Publications

Journal publications

  1. ‘Portable electroanalytical nucleic acid amplification tests using printed circuit boards and open-source electronics’, Anna Toldra Filella, Alar Ainla, Shirin Khaliliazar, Roman Landin, Georgios Chondrogiannis, Martin Hanze, Pedro Réu Carvalho, Mahiar Max Hamedi, Analyst, 10.1039, 2022.
  2. ‘Hierarchical soot nanoparticle self-assemblies for enhanced performance as sodium-ion battery anodes’, Yuxiao Cui, Chandrasekar M Subramaniyam, Lengwan Li, Tong Han, Min-A. Kang, Jian Li, Luyao Zhao, Xinfeng Wei, Anna J. Svagan, Mahiar Max Hamedi, Journal of Materials Chemistry A, 10, 9059, 2022. PDF
  3. ‘High-Speed Ionic Synaptic Memory Based on 2D Titanium Carbide MXene’, Armantas Melianas, Min-A Kang, Armin VahidMohammadi, Tyler James Quill, Weiqian Tian, Yury Gogotsi, Alberto Salleo, Mahiar Max Hamedi, Advanced Functional Materials, 2109970, 2021.
  4. ‘Electroanalytical Paper-Based Nucleic Acid Amplification Biosensors with Integrated Thread Electrodes’, Shirin Khaliliazar, Anna Toldrà, Georgios Chondrogiannis, and Mahiar Max Hamedi, Analytical Chemistry, 93, 42, 14187–14195, 2021.
  5. ‘Polyelectrolyte-Assisted Dispersions of Reduced Graphite Oxide Nanoplates in Water and Their Gas-Barrier Application’, Lorenza Maddalena, Tobias Benselfelt, Julio Gomez, Mahiar Max Hamedi, Alberto Fina, Lars Wågberg, Federico Carosio, ACS Applied Materials & Interfaces, 13, 2021.
  6. ‘Rapid Prototyping Heterostructured Organic Microelectronics using Wax Printing, Filtration, and Transfer’, Liangqi Ouyang, Sebastian Buchmann, Tobias Benselfelt, Chiara Musumeci, Zhen Wang, Shirin Khaliliazar, Weiqian Tian, Hailong Li, Anna Herland, Mahiar Max Max Hamedi, Journal of Materials Chemistry C, 9, 14596–14605, 2021.
  7. ‘A disposable, wearable, flexible, stitched textile electrochemical biosensing’, Andrew Piper, Ingrid Öberg  Månsson, Shirin Khaliliazar, Roman Landin, Mahiar Max Hamedi, Biosensors and Bioelectronics, 194:113604, 2021. PDF
  8. ‘Layer-by-Layer Assembly of Strong Thin Films with High Lithium Ion Conductance for Batteries and Beyond’, Zhen Wang, Liangqi Ouyang, Hailong Li, Lars Wågberg, Mahiar Max Hamedi, Small, 2100954, 2021.
  9. ‘Thread-based wearable devices’, Junfei Xia, Shirin Khaliliazar, Mahiar Max Hamedi, Sameer Sonkusale, MRS Bulletin, 46 (502–511), 2021.
  10. ‘Woven Electroanalytical Biosensor for Nucleic Acid Amplification Tests’, Shirin Khaliliazar, Ingrid Öberg Månsson, Andrew Piper, Liangqi Ouyang, Pedro Réu, Mahiar Max Hamedi, Advanced Healthcare Materials, 2100034, 2021. PDF
  11. ‘Nitrocellulose-bound achromopeptidase for point-of-care nucleic acid tests’, Georgios Chondrogiannis, Shirin Khaliliazar, Anna Toldrà, Pedro Réu & Mahiar M. Hamedi, Scientific Reports, 11: 6140, 2021.
  12. ‘Layer‐by‐Layer Self‐Assembled Nanostructured Electrodes for Lithium‐Ion Batteries’, Zhen Wang, Armin VahidMohammadi, Liangqi Ouyang, Johan Erlandsson, Cheuk‐Wai Tai, Lars Wågberg, Mahiar Max Hamedi, Small, 2006434, 2020.
  13. ‘Green Conducting Cellulose Yarns for Machine-Sewn Electronic Textiles’, Sozan Darabi, Michael Hummel, Sami Rantasalo, Marja Rissanen, Ingrid Öberg Månsson, Haike Hilke, Byungil Hwang, Mikael Skrifvars, Mahiar M. Hamedi, Herbert Sixta, Anja Lund, and Christian Müller, ACS Applied Materials & Interfaces, 56403–56412, 2020.
