311 |
Achieving rapid absorption and extensive liquid uptake capacity in porous structures by decoupling capillarity and permeability: Nanoporous modified calcium carbonate Ridgway CJ, Gane PAC, Schoelkopf J Transport in Porous Media, 63(2), 239, 2006 |
312 |
Low-voltage all-polymer field-effect transistor fabricated using an inkjet printing technique Liu Y, Varahramyan K, Cui TH Macromolecular Rapid Communications, 26(24), 1955, 2005 |
313 |
Inkjet-printed silver conductors using silver nitrate ink and their electrical contacts with conducting polymers Liu ZC, Su Y, Varahramyan K Thin Solid Films, 478(1-2), 275, 2005 |
314 |
Automated analysis of organic particles using cluster SIMS Gillen G, Zeissler C, Mahoney C, Lindstrom A, Fletcher R, Chi P, Verkouteren J, Bright D, Lareau RT, Boldman M Applied Surface Science, 231-2, 186, 2004 |
315 |
Solute deposit during evaporation of a sessile binary liquid micro-droplet on a substrate Morozumi Y, Ishizuka H, Fukai J Journal of Chemical Engineering of Japan, 37(6), 778, 2004 |
316 |
Recent applications of pulsed lasers in advanced materials processing Booth HJ Thin Solid Films, 453-54, 450, 2004 |
317 |
Inkjet printing of polymer micro-arrays and libraries: Instrumentation, requirements, and perspectives de Gans BJ, Schubert US Macromolecular Rapid Communications, 24(11), 659, 2003 |
318 |
All-polymer RC filter circuits fabricated with inkjet printing technology Chen B, Cui TH, Liu Y, Varahramyan K Solid-State Electronics, 47(5), 841, 2003 |
319 |
All-polymer capacitor fabricated with inkjet printing technique Liu Y, Cui TH, Varahramyan K Solid-State Electronics, 47(9), 1543, 2003 |
320 |
Surface adsorption effects in the inkjet printing of an aqueous polymer solution on a porous oxide ceramic substrate Holman RK, Uhland SA, Cima MJ, Sachs E Journal of Colloid and Interface Science, 247(2), 266, 2002 |