, Magnus, Simon, Daniel, Tybrandt, Klas, Jonsson, Magnus, Ljung, Karin, Niittyla, Totte, Stavrinidou, Eleni, Bernacka Wojcik, Iwona, Talide, Loic, Abdel Aziz, Ilaria, Simura, Jan, Oikonomou, Vasileios, Rossi, Stefano, Mohammadi, Mohsen, Manan Dar, Abdul Manan, Seitanidou, Maria S, Berggren, Magnus, Simon, Daniel, Tybrandt, Klas, Jonsson, Magnus, Ljung, Karin, Niittyla, Totte, and Stavrinidou, Eleni

Abstract

Plant vasculature transports molecules that play a crucial role in plant signaling including systemic responses and acclimation to diverse environmental conditions. Targeted controlled delivery of molecules to the vascular tissue can be a biomimetic way to induce long distance responses, providing a new tool for the fundamental studies and engineering of stress-tolerant plants. Here, a flexible organic electronic ion pump, an electrophoretic delivery device, for controlled delivery of phytohormones directly in plant vascular tissue is developed. The c-OEIP is based on polyimide-coated glass capillaries that significantly enhance the mechanical robustness of these microscale devices while being minimally disruptive for the plant. The polyelectrolyte channel is based on low-cost and commercially available precursors that can be photocured with blue light, establishing much cheaper and safer system than the state-of-the-art. To trigger OEIP-induced plant response, the phytohormone abscisic acid (ABA) in the petiole of intact Arabidopsis plants is delivered. ABA is one of the main phytohormones involved in plant stress responses and induces stomata closure under drought conditions to reduce water loss and prevent wilting. The OEIP-mediated ABA delivery triggered fast and long-lasting stomata closure far away from the delivery point demonstrating systemic vascular transport of the delivered ABA, verified delivering deuterium-labeled ABA., Funding Agencies|European Union [800926 (FET-OPEN-HyPhOE)]; Swedish Foundation For Strategic Research; Swedish Foundation For Strategic Research [FFL18-0101]; Knut and Alice Wallenberg Foundation; Wallenberg Wood Science Center; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoeping University [2009-00971]; Swedish Research Council; Swedish Governmental Agency for Innovation Systems (VINNOVA)

Published

2023

9. Flexible Organic Electronic Ion Pump for Flow‐Free Phytohormone Delivery into Vasculature of Intact Plants

Author

Bernacka‐Wojcik, Iwona, primary, Talide, Loïc, additional, Abdel Aziz, Ilaria, additional, Simura, Jan, additional, Oikonomou, Vasileios K., additional, Rossi, Stefano, additional, Mohammadi, Mohsen, additional, Dar, Abdul Manan, additional, Seitanidou, Maria, additional, Berggren, Magnus, additional, Simon, Daniel T., additional, Tybrandt, Klas, additional, Jonsson, Magnus P., additional, Ljung, Karin, additional, Niittylä, Totte, additional, and Stavrinidou, Eleni, additional

Published

2023

10. Bio-microfluidic platform for gold nanoprobe based DNA detection—application to Mycobacterium tuberculosis

Author

Bernacka-Wojcik, Iwona, Lopes, Paulo, Catarina Vaz, Ana, Veigas, Bruno, Jerzy Wojcik, Pawel, Simões, Pedro, Barata, David, Fortunato, Elvira, Viana Baptista, Pedro, Águas, Hugo, and Martins, Rodrigo

Published

2013

11. Plant Bioelectronics and Biohybrids : The Growing Contribution of Organic Electronic and Carbon-Based Materials

Author

Stavrinidou, Eleni, Dufil, Gwennael, Bernacka Wojcik, Iwona, Armada Moreira, Adam, Stavrinidou, Eleni, Dufil, Gwennael, Bernacka Wojcik, Iwona, and Armada Moreira, Adam