  14. ‘Liquid-phase exfoliation of layered biochars into multifunctional heteroatom (Fe, N, S) co-doped graphene-like carbon nanosheets’, Weiqian Tian, Qiuming Gao, Armin VahidMohammadi, Jie Dang, Zeyu Li, Xiao Liang, Mahiar M.Hamedi, Liming Zhang, Chemical Engineering Journal, 127601, 2020. PDF
  15. “Weaving Off‐The‐Shelf Yarns into Textile Micro Total Analysis Systems (μTAS)”, Ingrid Öberg Månsson, Andrew Piper, Mahiar Max Hamedi, Macromolecular Bioscience, 202000150, 2020.
  16. “Electrochemical Detection of Genomic DNA Utilizing Recombinase Polymerase Amplification and Stem-Loop Probe”, Shirin Khaliliazar, Liangqi Ouyang, Andrew Piper, Georgios Chondrogiannis, Martin Hanze, Anna Herland, Mahiar Max Hamedi, ACS Omega, 2020.
  17. “Multifunctional Nanocomposites with High Strength and Capacitance Using 2D MXene and 1D Nanocellulose”, Weiqian Tian, Armin VahidMohammadi, Michael S. Reid, Zhen Wang, Liangqi Ouyang, Johan Erlandsson, Torbjörn Pettersson, Lars Wågberg, Majid Beidaghi, Mahiar M. Hamedi, Advanced Materials, 1902977, 2019.
    Coverage: Superelectrodes for supercapacitors, Nature Reviews Materials, 2019.
  18. “Layer-by-Layer Assembly of High-Performance Electroactive Composites Using a Multiple Charged Small Molecule”, Zhen Wang, Liangqi Ouyang, Weiqian Tian, Johan Erlandsson, Andrew Marais, Klas Tybrandt, Lars Wågberg, Mahiar Max Hamedi, Langmuir, 2019. PDF
  19. “Layer-by-layer self-assembly of pillared two-dimensional multilayers”, Weiqian Tian, Armin VahidMohammadi, Zhen Wang, Liangqi Ouyang, Majid Beidaghi, Mahiar Max Hamedi, Nature Communications, 10: 2558, 2019.
  20. “Organic Polymer Electronics – A Special Issue in Honor of Prof. Olle Inganäs”, Mahiar Max Hamedi, Anna Herland, Fengling Zhang, Qibing Pei, Advanced Materials, 31, Issue 22, 2019. PDF
  21. “From Single Molecules to Thin Film Electronics, Nanofibers, e‐Textiles and Power Cables: Bridging Length Scales with Organic Semiconductors”, Christian Müller, Liangqi Ouyang, Anja Lund, Kasper Moth‐Poulsen, Mahiar M. Hamedi, Advanced Materials, 1807286, 2019PDF
  22. “Ion-induced Assemblies of Highly Anisotropic Nanoparticles Are Governed by Ion-ion Correlation and Specific Ion Effects”, Tobias Benselfelt, Malin Nordenström, Mahiar M. Hamedi, Lars Wågberg, Nanoscale, 1800924, 2019. 
  23. “Cellulose Nanopaper with Monolithically Integrated Conductive Micropatterns”, Alireza Hajian, Zhen Wang, Lars A. Berglund, Mahiar M. Hamedi, Advanced Electronic Materials, 1800924, 2019. PDF
  24. “Copper‐Plated Paper for High‐Performance Lithium‐Ion Batteries”, Zhen Wang, Abdellah Malti, Liangqi Ouyang, Deyu Tu, Weiqian Tian, Lars Wågberg, Mahiar M. Hamedi, Small, 14(48), 1803313, 2018. PDF
  25. “Electrically conducting fibres for e-textiles: An open playground for conjugated polymers and carbon nanomaterials”, Anja Lund, Natascha M. van der Velden, Nils-Krister Persson, Mahiar M. Hamedi, Christian Müller, Materials Science and Engineering: R: Reports, 126, 1-29, 2018. PDF
  26. “Electrical Textile Valves for Paper Microfluidics”, Alar Ainla, Mahiar M. Hamedi, Firat Güder, George M. Whitesides, Advanced Materials, 38, 1702894, 2017PDF
  27. ”Electrochemical Circuits from “Cut and Stick” PEDOT:PSS-Nanocellulose Composite”, Jesper Edberg, Abdellah Malti, Hjalmar Granberg, Mahiar M. Hamedi, Xavier Crispin, Isak Engquist and Magnus Berggren,Flexible and printed electronics, 2 (4), 045010, 2017. PDF
