Roy S. Fabrication of micro-and nano-structured materials using mask-less processes[J]. Journal of Physics D:Applied Physics,2007,40(22):R413-R426.
[3]
Chang S C,Liu J,Bharathan J,et al. Multicolor organic light-emitting diodes processed by hybrid inkjet printing[J]. Advanced Materials,1999,11(9):734-737. 3.0.CO;2-D target="_blank">
[4]
Yang Y,Chang S C,Bharathan J,et al. Organic/polymeric electroluminescent devices processed by hybrid ink-jet printing[J]. Journal of Materials Science:Materials in Electronics,2000,11(2):89-96.
[5]
Yim Y,Park J,Park B. Solution-processed flexible ITO-free organic light-emitting diodes using patterned polymeric anodes[J]. Journal of Display Technology,2010,6(7):252-256.
[6]
Park K W,Kang S B,Jeong J A,et al. Liquid crystal devices incorporating transparent Zn,Sn co-doped In2O3 electrodes prepared by direct inkjet-printing of nanosized particles[J]. Journal of Physics D:Applied Physics,2013,46(14):145301.
[7]
Zhuang J L,Ar D,Yu X J,et al. Patterned deposition of metal-organic frameworks onto plastic,paper,and textile substrates by inkjet printing of a precursor solution[J]. Advanced Materials,2013,25(33):4631-4635.
[8]
Rida A,Yang L,Vyas R,et al. Conductive inkjet-printed antennas on flexible low-cost paper-based substrates for RFID and WSN applications[J]. Antennas and Propagation Magazine,IEEE,2009,51(3):13-23.
[9]
Lakafosis V,Rida A,Vyas R,et al. Progress towards the first wireless sensor networks consisting of inkjet-printed,paper-based RFID-enabled sensor tags[J]. Proceedings of the IEEE,2010,98(9):1601-1609.
[10]
Lim Y Y,Goh Y M,Liu C. Surface treatments for inkjet printing onto a PTFE-based substrate for high frequency applications[J]. Industrial & Engineering Chemistry Research,2013,52(33):11564-11574.
[11]
Cappi B,?zkol E,Ebert J,et al. Direct inkjet printing of Si3N4:Characterization of ink,green bodies and microstructure[J]. Journal of the European Ceramic Society,2008,28(13):2625-2628.
[12]
Jeong J A,Kim J,Kim H K. Ag grid/ITO hybrid transparent electrodes prepared by inkjet printing[J]. Solar Energy Materials and Solar Cells,2011,95(7):1974-1978.
[13]
Wang W,Su Y W,Chang C H. Inkjet printed chalcopyrite CuInxGa1-xSe2 thin film solar cells[J]. Solar Energy Materials and Solar Cells,2011,95 (9):2616-2620.
[14]
Pi X,Zhang L,Yang D. Enhancing the efficiency of multicrystalline silicon solar cells by the inkjet printing of silicon-quantum-dot ink[J]. The Journal of Physical Chemistry C,2012,116(40):21240-21243.
[15]
Smith P J,Morrin A. Reactive inkjet printing[J]. Journal of Materials Chemistry,2012,22(22):10965-10970.
Le H P. Progress and trends in ink-jet printing technology[J]. Journal of Imaging Science and Technology,1998,42(1):49-62.
[18]
Zhang Q,Zheng Y,Liu J. Direct writing of electronics based on alloy and metal (DREAM) ink:A newly emerging area and its impact on energy,environment and health sciences[J]. Frontiers in Energy,2012,6 (4):311-340.
[19]
Li D,Sutton D,Burgess A,et al. Conductive copper and nickel lines via reactive inkjet printing[J]. Journal of Materials Chemistry,2009,19 (22):3719-3724.
[20]
Magdassi S,Grouchko M,Berezin O,et al. Triggering the sintering of silver nanoparticles at room temperature[J]. ACS Nano,2010,4(4):1943-1948.
[21]
Kao Z K,Hung Y H,Liao Y C. Formation of conductive silver films via inkjet reaction system[J]. Journal of Materials Chemistry,2011,21 (46):18799-18803.
