钢笔纳米刻蚀技术(Fountain pen nanolithography,FPN)是近年来发展起来的一种新型的基于原子力显微镜(Atomic force microscope,AFM)的扫描探针刻蚀技术,具有加工结构精度高、加工过程操作性强、对加工环境要求低、持续书写等优点.FPN刻蚀过程主要受探针的孔径大小、空气湿度、接触时间、书写速度、墨水的特性等因素影响.在介绍FPN相关原理及影响因素的基础上,综合介绍了包括电化学FPN技术(Electrochemical FPN,EcFPN)和主动控制技术FPN(Active FPN,AFPN)在内的FPN相关技术研究的最新成果及其在生物领域、微电子领域和光学器件方面的相关应用.
参考文献
| [1] | Scheel H J;Binning G;Rohrer H .Atomically flat LPE-grown facets seen by scanning tunneling microscopy[J].Journal of Crystal Growth,1982,60(1):199. |
| [2] | Buzio R;Chierichetti A;Bianchi G;Valbusa U .Morphological characterization and scaling behaviour of WC coatings deposited by HVOF thennal spray[J].Surface & Coatings Technology,2006(22/23):6430-6433. |
| [3] | Aw P K;Tan B H .Study of microstructure,phase and microhardness distribution of HVOF sprayed multi-modal structured and conventional WC-17Co coatings[J].J Mater Process Techn,2006,174(1):305. |
| [4] | Chan, J.;Venugopal, A.;Pirkle, A.;McDonnell, S.;Hinojos, D.;Magnuson, C.W.;Ruoff, R.S.;Colombo, L.;Wallace, R.M.;Vogel, E.M. .Reducing extrinsic performance-limiting factors in graphene grown by chemical vapor deposition[J].ACS nano,2012(4):3224-3229. |
| [5] | Erdélyi, R.;Nagata, T.;Rogers, D.J.;Teherani, F.H.;Horváth, Z.E.;Lábadi, Z.;Baji, Z.;Wakayama, Y.;Volk, J. .Investigations into the impact of the template layer on ZnO nanowire arrays made using low temperature wet chemical growth[J].Crystal growth & design,2011(6):2515-2519. |
| [6] | Yongjun Li;Yongli Yan;Chuang Zhang;Yong Sheng Zhao;Jiannian Yao .Embedded Branch-Like Organic/Metal Nanowire Heterostructures: Liquid-Phase Synthesis, Efficient Photon- Plasmon Coupling, and Optical Signal Manipulation[J].Advanced Materials,2013(20):2784-2788. |
| [7] | Yeongae Kim;Sangmin Lee;Handong Cho .Robust Superhydrophilic/Hydrophobic Surface Based on Self-Aggregated Al2O3 Nanowires by Single-Step Anodization and Self-Assembly Method[J].ACS applied materials & interfaces,2012(10):5074-5078. |
| [8] | Jinhee Heo;Junghwan Lee .Characterization of the Oxygen Ionosorption Effect on a Single SnO_2 Nanowire by Using Conductive Atomic Force Microscopy[J].Journal of nanoscience and nanotechnology,2012(6):4864-4867. |
| [9] | Su Ming et al.Moving beyond molecules:Patterning solidstate features via dip-pen nanolithography with sol-based inks[J].Journal of the American Chemical Society,2002,124(8):1560. |
| [10] | Son J Y;Shin Y S;Shin Y H .Nanoscale resistive random access memory consisting of a NiO nanodot and Au nanowires formed by dip-pen nanolithography[J].Applied Surface Sinence,2011,257(23):9885. |
| [11] | He Q Y;Zhou X Z;Freddy Y C.Fabrication of bioand nanopatterns by dip pen nanolithography[A].Singapore:World Scientific Publishing,2011:187. |
| [12] | Keun-Ho Kim;Nicolaie Moldovan;Horacio D. Espinosa .A Nanofountain Probe with Sub-100 nm Molecular Writing Resolution[J].Small,2005(6):632-635. |
| [13] | G. U. Kulkarni;B. Radha .Metal nanowire grating patterns[J].Nanoscale,2010(10):2035-2044. |
| [14] | Hesham Taha;Aaron Lewis;Chaim Sukenik .Controlled Deposition of Gold Nanowires on Semiconducting and Nonconducting Surfaces[J].Nano letters,2007(7):1883-1887. |
| [15] | Jason Haaheim;Ray Eby;Mike Nelson .Dip Pen Nanolithography (DPN): process and instrument performance with NanoInk's NSCRIPTOR system[J].Ultramicroscopy,2005(2):117-132. |
| [16] | Christopher M A Brett;Ana Maria Oliverira Brett.Electrochemistry:Principles,methods,and applications[M].Oxford:Oxford University Press,1993:427. |
| [17] | Weeks BL.;Noy A.;Miller AE.;De Yoreo JJ. .Effect of dissolution kinetics on feature size in dip-pen nanolithography - art. no. 255505[J].Physical review letters,2002(25):5505-0. |