  28. ”Understanding the Dispersive Action of Nanocellulose for Carbon Nanomaterials”, Alireza Hajian, Stefan B. Lindström, Torbjörn Pettersson, Mahiar M. Hamedi, and Lars Wågberg,Nano Letters, 17(3), 1439–144, 2017PDF
  29. “Coated and uncoated cellophane as materials for microplates and open-channel microfluidics devices.”, Mahiar M. Hamedi, Baris Unal, Ana Glavan, Teresa Fernandez-Abedul, George M. Whitesides, Lab on a Chip, 6, 3885-3897, 2016PDF
  30. “Multiscale Deterministic Aperiodic Microlens Lithography“, Mathieu Gonidec, Mahiar M. Hamedi, Luis M. Rubio, Alex Nemiroski, George M. Whitesides, Nano Letters,16, 4125-4132, 2016PDF
  31. “Integrating Electronics and Microfluidics on Paper”, Mahiar M. Hamedi, Alar Ainla, Firat Guder, Dionysios C. Christodouleas, M. Teresa Fernandez-Abedul, George M. Whitesides,Advanced Materials, 28, 5054-5063, 2016PDF
  32. “Electrically Activated Paper Actuators“, Mahiar M. Hamedi, Philip Rothmund, Firat Guder, Victoria E. Campbel, Dionysios C. Christodouleas, Jean-Francis Bloch, George M. Whitesides,Advanced Functional Materials, 26, 2446, 2016PDF
    Coverage: “Paper strips on the move”, Nature, 533, 2016 PDF
  33. “Electroanalytical Devices with Pins and Thread”, Ana C. Glavan, Alar Ainla, Mahiar M. Hamedi, M. Teresa Fernández-Abedul, George M. Whitesides, Lab on Chip, 16 (1), 112-119, 2015. PDF
  34. “Energy stored inside an aerogel”, Nature, 522, 2015. PDF
  35. ”Self-Assembled Three-Dimensional And Compressible Interdigitated Bulk Thin Film Batteries”, Gustav Nyström, Andrew Marais, Erdem Karabulut, Lars Wågberg, Yi Cui, Mahiar M. Hamedi, Nature Communications  6, Article number: 7259, 2015PDF
  36. “Paper-Based Potentiometric Ion Sensing“, Wenji Lan, Xu U. Zou, Mahiar M. Hamedi, Jinbo Hu, Claudio Parolo, E. Jane Maxwell, Philippe Bühlmann, George M. Whitesides, Analytical Chemistry 86 (19). 2014PDF
  37. “Highly Conducting, Strong Nanocomposites Based on Nanocellulose-Assisted Aqueous Dispersions of Single-Wall Carbon Nanotubes”, Mahiar M. Hamedi, Alireza Hajian, Andreas B Fall, Karl Håkansson, Michaela Salajkova, Fredrik Lundell, Lars Wågberg, Lars A Berglund,ACS Nano 8(3), 2014PDF
  38. “Nanocellulose Aerogels Functionalized by Rapid Layer-by-Layer Assembly for High Charge Storage and Beyond.”, Mahiar M. Hamedi, Erdem Karabulut, Andrew Marais, Anna Herland, Gustav Nyström, Lars Wågberg, Angewandte Chemie Int. Ed. 52, 12038–12042, 2013. PDF
  39. “Electronic Polymers and DNA Self‐Assembled in Nanowire Transistors”, Mahiar Hamedi, Anders Elfwing, Roger Karlsson, Olle Inganäs, Small, 9(3) 363-368, 2013PDF
  40. “Functionalisation of recombinant spider silk with conjugated polyelectrolytes”, Christian Müller, Ronnie Jansson, Anders Elfwing, Glareh Askarieh, Roger Karlsson, Mahiar Hamedi, Anna Rising, Jan Johansson, Olle Inganäs and My Hedhammar, Journal of Materials Chemistry, 21 (9), 2909-2915, 2011PDF
  41. “Woven Electrochemical Transistors on Silk Fibers”, Christian Müller, Mahiar Hamedi, Roger Karlsson, Ronnie Jansson, Rebeca Marcilla, My Hedhammar and Olle Inganäs, Advanced Materials, 23(7), 898-901, 2011PDF
  42. “Active Electronic Fibers and Woven Logic.”, Mahiar Hamedi, Olle Inganäs, Research Journal of Textile and Apparel, 4, 106-117, 2010PDF
  43. “Biomolecular nanowires decorated by organic electronic polymers”, Per Björk, Anna Herland, Mahiar Hamediand Olle Inganäs, Journal of Materials Chemistry, 20(12), 2269-2276, 2010PDF