[22]
Layani M,Grouchko M,Shemesh S,et al. Conductive patterns on plastic substrates by sequential inkjet printing of silver nanoparticles and electrolyte sintering solutions[J]. Journal of Materials Chemistry,2012,22 (29):14349-14352.
[23]
Chiolerio A,Virga A,Pandolfi P,et al. Direct patterning of silver particles on porous silicon by inkjet printing of a silver salt via in-situ reduction[J]. Nanoscale Research Letters,2012,7(1):1-7.
[24]
Kim K,Ahn S I,Choi K C. Direct fabrication of copper patterns by reactive inkjet printing[J]. Current Applied Physics,2013,13(9):1870-1873.
[25]
Abulikemu M,Da'as E H,Haverinen H,et al. In situ synthesis of self-assembled gold nanoparticles on glass or silicon substrates through reactive inkjet printing[J]. Angewandte Chemie,2014,126(2):430-433.
[26]
Petukhov D I,Kirikova M N,Bessonov A A,et al. Nickel and copper conductive patterns fabricated by reactive inkjet printing combined with electroless plating[J]. Materials Letters,2014,132:302-306.
[27]
Huang Q,Shen W,Xu Q,et al. Room-temperature sintering of conductive Ag films on paper[J]. Materials Letters,2014,123:124-127.
[28]
Wünscher S,Abbel R,Perelaer J,et al. Progress of alternative sintering approaches of inkjet-printed metal inks and their application for manufacturing of flexible electronics[J]. Journal of Materials Chemistry C,2014,2,10232-10261
[29]
Yoshioka Y,Jabbour G E. Inkjet printing of oxidants for patterning of nanometer-thick conducting polymer electrodes[J]. Advanced Materials,2006,18(10):1307-1312.
[30]
Kr?ber P,Delaney J T,Perelaer J,et al. Reactive inkjet printing of polyurethanes[J]. Journal of Materials Chemistry,2009,19 (29):5234-5238.
[31]
Ahn S I,Kim W K,Ryu S H,et al. OLED with a controlled molecular weight of the PVK [poly(9-vinylcarbazole)] formed by a reactive ink-jet process[J]. Organic Electronics,2012,13(6):980-984.
[32]
Janoschka T,Teichler A,H?upler B,et al. Reactive inkjet printing of cathodes for organic radical batteries[J]. Advanced Energy Materials,2013,3 (8):1025-1028.
[33]
Lennon A J,Utama R Y,Lenio M A T,et al. Forming openings to semiconductor layers of silicon solar cells by inkjet printing[J]. Solar Energy Materials and Solar Cells,2008,92 (11):1410-1415.
[34]
Lennon A J,Ho-Baillie A W Y,Wenham S R. Direct patterned etching of silicon dioxide and silicon nitride dielectric layers by inkjet printing[J]. Solar Energy Materials and Solar Cells,2009,93 (10):1865-1874.
[35]
Cha H,Ahn S Ⅱ,Choi K C. An inkjet printing method:Drop and synthesis (DAS). Application to the synthesis of ZnS:Mn nano-phosphor with a pattern[J]. Current Applied Physics,2010,10 (4):E109-E112.
[36]
Kim K,Ahn S I,Choi K C. Simultaneous synthesis and patterning of graphene electrodes by reactive inkjet printing[J]. Carbon,2014,66:172-177.
Wang T,Patel R,Derby B. Manufacture of 3-dimensional objects by reactive inkjet printing[J]. Soft Matter,2008,4 (12):2513-2518.
[39]
Andres C M,Kotov N A. Inkjet deposition of layer-by-layer assembled films[J]. Journal of the American Chemical Society,2010,132(41):14496-14502.
[40]
Layani M,Cooperstein I,Magdassi S. UV crosslinkable emulsions with silver nanoparticles for inkjet printing of conductive 3D structures[J]. Journal of Materials Chemistry C,2013,1(19):3244-3249.