Abstract

Life in our planet is highly dependent on plants as they are the primary source of food, regulators of the atmosphere, and providers of a variety of materials. In this work, we review the progress on bioelectronic devices for plants and biohybrid systems based on plants, therefore discussing advancements that view plants either from a biological or a technological perspective, respectively. We give an overview on wearable and implantable bioelectronic devices for monitoring and modulating plant physiology that can be used as tools in basic plant science or find application in agriculture. Furthermore, we discuss plant wearable devices for monitoring a plants microenvironment that will enable optimization of growth conditions. The review then covers plant biohybrid systems where plants are an integral part of devices or are converted to devices upon functionalization with smart materials, including self-organized electronics, plant nanobionics, and energy applications. The review focuses on advancements based on organic electronic and carbon-based materials and discusses opportunities, challenges, as well as future steps., Funding Agencies|European UnionEuropean Commission [800926]; Swedish Research CouncilSwedish Research CouncilEuropean Commission [VR-2017-04910]; Swedish Foundation For Strategic ResearchSwedish Foundation for Strategic Research [FFL18-0101]; Knut and Alice Wallenberg FoundationKnut & Alice Wallenberg Foundation; Wallenberg Wood Science Center; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University [2009-00971]

Published

2022

12. Long-Distance Turgor Pressure Changes Induce Local Activation of Plant Glutamate Receptor-Like Channels

Author

Grenzi, Matteo, primary, Buratti, Stefano, additional, Parmagnani, Ambra Selene, additional, Abdel Aziz, Ilaria, additional, Bernacka Wojcik, Iwona, additional, Resentini, Francesca, additional, Šimura, Jan, additional, Doccula, Fabrizio Gandolfo, additional, Alfieri, Andrea, additional, Luoni, Laura, additional, Ljung, Karin, additional, Bonza, Maria Cristina, additional, Stavrinidou, Eleni, additional, and Costa, Alex, additional

Published

2022

13. Plant Bioelectronics and Biohybrids: The Growing Contribution of Organic Electronic and Carbon-Based Materials

Author

Dufil, Gwennaël, primary, Bernacka-Wojcik, Iwona, additional, Armada-Moreira, Adam, additional, and Stavrinidou, Eleni, additional

Published

2021

14. Implantable Organic Electronic Ion Pump Enables ABA Hormone Delivery for Control of Stomata in an Intact Tobacco Plant

Author

Bernacka‐Wojcik, Iwona, Huerta, Miriam, Tybrandt, Klas, Karady, Michal, Mulla, Mohammad Yusuf, Poxson, David J., Gabrielsson, Erik O., Ljung, Karin, Simon, Daniel T., Berggren, Magnus, and Stavrinidou, Eleni

Subjects

abscisic acid, hormone delivery, implantable devices, organic bioelectronics, plants, Plant Growth Regulators, Organic electronics, drug delivery, stomata, plants, Plant Stomata, Tobacco, fungi, Biochemistry and Molecular Biology, food and beverages, Ion Pumps, Electronics, Biokemi och molekylärbiologi, Abscisic Acid

Abstract

Electronic control of biological processes with bioelectronic devices holds promise for sophisticated regulation of physiology, for gaining fundamental understanding of biological systems, providing new therapeutic solutions, and digitally mediating adaptations of organisms to external factors. The organic electronic ion pump (OEIP) provides a unique means for electronically-controlled, flow-free delivery of ions, and biomolecules at cellular scale. Here, a miniaturized OEIP device based on glass capillary fibers (c-OEIP) is implanted in a biological organism. The capillary form factor at the sub-100 mu m scale of the device enables it to be implanted in soft tissue, while its hyperbranched polyelectrolyte channel and addressing protocol allows efficient delivery of a large aromatic molecule. In the first example of an implantable bioelectronic device in plants, the c-OEIP readily penetrates the leaf of an intact tobacco plant with no significant wound response (evaluated up to 24 h) and effectively delivers the hormone abscisic acid (ABA) into the leaf apoplast. OEIP-mediated delivery of ABA, the phytohormone that regulates plants tolerance to stress, induces closure of stomata, the microscopic pores in leafs epidermis that play a vital role in photosynthesis and transpiration. Efficient and localized ABA delivery reveals previously unreported kinetics of ABA-induced signal propagation. Funding Agencies|Knut and Alice Wallenberg FoundationKnut & Alice Wallenberg Foundation; Swedish Research Council (VR)Swedish Research Council; Swedish Foundation for Strategic Research (SSF)Swedish Foundation for Strategic Research; Onnesjo Foundation; VINNOVAVinnova; Swedish Government Strategic Research Area in Materials Science on Functional Materials at Linkoping University [2009-00971]; European UnionEuropean Union (EU) [800926]; Marie Sklodowska Curie Individual Fellowship (MSCA-IFEF-ST, Trans-Plant) [702641]