| [18] | Sheehan PE.;Whitman LJ. .Thiol diffusion and the role of humidity in "dip pen nanolithography" - art. no. 156104[J].Physical review letters,2002(15):6104-0. |
| [19] | Tang Q;Shi S;Huang H et al.Fabrication of highly oriented microstructures and nanostructures of ferroelectric P (VDF-TrFE) copolymer via dip-pen nanolithography[J].Superlattices Microstructures,2004,36(1):21. |
| [20] | Sokuler M;Gheber LA .Nano fountain pen manufacture of polymer lenses for nano-biochip applications[J].Nano letters,2006(4):848-853. |
| [21] | Schwartz Peter V .Molecular transport from an atomic force microscope tip:A comparative study of dip-pen nanolithography[J].LANGMUIR,2002,18:4041. |
| [22] | Ionescu RE;Marks RS;Gheber LA .Manufacturing of nanochannels with controlled dimensions using protease nanolithography[J].Nano letters,2005(5):821-827. |
| [23] | Deladi S;Tas NR;Berenschot JW;Krijnen GJM;de Boer MJ;de Boer JH;Peter M;Elwenspoek MC .Micromachined fountain pen for atomic force microscope-based nanopatterning[J].Applied physics letters,2004(22):5361-5363. |
| [24] | Liu C;Ryu K;Bullen D .Microfabricated micro fluid channels[P].US7737045,2010-06-15. |
| [25] | Ivanisevic A.;McCumber KV.;Mirkin CA. .Site-directed exchange studies with combinatorial libraries of nanostructures[J].Journal of the American Chemical Society,2002(40):11997-12001. |
| [26] | Albena Ivanisevic;Chad A.Mirkin ."Dip-Pen" Nanolithography on Semiconductor Surfaces[J].Journal of the American Chemical Society,2001(32):7887-7889. |
| [27] | Lovsky, Y.;Lewis, A.;Sukenik, C.;Grushka, E. .Atomic-force-controlled capillary electrophoretic nanoprinting of proteins[J].Analytical and bioanalytical chemistry,2010(1):133-138. |
| [28] | Pradeep K. Yadav;Patrick Lemoine .Comparative Sessile Drop and Dip Pen Nanolithography Investigation for Various Hydrophilic Ink/Surface Systems[J].Journal of nanoscience and nanotechnology,2012(1):60-67. |
| [29] | Jung-Hyurk Lim;Chad A. Mirkin .Electrostatically Driven Dip-Pen Nanolithography of Conducting Polymers[J].Advanced Materials,2002(20):1474-1477. |
| [30] | Steven Lenhert .In Situ Lipid Dip-Pen Nanolithography Under Water[J].Scanning: The journal of scanning microscopy,2010(1):P.15. |
| [31] | Yoshie Narui;Khalid S. Salaita .Dip-pen nanolithography of optically transparent cationic polymers to manipulate spatial organization of proteolipid membranes[J].Chemical science,2012(3):794-799. |
| [32] | Lei Fu;Xiaogang Liu;Yi Zhang;Vinayak P. Dravid;Chad A. Mirkin .Nanopatterning of "Hard" Magnetic Nanostructures via Dip-Pen Nanolithography and a Sol-Based Ink[J].Nano letters,2003(6):757-760. |
| [33] | Guoliang Liu;Yu Zhou;Resham S. Banga .The role of viscosity on polymer ink transport in dip-pen nanolithography[J].Chemical science,2013(5):2093-2099. |
| [34] | Bellido, E.;Cardona-Serra, S.;Coronado, E.;Ruiz-Molina, D. .Assisted-assembly of coordination materials into advanced nanoarchitectures by Dip Pen nanolithography[J].Chemical communications,2011(18):5175-5177. |
| [35] | Patrick T. Hurley;Alexander E. Ribbe;Jillian M. Buriak .Nanopatterning of Alkynes on Hydrogen-Terminated Silicon Surfaces by Scanning Probe-Induced Cathodic Electrografting[J].Journal of the American Chemical Society,2003(37):11334-11339. |
| [36] | Hyungil Jung;Rajan Kulkarni;C. Patrick Collier .Dip-Pen Nanolithography of Reactive Alkoxysilanes on Glass[J].Journal of the American Chemical Society,2003(40):12096-12097. |