  44. “Supramolecular Assembly of Designed α-Helical Polypeptide-Based Nanostructures and Luminescent Conjugated Polyelectrolytes”, Jens Wigenius, Per Björk, Mahiar Hamediand Daniel Aili, Macromolecular Bioscience, 10 (8), 836-841, 2010PDF
  45. “Polypeptide-guided assembly of conducting polymer nanocomposites”, Mahiar Hamedi, Jens Wigenius, Feng-i Tai, Per Björk and Daniel Aili,  Nanoscale, 2(10), 2058-2061, 2010PDF
  46. “Bridging Dimensions in Organic Electronics: Assembly of Electroactive Polymer Nanodevices from Fluids”, Mahiar Hamedi, Kristofer Tvingstedt, Roger H Karlsson, Peter Asberg and Olle Inganäs, Nano Letters, 9(2), 631.635, 2009PDF
  47. “Iron-Catalyzed Polymerization of Alkoxysulfonate-Functionalized 3,4-Ethylenedioxythiophene Gives Water-Soluble Poly(3,4-ethylenedioxythiophene) of High Conductivity”, Roger Karlsson, Anna Herland, Mahiar Hamedi, Jens Wigenius, Andreas Åslund, Xianjie Liu, Mats Fahlman, Olle Inganäs and Peter Konradsson, Chemistry of Materials, 21(9), 1815-1821, 2009PDF
  48. “Fiber-Embedded Electrolyte-Gated Field-Effect Transistors for e-Textiles”, Mahiar Hamedi, Lars Herlogsson, Xavier Crispin, Rebeca Marcilla, Magnus Berggren and Olle Inganäs,Advanced Materials, 21 (5), 573-577, 2009. PDF
  49. “Electrochemical Devices Made from Conducting Nanowire Networks Self-Assembled from Amyloid Fibrils and Alkoxysulfonate PEDOT”, Mahiar Hamedi, Anna Herland, Roger H Karlsson and Olle Inganäs, Nano Letters, 8(6),1736-1740, 2008PDF
  50. “Limits to Nanopatterning of Fluids on Surfaces in Soft Lithography”, Jens Wigenius, Mahiar Hamedi, and Olle Inganäs,Advanced Functional Materials, 18(17), 2563-2571, 2008PDF
  51. “Towards woven logic from organic electronic fibres”, Mahiar Hamedi, Robert Forchheimer, and Olle Inganäs, Nature Materials, 6(5), 357, 2007PDF
    Coverage: “A logical step”, Nature Materials, 2007. PDF

Patents

  1. Hamedi M. M., Asplund M., Forchheimer R., Inganäs O.,”Electronic circuitry integrated in fabrics”, WO 2008066458, US20100163283.
  2. Hamedi M., and Lindahl U.,” Creation and rendering of hierarchical digital multimedia data”, WO 2007/100298.
  3. Hamedi M., Tvingstedt K., Åsberg P., Inganäs O.,”micro and nano structures in an elastomeric material”, WO 2006/096123.
  4. Johansson G., Lindahl U., Hamedi M.,”Bounded simplification of geometrical computer data”, US 20100277476.
  5. Hamedi M., Marais A., Karabulut E., Wågberg L.,”Layer-by-Layer self-assembly on aerogels”, Swedish PRV: 1350428-7.
  6. Lan E., Maxwell J., Parolo C., Bwambok D., Thuo M.M., Subramaniam A., Hamedi M. M., Whitesides G.M., “Paper-based reference electrode and potentiometric ion sensing”, PCT/US14/19869.
  7. Hamedi M. M.., Ainla A., Bloch J-F., Campbell V, Christodouleas D., Fernandez-Abedul M.T., Guder F., Rothemund P., Whitesides G.M., “Co-Fabrication of Paper Electronics and Microfluidics”, US No. 62/213,297(2015).
  8. Hamedi M. M., Ainla A., Guder A., Whitesides G.M., “Electrofuidic Thyristor: Fast Electrical Valves Seamlessly Integrated in Paper Devices”, US No. 62/117,153(2015).
  9. Hamedi M. M., Glavan A.C., Ainla A., Fernández-Abedul A.T., Whitesides G.M”Electroanalytical devices with pins and thread”, Atty Docket:  0042697.00482 US1(2015) 10)Hamedi M.M, Glavan A.C., Unal B., Whitesides G.M.,”Cellophane Microfluidics”, Submitted (2016).