Published

2019

15. Implantable Bioelectronics: Implantable Organic Electronic Ion Pump Enables ABA Hormone Delivery for Control of Stomata in an Intact Tobacco Plant (Small 43/2019)

Author

Bernacka‐Wojcik, Iwona, primary, Huerta, Miriam, additional, Tybrandt, Klas, additional, Karady, Michal, additional, Mulla, Mohammad Yusuf, additional, Poxson, David J., additional, Gabrielsson, Erik O., additional, Ljung, Karin, additional, Simon, Daniel T., additional, Berggren, Magnus, additional, and Stavrinidou, Eleni, additional

Published

2019

16. Implantable Organic Electronic Ion Pump Enables ABA Hormone Delivery for Control of Stomata in an Intact Tobacco Plant

Author

Bernacka‐Wojcik, Iwona, primary, Huerta, Miriam, additional, Tybrandt, Klas, additional, Karady, Michal, additional, Mulla, Mohammad Yusuf, additional, Poxson, David J., additional, Gabrielsson, Erik O., additional, Ljung, Karin, additional, Simon, Daniel T., additional, Berggren, Magnus, additional, and Stavrinidou, Eleni, additional

Published

2019

17. Implantable Organic Electronic Ion Pump Enables ABA Hormone Delivery for Control of Stomata in an Intact Tobacco Plant

Author

Bernacka Wojcik, Iwona, Huerta, Miriam, Tybrandt, Klas, Karady, Michal, Mulla, Yusuf, Poxson, David, Gabrielsson, Erik, Ljung, Karin, Simon, Daniel, Berggren, Magnus, Stavrinidou, Eleni, Bernacka Wojcik, Iwona, Huerta, Miriam, Tybrandt, Klas, Karady, Michal, Mulla, Yusuf, Poxson, David, Gabrielsson, Erik, Ljung, Karin, Simon, Daniel, Berggren, Magnus, and Stavrinidou, Eleni

Abstract

Electronic control of biological processes with bioelectronic devices holds promise for sophisticated regulation of physiology, for gaining fundamental understanding of biological systems, providing new therapeutic solutions, and digitally mediating adaptations of organisms to external factors. The organic electronic ion pump (OEIP) provides a unique means for electronically-controlled, flow-free delivery of ions, and biomolecules at cellular scale. Here, a miniaturized OEIP device based on glass capillary fibers (c-OEIP) is implanted in a biological organism. The capillary form factor at the sub-100 mu m scale of the device enables it to be implanted in soft tissue, while its hyperbranched polyelectrolyte channel and addressing protocol allows efficient delivery of a large aromatic molecule. In the first example of an implantable bioelectronic device in plants, the c-OEIP readily penetrates the leaf of an intact tobacco plant with no significant wound response (evaluated up to 24 h) and effectively delivers the hormone abscisic acid (ABA) into the leaf apoplast. OEIP-mediated delivery of ABA, the phytohormone that regulates plants tolerance to stress, induces closure of stomata, the microscopic pores in leafs epidermis that play a vital role in photosynthesis and transpiration. Efficient and localized ABA delivery reveals previously unreported kinetics of ABA-induced signal propagation., Funding Agencies|Knut and Alice Wallenberg FoundationKnut & Alice Wallenberg Foundation; Swedish Research Council (VR)Swedish Research Council; Swedish Foundation for Strategic Research (SSF)Swedish Foundation for Strategic Research; Onnesjo Foundation; VINNOVAVinnova; Swedish Government Strategic Research Area in Materials Science on Functional Materials at Linkoping University [2009-00971]; European UnionEuropean Union (EU) [800926]; Marie Sklodowska Curie Individual Fellowship (MSCA-IFEF-ST, Trans-Plant) [702641]