| [37] | Kim, J.;Shin, Y.-H.;Yun, S.-H.;Choi, D.-S.;Nam, J.-H.;Kim, S.R.;Moon, S.-K.;Chung, B.H.;Lee, J.-H.;Kim, J.-H.;Kim, K.-Y.;Kim, K.-M.;Lim, J.-H. .Direct-write patterning of bacterial cells by dip-pen nanolithography[J].Journal of the American Chemical Society,2012(40):16500-16503. |
| [38] | Suryavanshi AP;Yu MF .Electrochemical fountain pen nanofabrication of vertically grown platinum nanowires[J].Nanotechnology,2007(10):5305-1-5305-4-0. |
| [39] | Rui Ming Wu;Lee Suk Han;Kim Hun Mo .Optimization for an active fountain pen nanolithography device fabrication[J].Journal of Mechanical Science and Technology,2011(4):987-993. |
| [40] | Kyoil Hwang;Suk-Han Lee;Youn-Jea Kim;Hun-mo Kim .Control of line width with active nano fountain pen (ANFP) for nano manufacturing[J].Journal of Mechanical Science and Technology,2008(7):1339-1348. |
| [41] | Lee Y K;Lee S H;Kim Y J.A novel passive membrane pumping nano fountain-pen[A].IEEE,2006:1012. |
| [42] | Kyoil Hwang;ChunYup Shin;Rui Mingwu;Suk-Han Lee;Hun-mo Kim .Design of a nano-printer based on AFPN (Active Fountain Pen Nano-lithography) using switch control[J].Journal of Mechanical Science and Technology,2011(4):977-985. |
| [43] | Protein printing with an atomic force sensing nanofountainpen[J].Applied physics letters,2003(5):1041-1043. |
| [44] | Tsarfati-BarAd, I.;Sauer, U.;Preininger, C.;Gheber, L.A. .Miniaturized protein arrays: Model and experiment[J].Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices,2011(9):3774-3781. |
| [45] | Andreas Bruckbauer;Dejian Zhou;Liming Ying;Yuri E. Korchev;Chris Abell;David Klenerman .Multicomponent Submicron Features of Biomolecules Created by Voltage Controlled Deposition from a Nanopipet[J].Journal of the American Chemical Society,2003(32):9834-9839. |
| [46] | Anne-Sophie Belmont;Mordechai Sokuler;Karsten Haupt;Levi A. Gheber .Direct writing of molecularly imprinted microstructures using a nanofountain pen[J].Applied physics letters,2007(19):193101-1-193101-3-0. |
| [47] | Kantarovich K;Tsarfati I;Gheber L A et al.Writing droplets of molecularly imprinted polymers by nano fountain pen and detecting their molecular interactions by surface-enhanced Raman scattering[J].Analytical Chemistry,2009,81 14):5686. |
| [48] | Wilson DL;Martin R;Hong S;Cronin-Golomb M;Mirkin CA;Kaplan DL .Surface organization and nanopatterning of collagen by dip-pen nanolithography.[J].Proceedings of the National Academy of Sciences of the United States of America,2001(24):13660-13664. |
| [49] | Rodica E. Ionescu;Robert S. Marks;Levi A. Gheber .Nanolithography Using Protease Etching of Protein Surfaces[J].Nano letters,2003(12):1639-1642. |
| [50] | Onoue M;Fujita M;Ushijima H .Wide area patterning of organic silane molecules by fountain-pen nanolithography[J].Molecular Cryst Liquid Cryst,2009,505(1):118. |
| [51] | Onoue M;Ogura S;Ushijima H .Repairing of pattern defects on OTFT by fountain pen nano-lithography[J].Molecular Cryst Liquid Cryst,2010,520(1):251. |
| [52] | Strain K M;Yeshua T;Gromov A V et al.Direct deposition of aligned single walled carbon nanotubes by fountain pen nanolithography[J].Mater Express,2011,1(4):279. |
| [53] | Baba, A;Sato, F;Fukuda, N;Ushijima, H;Yase, K .Micro/nanopatterning of single-walled carbon nanotube-organic semiconductor composites[J].Nanotechnology,2009(8):85301-1-85301-6-0. |
| [54] | A Direct-Write Approach for Carbon Nanotube Catalyst Deposition[J].IEEE transactions on nanotechnology,2010(3):375. |
| [55] | Fabrication for metal photomask pattern by using fountain-pen nanolithography[J].Microelectronic engineering,2010(5/8):910. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%