微纳电子技术

参考文献

[1]M ARTIN B D,GABER B P,PATTERSON C H,et al.Di-rect protein m icroarray fabrication using a hydrogel“stamper”[J].Langm uir,1998,14(15):3971-3975.

[2]BURBAUM J.M iniaturization technologies in H TS:H ow fast,how small,how soon?[J].Drug Discov Today,1998,3(7):313-322.

[3]M AJOR J.Challenges and opportunities in high throughput screening:Implications for new technologies[J].J Biom ol Screen,1998,3:13-17.

[4]DIVERS M.W hat is the future of high throughput screening?[J].J Biomol Screen,1999,4:177-178.

[5]COM LEY J.Nanolitre dispensing:On the point of delivery[J].Drug Discovery W orld,2002:33-44.

[6]ROSE D.M icrodispensing technologies in drug discovery[J].Drug Discovery Today,1999,4:411-419.

[7]DUCREE J,GRUH LER H,HEY N,et al.TOPSPOT——A new m ethod for the fabrication of m icroarrays[C]∥Procee-ding of the IEEE M EM S2000.M iyazaki,Japan,2000:317-322.

[8]KOLTAY P,STEGER R,BOH L B,et al.The dispensing well plate:A novel nanodispenser for the multiparallel delivery of liquids(DW P Part I)[J].Sensors and Actuators A,2004,116:483-491.

[9]KOLTAY P,BIRKENM EIER B,STEGER R,et al.M assive parallel liquid dispensing in the nanoliter range by pneum atic actuation[C]∥Proc A ctuator2002.B rem en,G erm any,2002:235-239.

[10]BOHL B,STEGER R,ZENGERLE R,et al.M ulti-layer SU-8lift-off technology for m icrofluidic devices[J].J M i-cromech M icroeng,2005,15:1125-1130.

[11]STEGER R,BOH L B,NEURATH A,et al.A highly paral-lel nanoliter dispensing system fabricated by high-speed m i-cromilling of polym ers[C]∥Actuator2004.Bremen,Ger-many,2004:14-16.

[12]XU B J,QIAO Z,JIN Q H,et al.A novel m icro dispen-sing chip for m icroarray fabrication[C]∥IEEE NEM S2006.Zhuhai,2006:18-21.

[13]赵建龙,许宝建,金庆辉,等.一种生物微喷阵列点样装置及其制作方法[P].中国专利:200410054083.9,2005-06-22.

[14]BH ASKAR E V,ADEN J S.Developm ent of the thin-film structure for the thinkjet printhead[J].Hewlett-Packard J,1985,36(5):27-33.

[15]W UU D S,LEE M L,LIN T Y.Properties of m ultilayered thin film s for thermal ink-jet printing devices[J].AppliedSurface Science,1996,92:626-629.

[16]AUS DER W IESCHE S,REM BE C,H OFER E P.Boiling of superheated liquids near the spinodal:I general theory[J].H eat and M ass Transfer,1999,35(1):25-31.

[17]AUS DER W IESCHE S,REM BE C,H OFER E P.Boiling of superheated liquids near the spinodal:II application[J].Heat and M ass Transfer,1999,35(2):143-147.

[18]REM BE C,W IESCHE S,HOFER E P.Thermal ink jet dy-nam ics:M odeling,sim ulation,and testing[J].M icroelec-tronics Reliability,2000,40:525-532.

[19]BAE K D,BAEK S S.Developm ent of the new therm al inkjet head on SOI wafer[J].M icroelectronic Engineering,2005,(78-79):158-163.

[20]LAURELL T,W ALLM AN L,NILSSON J.Design and deve-lopm ent of a silicon m icrofabricated flow-through dispenser for on-line picolitre sample handling[J].J M icromech M icroeng,1999,9:369-376.

[21]STEGER R,KOLTAY P,BIRKLE G,et al.Two-dim ensional array of piezostack actuated nanoliter dispenser[C]∥Actuator2002.Brem en,Germ any,2002,537:37.

[22]GUTM ANN O,NIEKRAW IETZ R,KUEHLEW EIN R,et al.Im pact of medium properties on droplet release in a highly parallel nanoliter dispenser[J].Sensors and Actuators A,2004,116:187-194.

[23]DE H EIJ B,DAUB M,GUTM ANN O,et al.H ighly parallel dispensing of chem ical and biological reagents[J].Anal Bioanal Chem,2004,378:119-122.

[24]DE H EIJ B,STEINERT C,SANDM AIER H,et al.A tunea-ble and highly-parallel picolitre-dispenser based on direct li-quid displacem ent[J].Sensors and Actuators A,2003,103:88-92.

[25]STEINERT C P,GOUTIER I,GUTM ANN O,et al.A high-ly parallel picoliter dispenser with an integrated,novel capil-lary channel structure[J].Sensors and Actuators A,2004,116:171-177.

[26]LIN D E M A N N T,STR E U LE W,B IR K LE G,et al.PipeJet:A sim ple disposable dispenser for the nanoliter range[C]∥Actuator2004.Bremen,Germ any,2004:14-16.

[27]STREULE W,LINDEM ANN T,BIRKLE G,et al.PipeJet:A simple disposable dispenser for the Nano-and M icroliter range[J].Journal of the Association for Laboratory Autom a-tion,2004,9:300-306.