Published

2019

18. Multifunctional microfluidic chip for optical nanoprobe based RNA detection - application to Chronic Myeloid Leukemia

Author

Urbano Alves, Pedro, Vinhas, Raquel, Fernandes, Alexandra R., Zuhal Birol, Semra, Trabzon, Levent, Bernacka-Wojcik, Iwona, Igreja, Rui, Lopes, Paulo, Viana Baptista, Pedro, Aguas, Hugo, Fortunato, Elvira, Martins, Rodrigo, Urbano Alves, Pedro, Vinhas, Raquel, Fernandes, Alexandra R., Zuhal Birol, Semra, Trabzon, Levent, Bernacka-Wojcik, Iwona, Igreja, Rui, Lopes, Paulo, Viana Baptista, Pedro, Aguas, Hugo, Fortunato, Elvira, and Martins, Rodrigo

Abstract

Many diseases have their treatment options narrowed and end up being fatal if detected during later stages. As a consequence, point-of-care devices have an increasing importance for routine screening applications in the health sector due to their portability, fast analyses and decreased cost. For that purpose, a multifunctional chip was developed and tested using gold nanoprobes to perform RNA optical detection inside a microfluidic chip without the need of molecular amplification steps. As a proof-of-concept, this device was used for the rapid detection of chronic myeloid leukemia, a hemato-oncological disease that would benefit from early stage diagnostics and screening tests. The chip passively mixed target RNA from samples, gold nanoprobes and saline solution to infer a result from their final colorimetric properties. An optical fiber network was used to evaluate its transmitted spectra inside the chip. Trials provided accurate output results within 3 min, yielding signal-to-noise ratios up to 9 dB. When compared to actual state-of-art screening techniques of chronic myeloid leukemia, these results were, at microscale, at least 10 times faster than the reported detection methods for chronic myeloid leukemia. Concerning point-of-care applications, this work paves the way for other new and more complex versions of optical based genosensors., Funding Agencies|FEDER funds through the COMPETE Programme; FCT - Portuguese Foundation for Science and Technology [POCI-01-0145-FEDER-007688, UID/CTM/50025/2013]; project DISERTOX [PTDC/CTM-NAN/2912/2014]; Unidade de Ciencias Biomoleculares Aplicadas - UCIBIO - FCT/MCTES [UID/Multi/04378/2013]; ERDF [POCI-01-0145-FEDER-007728, PD/BD/52211/2013]

Published

2018

19. Multifunctional microfluidic chip for optical nanoprobe based RNA detection – application to Chronic Myeloid Leukemia

Author

Alves, Pedro Urbano, primary, Vinhas, Raquel, additional, Fernandes, Alexandra R., additional, Birol, Semra Zuhal, additional, Trabzon, Levent, additional, Bernacka-Wojcik, Iwona, additional, Igreja, Rui, additional, Lopes, Paulo, additional, Baptista, Pedro Viana, additional, Águas, Hugo, additional, Fortunato, Elvira, additional, and Martins, Rodrigo, additional

