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In this article, we review the representative work that has been done by Hong-Jun Gao's group in the past two decades in Institute of Physics, Chinese Academy of Sciences. The work focuses on the construction, properties and applications of low-dimensional atomic/molecular crystals, covering the following 3 aspects. 1) Construction and growth mechanisms of low-dimensional quantum structures. Firstly, we demonstrate the fabrication and growth mechanism of a seahorse shaped fractal pattern in C60-TCNQ multilayer thin films by using the ionized-cluster-beam method. Secondly, by modifying the tip of the scanning tunneling microscope (STM), we clearly resolve the six rest atoms and twelve adatoms on a Si(111)-77 unit cell, showing the highest-resolution STM images of the Si(111)-77 surface. According to this work, we investigate the adsorption and bonding of Ge atoms on Si(111)-77 at low coverages. The configurations and growth behaviors of iron phthalocyanine molecules on Au(111) surface from sub-monolayer to bilayer are also reviewed. Furthermore, we demonstrate that organic molecules bond preferentially to different facets of the Ag(775) substrate under different deposition sequences, molecular lengths, terrace widths, and step heights. This can contribute to the design of non-templated selective functionalization of nanocrystals. 2) Reversible conductance transition and spin on-off in low-dimensional quantum structures and applications in ultrahigh-density information storage. Firstly, we implement reversible, erasable, and rewritable nano-recordings on molecular thin films as a result of conductance transition. Then we demonstrate that the Kondo resonance of iron phthalocyanine molecules on an Au(111) substrate depends strongly on adsorption configuration, and the Kondo resonance of manganese phthalocyanine molecules can reversibly switch ON and OFF via attachment and detachment of single hydrogen atom to the molecule. Moreover, we achieve the site-dependent g factor of a single magnetic molecule with sub-molecular resolution, which shows an inhomogeneous distribution of the g factor within a single molecule. These results open up new routes to realizing ultrahigh-density information storage and controlling local spin properties within a single molecule. 3) Construction, physical properties and applications of graphene and other two-dimensional atomic crystals. We start with the fabrication of a wafer-size, high-quality (almost defect free), single-crystalline graphene on Ru(0001). Then we demonstrate the structure of novel two-dimensional (2D) atomic crystals of mono-element, such as silicene,germanene, hafnene, and antimonene. Last but not least, we present the formation of intrinsically patterned bi-elements 2D materials, PtSe2 and CuSe, which can serve as templates for selective self-assembly of molecules and nanoclusters, as well as dual functionalization for catalysis or other applications. The series of work done in Hong-Jun Gao's group has laid a solid foundation in the research field of low-dimensional quantum structures and their applications.
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Keywords:
- low-dimensional quantum structure /
- two-dimensional atomic crystal /
- functional molecule /
- scanning tunneling microscopy
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[2] Crone B, Dodabalapur A, Lin Y Y, Filas R W, Bao Z, LaDuca A, Sarpeshkar R, Katz H E, Li W 2000 Nature 403 521
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[6] Gao H J, Xue Z Q, Wu Q D, Pang S 1994 J. Mater. Res. 9 2216
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[12] Hamers R J, Tromp R M, Demuth J E 1986 Phys. Rev. Lett. 56 1972
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[63] Wang Y L, Li L F, Yao W, Song S R, Sun J T, Pan J B, Ren X, Li C, Okunishi E, Wang Y Q, Wang E, Shao Y, Zhang Y Y, Yang H T, Schwier E F, Iwasawa H, Shimada K, Taniguchi M, Cheng Z H, Zhou S Y, Du S X, Pennycook S J, Pantelides S T, Gao H J 2015 Nano Lett. 15 4013
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[1] Sato A, Tsukamoto Y 1993 Nature 363 431
