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Inkjet-based Micromanufacturing Inkjet know-how is going manner past placing ink on paper: it allows easier, swifter and extra trustworthy production tactics within the fields of micro- and nanotechnology. sleek inkjet heads are in line with se precision tools that deposit droplets of fluids on numerous surfaces in programmable, repeating styles, permitting, after compatible changes and diversifications, the producing of units similar to thin-film transistors, polymer-based monitors and photovoltaic components. furthermore, inkjet expertise enables the large-scale construction of versatile RFID transponders wanted, eg, for automatic logistics and miniaturized sensors for functions in healthiness surveillance. The e-book offers an creation to inkjet-based micromanufacturing, through an outline of the underlying theories and versions, which supplies the foundation for a whole figuring out and a profitable utilization of inkjet-based tools in present microsystems learn and improvement
review of Inkjet-based Micromanufacturing:
concept and Modeling
Post-Printing methods for Inorganic Inks for Plastic Electronics
Inkjet Ink Formulations
Inkjet Fabrication of published Circuit Boards
Antennas for Radio Frequency id Tags
Inkjet Printing for MEMSContent:
Chapter 1 assessment of Inkjet?Based Micromanufacturing (pages 1–17): David Wallace
Chapter 2 Combinatorial Screening of fabrics utilizing Inkjet Printing as a Patterning method (pages 19–39): Anke Teichler, Jolke Perelaer and Ulrich S. Schubert
Chapter three Thermal Inkjet (pages 41–56): Naoki Morita
Chapter four High?Resolution Electrohydrodynamic Inkjet (pages 57–71): Park Jang?Ung and John A. Rogers
Chapter five move speak in Piezo Inkjet (pages 73–85): Herman Wijshoff
Chapter 6 Patterning (pages 87–96): Dr. Patrick J. Smith and Jonathan Stringer
Chapter 7 Drying of Inkjet?Printed Droplets (pages 97–110): Hans Kuerten and Daniel Siregar
Chapter eight Postprinting tactics for Inorganic Inks for Plastic Electronics functions (pages 111–125): Jolke Perelaer
Chapter nine imaginative and prescient tracking (pages 127–144): Kye?Si Kwon
Chapter 10 Acoustic tracking (pages 145–158): Herman Wijshoff
Chapter eleven Equalization of Jetting functionality (pages 159–172): Man?In Baek and Michael Hong
Chapter 12 Inkjet Ink Formulations (pages 173–189): Alexander Kamyshny and Shlomo Magdassi
Chapter thirteen concerns in colour filter out Fabrication with Inkjet Printing (pages 191–215): Dr. Dong?Youn Shin and Kenneth A. Brakke
Chapter 14 program of Inkjet Printing in High?Density Pixelated RGB Quantum Dot?Hybrid LEDs (pages 217–236): Hanna Haverinen and Ghassan E. Jabbour
Chapter 15 Inkjet Printing of steel Oxide Thin?Film Transistors (pages 237–255): Jooho Moon and Keunkyu Song
Chapter sixteen Inkjet Fabrication of revealed Circuit forums (pages 257–278): Thomas Sutter
Chapter 17 Photovoltaics (pages 279–294): Heather A. S. Platt and Maikel F. A. M. van Hest
Chapter 18 Inkjet revealed Electrochemical Sensors (pages 295–311): Aoife Morrin
Chapter 19 Antennas for Radio Frequency id Tags (pages 313–329): Vivek Subramanian
Chapter 20 Inkjet Printing for MEMS (pages 331–345): okay. Pataky, V. Auzelyte and J. Brugger
Chapter 21 Inkjet Printing of Interconnects and Contacts according to Inorganic Nanoparticles for revealed digital purposes (pages 347–364): Jolke Perelaer and Ulrich S. Schubert
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Additional info for Inkjet-Based Micromanufacturing
By inkjet printing thin-ﬁlm libraries, the inﬂuence of ink composition, substrate properties, and different printing parameters to the ﬁlm properties was studied systematically and in a fast, reproducible, and simple way with a high materials efﬁciency. Being a noncontact process, inkjet printing also enables large area and roll-to-roll (R2R) processing [57, 58]. Therefore, once a suitable candidate has been identiﬁed for the preparation of an organic solar cell, inkjet printing can be used as well to prepare thin and homogeneous layers of the active materials.
Newly discovered donor/acceptor materials require a large number of combinations to be tested for their behavior in bulk heterojunction solar cell applications [65, 66]. For this purpose, an enormous number of samples need to be screened for the evaluation of promising polymer/fullerene combinations and good processing conditions, which obviously consumes a lot of resources, both in terms of time and related costs. Instead of studying potential materials in a sequential and one-by-one manner, for example, by spin coating as recently shown by Renz et al.
Mater. , 16 (1), 45–61. C. (2009) The role of processing in the fabrication and optimization of plastic solar cells. Adv. , 21 (14–15), 1521–1527. , and Inganas, O. (2009) Nanomorphology of bulk heterojunction organic solar cells in 2D and 3D correlated to photovoltaic performance. Macromolecules, 42 (13), 4646–4650. S. (2005) Ink-jet printing of electron donor/acceptor blends: towards bulk heterojunction solar cells. Macromol. , 26 (4), 319–324. C. (2010) Low band gap polymers for roll-to-roll coated polymer solar cells.