Published

2018

20. Design and development of a microfluidic platform for use with colorimetric gold nanoprobe assays

Author

Bernacka-Wojcik, Iwona, Martins, Rodrigo, Baptista, Pedro, and Águas, Hugo

Subjects

Micromixing, Fibras ópticas, PDMS, Microfluidos, Biosensor de ADN, SU-8

Abstract

Due to the importance and wide applications of the DNA analysis, there is a need to make genetic analysis more available and more affordable. As such, the aim of this PhD thesis is to optimize a colorimetric DNA biosensor based on gold nanoprobes developed in CEMOP by reducing its price and the needed volume of solution without compromising the device sensitivity and reliability, towards the point of care use. Firstly, the price of the biosensor was decreased by replacing the silicon photodetector by a low cost, solution processed TiO2 photodetector. To further reduce the photodetector price, a novel fabrication method was developed: a cost-effective inkjet printing technology that enabled to increase TiO2 surface area. Secondly, the DNA biosensor was optimized by means of microfluidics that offer advantages of miniaturization, much lower sample/reagents consumption, enhanced system performance and functionality by integrating different components. In the developed microfluidic platform, the optical path length was extended by detecting along the channel and the light was transmitted by optical fibres enabling to guide the light very close to the analysed solution. Microfluidic chip of high aspect ratio (~13), smooth and nearly vertical sidewalls was fabricated in PDMS using a SU-8 mould for patterning. The platform coupled to the gold nanoprobe assay enabled detection of Mycobacterium tuberculosis using 3 8l on DNA solution, i.e. 20 times less than in the previous state-of-the-art. Subsequently, the bio-microfluidic platform was optimized in terms of cost, electrical signal processing and sensitivity to colour variation, yielding 160% improvement of colorimetric AuNPs analysis. Planar microlenses were incorporated to converge light into the sample and then to the output fibre core increasing 6 times the signal-to-losses ratio. The optimized platform enabled detection of single nucleotide polymorphism related with obesity risk (FTO) using target DNA concentration below the limit of detection of the conventionally used microplate reader (i.e. 15 ng/μl) with 10 times lower solution volume (3 μl). The combination of the unique optical properties of gold nanoprobes with microfluidic platform resulted in sensitive and accurate sensor for single nucleotide polymorphism detection operating using small volumes of solutions and without the need for substrate functionalization or sophisticated instrumentation. Simultaneously, to enable on chip reagents mixing, a PDMS micromixer was developed and optimized for the highest efficiency, low pressure drop and short mixing length. The optimized device shows 80% of mixing efficiency at Re = 0.1 in 2.5 mm long mixer with the pressure drop of 6 Pa, satisfying requirements for the application in the microfluidic platform for DNA analysis. Portuguese Science Foundation - (SFRH/BD/44258/2008), “SMART-EC” project

Published

2014

21. Hybrid Microfluidic Platform for Multifactorial Analysis Based on Electrical Impedance, Refractometry, Optical Absorption and Fluorescence

Author

Pereira, Fabio M., Bernacka-Wojcik, Iwona, Rodrigues Ribeiro, Rita S., Teresa Lobato, Maria, Fortunato, Elvira, Martins, Rodrigo, Igreja, Rui, Jorge, Pedro A. S., Aguas, Hugo, Martin Gonzalez Oliva, Abel, Pereira, Fabio M., Bernacka-Wojcik, Iwona, Rodrigues Ribeiro, Rita S., Teresa Lobato, Maria, Fortunato, Elvira, Martins, Rodrigo, Igreja, Rui, Jorge, Pedro A. S., Aguas, Hugo, and Martin Gonzalez Oliva, Abel

Abstract

This paper describes the development of a novel microfluidic platform for multifactorial analysis integrating four label-free detection methods: electrical impedance, refractometry, optical absorption and fluorescence. We present the rationale for the design and the details of the microfabrication of this multifactorial hybrid microfluidic chip. The structure of the platform consists of a three-dimensionally patterned polydimethylsiloxane top part attached to a bottom SU-8 epoxy-based negative photoresist part, where microelectrodes and optical fibers are incorporated to enable impedance and optical analysis. As a proof of concept, the chip functions have been tested and explored, enabling a diversity of applications: (i) impedance-based identification of the size of micro beads, as well as counting and distinguishing of erythrocytes by their volume or membrane properties; (ii) simultaneous determination of the refractive index and optical absorption properties of solutions; and (iii) fluorescence-based bead counting., Funding Agencies|FEDER funds through the COMPETE 2020 Programme; National Funds through Fundacao para a Ciencia e a Tecnologia (FCT) [UID/CTM/50025/2013, PTDC/SAU-BEB/102247/2008]; project "Project" NanoSTIMA: Macro-to-Nano Human Sensing: Towards Integrated Multimodal Health Monitoring and Analytics - North Portugal Regional Operational Programme [NORTE-01-0145-FEDER-000016]; European Regional Development Fund (ERDF); North Portugal Regional Operational Program under the National Strategic Reference Framework (NSRF), through the European Regional Development Fund (ERDF) [NORTE-07-0124-FEDER-000058]; national funds, through the Portuguese funding agency, FCT

