Silver inkjet printing with control of surface energy and substrate temperature

Abstract: The characteristics of silver inkjet printing were intensively investigated with control of surface energy and substrate temperature. A fluorocarbon (FC) film was spincoated on a silicon (Si) substrate to obtain a hydrophobic surface, and an ultraviolet (UV)/ozone (O 3 ) treatment was performed to control the surface wettability of the FC film surface. To characterize the surface changes, we performed measurements of the static and dynamic contact angles and calculated the surface energy by Wu's harmonic mean … Show more

“…Various factors can affect the shape and surface profile of the printed structure, such as viscosity of the ink, surface energy of the substrate, sintering temperature and duration, and temperature of the substrate during the printing process. More detailed analysis about the effect of these factors on the shape of the structure is shown in our previous research [6,7,16,17]. The thickness of the CPW is optically measured using a 3-D non-contact surface profilometer (Surf, Nanofocus AG, Germany).…”

“…The ink is printed using a drop-on-demand inkjet printer, Dimatrix DMP-2831 (DimatrixFujifilm Inc., USA), which is equipped with sixteen nozzles, each with a diameter of 19 m. A fluorocarbon solution is utilized to modify the substrate condition. The solution is prepared by dissolving Fluorad TM FC-722 (3M Co., South Korea) in Fluorinert TM FC-40 (3M Co., South Korea) with the volume ratio of 1:4, where the surface of the spin-coated solution is known to have good hydrophobicity [15,16]. A Borofloat ® 33 borosilicate glass wafer with a thickness of 525 m and a diameter of 100 mm is used as a substrate for CPW printing.…”

High-resolution CPW fabricated by silver inkjet printing on selectively treated substrate

“…Various factors can affect the shape and surface profile of the printed structure, such as viscosity of the ink, surface energy of the substrate, sintering temperature and duration, and temperature of the substrate during the printing process. More detailed analysis about the effect of these factors on the shape of the structure is shown in our previous research [6,7,16,17]. The thickness of the CPW is optically measured using a 3-D non-contact surface profilometer (Surf, Nanofocus AG, Germany).…”

“…The ink is printed using a drop-on-demand inkjet printer, Dimatrix DMP-2831 (DimatrixFujifilm Inc., USA), which is equipped with sixteen nozzles, each with a diameter of 19 m. A fluorocarbon solution is utilized to modify the substrate condition. The solution is prepared by dissolving Fluorad TM FC-722 (3M Co., South Korea) in Fluorinert TM FC-40 (3M Co., South Korea) with the volume ratio of 1:4, where the surface of the spin-coated solution is known to have good hydrophobicity [15,16]. A Borofloat ® 33 borosilicate glass wafer with a thickness of 525 m and a diameter of 100 mm is used as a substrate for CPW printing.…”

High-resolution CPW fabricated by silver inkjet printing on selectively treated substrate

“…We employed the Owens-Wendt model [19] and the Girifalco [20] model to calculate the surface energy (γ s ) using the measured contact angles of DI water and CH 2 I 2 . A previously reported surface treatment [10] was performed to control the wetting nature of the hydrophobic surface as follows. First, a hydrophobic FC film was spun on a bare silicon (Si) substrate at 2000 rpm using a fluoropolymer solution composed of a mixture of Fluorad TM FC 722 and FC 40 (3M, Seoul, Korea).…”

“…Droplet merging occurs when several droplets combine to form a single droplet because of surface tension and poor wettability of the substrate surface. Line bulging occurs when the printed pattern begins to swell out; it is particularly noticeable during continuous line printing [10][11][12][13][14][15].…”

Characterization of Silver Inkjet Overlap-printing through Cohesion and Adhesion

“…Lee et al [11] studied the characteristics of printed line with control of surface energy and substrate temperature. Various surface conditions or contact angles were obtained by combining hydrophobic coating, ultraviolet/ozone treatment and substrate heating.…”

Numerical study of droplet impact and coalescence in a microline patterning process