Published

2016

22. Hybrid Microfluidic Platform for Multifactorial Analysis Based on Electrical Impedance, Refractometry, Optical Absorption and Fluorescence

Author

Pereira, Fábio, primary, Bernacka-Wojcik, Iwona, additional, Ribeiro, Rita, additional, Lobato, Maria, additional, Fortunato, Elvira, additional, Martins, Rodrigo, additional, Igreja, Rui, additional, Jorge, Pedro, additional, Águas, Hugo, additional, and Oliva, Abel, additional

Published

2016

23. Single nucleotide polymorphism detection using gold nanoprobes and bio-microfluidic platform with embedded microlenses

Author

Bernacka-Wojcik, Iwona, primary, Águas, Hugo, additional, Carlos, Fabio Ferreira, additional, Lopes, Paulo, additional, Wojcik, Pawel Jerzy, additional, Costa, Mafalda Nascimento, additional, Veigas, Bruno, additional, Igreja, Rui, additional, Fortunato, Elvira, additional, Baptista, Pedro Viana, additional, and Martins, Rodrigo, additional

Published

2015

24. Inkjet printed and “doctor blade” TiO 2 photodetectors for DNA biosensors

Author

Bernacka-Wojcik, Iwona, Senadeera, Rohan, Wojcik, Pawel Jerzy, Silva, Leonardo Bione, Doria, Gonçalo, Baptista, Pedro, Aguas, Hugo, Fortunato, Elvira, and Martins, Rodrigo

Published

2010

25. Experimental optimization of a passive planar rhombic micromixer with obstacles for effective mixing in a short channel length

Author

Bernacka-Wojcik, Iwona, primary, Ribeiro, Susana, additional, Wojcik, Pawel Jerzy, additional, Alves, Pedro Urbano, additional, Busani, Tito, additional, Fortunato, Elvira, additional, Baptista, Pedro Viana, additional, Covas, José António, additional, Águas, Hugo, additional, Hilliou, Loic, additional, and Martins, Rodrigo, additional

Published

2014

26. Hybrid Microfluidic Platform for Multifactorial Analysis Based on Electrical Impedance, Refractometry, Optical Absorption and Fluorescence.

Author

Bernacka-Wojcik, Iwona, Lobato, Maria Teresa, Fortunato, Elvira, Martins, Rodrigo, Igreja, Rui, Águas, Hugo, Pereira, Fábio M., Gonzalez Oliva, Abel Martin, Rodrigues Ribeiro, Rita S., and Jorge, Pedro A. S.

Subjects

MICROFLUIDIC devices, ELECTRIC impedance, IMPEDANCE spectroscopy

Abstract

This paper describes the development of a novel microfluidic platform for multifactorial analysis integrating four label-free detection methods: electrical impedance, refractometry, optical absorption and fluorescence. We present the rationale for the design and the details of the microfabrication of this multifactorial hybrid microfluidic chip. The structure of the platform consists of a three-dimensionally patterned polydimethylsiloxane top part attached to a bottom SU-8 epoxy-based negative photoresist part, where microelectrodes and optical fibers are incorporated to enable impedance and optical analysis. As a proof of concept, the chip functions have been tested and explored, enabling a diversity of applications: (i) impedance-based identification of the size of micro beads, as well as counting and distinguishing of erythrocytes by their volume or membrane properties; (ii) simultaneous determination of the refractive index and optical absorption properties of solutions; and (iii) fluorescence-based bead counting. [ABSTRACT FROM AUTHOR]

Published

2016

27. Inkjet printed and “doctor blade” TiO2 photodetectors for DNA biosensors

Author

Bernacka-Wojcik, Iwona, primary, Senadeera, Rohan, additional, Wojcik, Pawel Jerzy, additional, Silva, Leonardo Bione, additional, Doria, Gonçalo, additional, Baptista, Pedro, additional, Aguas, Hugo, additional, Fortunato, Elvira, additional, and Martins, Rodrigo, additional

Published

2010

28. SELECTIVE GROWTH OF 1D NANOSTRUCTURED OXIDE MATERIALS USING PDMS STAMP.

Author

DANCIU, Anca-Ionela, MUSAT, Viorica, BUSANI, Tito, GONÇALVES, Alexandra, PINTO, Joana V., COSTA, Mafalda, BERNACKA-WOJCIK, Iwona, MARTINS, Rodrigo, and FORTUNATO, Elvira

Abstract

The approach for selective growth of 1D nanostructured oxide materials using poly (dimethylsiloxane) (PDMS) stamp consists of using microcontact printing, as such the soft lithography technique, for transferring the pattern of ZnO film on a substrate, followed by the hydrothermal growth of 1D nanowires on patterned areas. The nanowires have been grown in aqueous solutions of zinc nitrate at temperature at 95°C. The wettability of the glass and of the Si/SiO2 substrates was investigated by contact angle measurements. The morphology of the nanostructures obtained was characterized by optical microscopy and scanning electron micoscopy. [ABSTRACT FROM AUTHOR]

Published

2012

29. Inkjet printed and “doctor blade” TiO2 photodetectors for DNA biosensors

Author

Bernacka-Wojcik, Iwona, Senadeera, Rohan, Wojcik, Pawel Jerzy, Silva, Leonardo Bione, Doria, Gonçalo, Baptista, Pedro, Aguas, Hugo, Fortunato, Elvira, and Martins, Rodrigo

Subjects

*OPTOELECTRONIC devices, *BIOSENSORS, *DNA, *TITANIUM dioxide, *COLORIMETRIC analysis, *COLLOIDAL gold, *SPECTROPHOTOMETRY, *MYCOBACTERIUM tuberculosis

Abstract

Abstract: A dye sensitized TiO2 photodetector has been integrated with a DNA detection method based on non-cross-linking hybridization of DNA-functionalized gold nanoparticles, resulting in a disposable colorimetric biosensor. We present a new approach for the fabrication of dye sensitized TiO2 photodetectors by an inkjet printing technique—a non-contact digital, additive, no mask and no vacuum patterning method, ideal for cost efficient mass production. The developed biosensor was compared against a dye sensitized photodetector fabricated by the traditional “doctor blade” method. Detection of gold nanoparticle aggregation was possible for concentrations as low as 1.0nM for the “doctor blade” system, and 1.5nM for the inkjet printed photodetector. The demonstrated sensitivity limits of developed biosensors are comparable to those of spectrophotometric techniques (1.0nM). Our results show that a difference higher than 17% by traditional photodetector and 6% by inkjet printed in the photoresponses for the complementary and non-complementary gold nanoprobe assays could be attained for a specific DNA sequence from Mycobacterium tuberculosis, the etiologic agent of human tuberculosis. The decrease of costs associated with molecular diagnostic provided by a platform such as the one presented here may prove of paramount importance in developing countries. [Copyright &y& Elsevier]

Published

2010

30. Desenvolvimento de um biossensor de ADN integrado num chip de microfluídica

Author

Vaz, Ana Catarina Corceiro, Águas, Hugo, and Bernacka-Wojcik, Iwona

Subjects

Nanopartículas de ouro, Plataforma optoelectrónica, Detecção colorimétrica, Biossensores de ADN, Microfluídica

Abstract

Dissertação para obtenção do Grau de Mestre em Engenharia Biomédica Os biossensores têm vindo a captar elevado interesse devido à necessidade dos laboratórios de diagnóstico em disporem de métodos de análise rápidos, precisos e pouco dispendiosos. Nesse contexto, esta dissertação aborda o desenvolvimento de um biossensor de microfluídica para detecção colorimétrica de ADN, constituído por um chip de microfluídica inserido numa plataforma optoelectrónica. O método de detecção é baseado no comportamento colorimétrico de uma solução de nanopartículas de ouro funcionalizadas com sequências simples de ADN, com a adição de sal. Quando há complementaridade, as nanopartículas não agregam, mantendo-se a solução com a mesma coloração vermelha (teste positivo), caso contrário, há agregação e a solução torna-se azul (teste negativo). O dispositivo de microfluídica foi fabricado em PDMS por replica molding, recorrendo a moldes de SU-8 produzidos por fotolitografia. O processo de microfabricação foi optimizado de forma a obter moldes com elevado rácio entre área e espessura das estruturas e a manter a perfeita reprodutibilidade das réplicas (introdução de um molde intermédio de epóxi). Este dispositivo foi inserido numa plataforma optoelectrónica constituída por uma fonte de luz (LED) e um fotodetector (fotodíodo), integrados através de fibras ópticas, onde foram testadas várias geometrias e configurações de chips. Os resultados mostram que este biossensor detecta mudanças colorimétricas para caminhos ópticos de 10 mm (451 nL) até 0,5 mm (315 nL), sendo que a discriminação das duas soluções aumenta com o percurso óptico. Os melhores resultados foram obtidos para um percurso óptico de 4 mm, para o qual se obtém uma clara distinção de soluções com necessidade de apenas 365 nL para encher o microcanal. A simplicidade dos métodos e materiais utilizados, incluindo a possibilidade de reduzir bastante o volume de reagentes, traduzem-se numa contribuição relevante deste dispositivo no âmbito dos métodos de detecção de ADN.

31. Powering a molecular delivery system by harvesting energy from the leaf motion in wind.

Author

Armiento S, Bernacka-Wojcik I, Dar AM, Meder F, Stavrinidou E, and Mazzolai B

Subjects

Motion, Agriculture methods, Protons, Equipment Design, Hydrogen-Ion Concentration, Plant Leaves physiology, Plant Leaves chemistry, Wind

Abstract

Smart agriculture tools as well as advanced studies on agrochemicals and plant biostimulants aim to improve crop productivity and more efficient use of resources without sacrificing sustainability. Recently, multiple advanced sensors for agricultural applications have been developed, however much less advancement is reported in the field of precise delivery of agriculture chemicals. The organic electronic ion pump (OEIP) enables electrophoretically-controlled delivery of ionic molecules in the plant tissue, however it needs external power-supplies complicating its application in the field. Here, we demonstrate that an OEIP can be powered by wind-driven leaf motion through contact electrification between a natural leaf and an artificial leaf. This plant-hybrid triboelectric nanogenerator (TENG) directly charges the OEIP, enabling proton delivery into a pH indicator solution, which triggers visible color changes as a proof-of-concept. The successful delivery of up to 44 nmol of protons was revealed by pH measurements after 17 h autonomous operation in air flow moving the plant and artificial leaves. Several control tests indicated that the proton delivery was powered uniquely by the charges generated during leaf fluttering. The OEIP-TENG combination opens the potential for targeted and self-powered long-term delivery of relevant chemicals in plants, with the possibility of enhancing growth and resistance to abiotic stressors., (Creative Commons Attribution license.)

Published

2024

32. Plant Bioelectronics and Biohybrids: The Growing Contribution of Organic Electronic and Carbon-Based Materials.

Author

Dufil G, Bernacka-Wojcik I, Armada-Moreira A, and Stavrinidou E

Subjects

Electronics, Plants, Carbon, Wearable Electronic Devices

Abstract

Life in our planet is highly dependent on plants as they are the primary source of food, regulators of the atmosphere, and providers of a variety of materials. In this work, we review the progress on bioelectronic devices for plants and biohybrid systems based on plants, therefore discussing advancements that view plants either from a biological or a technological perspective, respectively. We give an overview on wearable and implantable bioelectronic devices for monitoring and modulating plant physiology that can be used as tools in basic plant science or find application in agriculture. Furthermore, we discuss plant-wearable devices for monitoring a plant's microenvironment that will enable optimization of growth conditions. The review then covers plant biohybrid systems where plants are an integral part of devices or are converted to devices upon functionalization with smart materials, including self-organized electronics, plant nanobionics, and energy applications. The review focuses on advancements based on organic electronic and carbon-based materials and discusses opportunities, challenges, as well as future steps.

Published

2022