[2] Crone B, Dodabalapur A, Lin Y Y, Filas R W, Bao Z, LaDuca A, Sarpeshkar R, Katz H E, Li W 2000 Nature 403 521
[3] Dimitrakopoulos C D, Malenfant P R L 2002 Adv. Mater. 14 99
[4] Geim A K, Novoselov K S 2007 Nat. Mater. 6 183
[5] Castro Neto A H, Guinea F, Peres N M R, Novoselov K S, Geim A K 2009 Rev. Mod. Phys. 81 109
[6] Gao H J, Xue Z Q, Wu Q D, Pang S 1994 J. Mater. Res. 9 2216
[7] Gao H J, Xue Z Q, Pang S J 1997 Thin Solid Films 292 40
[8] Cai J M, Bao L H, Guo W, Cai L, Huan Q, Lian J C, Guo H M, Wang K Z, Shi D X, Pang S J, Gao H J 2007 Chin. Phys. Lett. 24 2918
[9] Gao H J, Zhang H X, Xue Z Q, Pang S J 1997 J. Mater. Res. 12 1942
[10] Sandler I M, Canright G S, Gao H J, Pang S J, Xue Z Q, Zhang Z Y 1998 Phys. Rev. E 58 6015
[11] Sandler I M, Canright G S, Zhang Z Y, Gao H J, Xue Z Q, Pang S J 1998 Phys. Lett. A 245 233
[12] Hamers R J, Tromp R M, Demuth J E 1986 Phys. Rev. Lett. 56 1972
[13] Giessibl F J 1995 Science 267 68
[14] Wang Y L, Gao H J, Guo H M, Liu H W, Batyrev I G, McMahon W E, Zhang S B 2004 Phys. Rev. B 70 073312
[15] Cheng Z H, Du S X, Guo W, Gao L, Deng Z T, Jiang N, Guo H M, Tang H, Gao H J 2011 Nano Res. 4 523
[16] Cheng Z H, Du S X, Jiang N, Zhang Y Y, Guo W, Hofer W A, Gao H J 2011 Surf. Sci. 605 415
[17] Deng Z T, Lin H, Ji W, Gao L, Lin X, Cheng Z H, He X B, Lu J L, Shi D X, Hofer W A, Gao H J 2006 Phys. Rev. Lett. 96 156102
[18] Wang Y L, Gao H J, Guo H M, Wang S, Pantelides S T 2005 Phys. Rev. Lett. 94 106101
[19] Shi D X, Ji W, Lin X, He X B, Lian J C, Gao L, Cai J M, Lin H, Du S X, Lin F, Seidel C, Chi L F, Hofer W A, Fuchs H, Gao H J 2006 Phys. Rev. Lett. 96 226101
[20] Jiang N, Zhang Y Y, Liu Q, Cheng Z H, Deng Z T, Du S X, Gao H J, Beck M J, Pantelides S T 2010 Nano Lett. 10 1184
[21] Jiang N, Wang Y, Liu Q, Zhang Y, Deng Z, Ernst K H, Gao H J 2010 Phys. Chem. Chem. Phys. 12 1318
[22] Yang B, Wang Y L, Li G, Cun H Y, Ma Y, Du S X, Xu M C, Song Y L, Gao H J 2009 J. Phys. Chem. C 113 17590
[23] Yang B, Wang Y, Cun H, Du S, Xu M, Wang Y, Ernst K H, Gao H J 2010 J. Am. Chem. Soc. 132 10440
[24] Cun H, Wang Y, Yang B, Zhang L, Du S, Wang Y, Ernst K H, Gao H J 2010 Langmuir 26 3402
[25] Cun H, Wang Y, Du S, Zhang L, Zhang L, Yang B, He X, Wang Y, Zhu X, Yuan Q, Zhao Y P, Ouyang M, Hofer W A, Pennycook S J, Gao H J 2012 Nano Lett. 12 1229
[26] Cheng Z H, Gao L, Deng Z T, Jiang N, Liu Q, Shi D X, Du S X, Guo H M, Gao H J 2007 J. Phys. Chem. C 111 9240
[27] Cheng Z H, Gao L, Deng Z T, Liu Q, Jiang N, Lin X, He X B, Du S X, Gao H J 2007 J. Phys. Chem. C 111 2656
[28] Burke S, Ji W, Mativetsky J, Topple J, Fostner S, Gao H J, Guo H, Grtter P 2008 Phys. Rev. Lett. 100 186104
[29] Hu H, Gao H J, Liu F 2008 Phys. Rev. Lett. 101 216102
[30] Du S X, Gao H J, Seidel C, Tsetseris L, Ji W, Kopf H, Chi L F, Fuchs H, Pennycook S J, Pantelides S T 2006 Phys. Rev. Lett. 97 156105
[31] Eremtchenko M, Schaefer J A, Tautz F S 2003 Nature 425 602
[32] Hauschild A, Karki K, Cowie B C C, Rohlfing M, Tautz F S, Sokolowski M 2005 Phys. Rev. Lett. 94 036106
[33] Wen Y Q, Song Y L, Jiang G Y, Zhao D B, Ding K L, Yuan W F, Lin X, Gao H J, Jiang L, Zhu D B 2004 Adv. Mater. 16 2018
[34] Wen Y Q, Wang J X, Hu J P, Jiang L, Gao H J, Song Y L, Zhu D B 2006 Adv. Mater. 18 1983
[35] Jiang G Y, Michinobu T, Yuan W F, Teng M, Wen Y Q, Du S X, Gao H J, Jiang L, Song Y L, Diederich F, Zhu D B 2005 Adv. Mater. 17 2170
[36] Ma Y, Cao X, Li G, Wen Y, Yang Y, Wang J, Du S, Yang L, Gao H J, Song Y 2010 Adv. Funct. Mater. 20 803
[37] Wu H M, Song Y L, Du S X, Liu H W, Gao H J, Jiang L, Zhu D B 2003 Adv. Mater. 15 1925
[38] Hu Y B, Zhu Y, Gao H J, Guo H 2005 Phys. Rev. Lett. 95 156803
[39] Gao H J, Gao L 2010 Prog. Surf. Sci. 85 28
[40] Feng M, Guo X F, Lin X, He X B, Ji W, Du S X, Zhang D Q, Zhu D B, Gao H J 2005 J. Am. Chem. Soc. 127 15338
[41] Feng M, Gao L, Deng Z T, Ji W, Guo X F, Du S X, Shi D X, Zhang D Q, Zhu D B, Gao H J 2007 J. Am. Chem. Soc. 129 2204
[42] Feng M, Gao L, Du S X, Deng Z T, Cheng Z H, Ji W, Zhang D Q, Guo X F, Lin X, Chi L F, Zhu D B, Fuchs H, Gao H J 2007 Adv. Funct. Mater. 17 770
[43] Gao L, Ji W, Hu Y B, Cheng Z H, Deng Z T, Liu Q, Jiang N, Lin X, Guo W, Du S X, Hofer W A, Xie X C, Gao H J 2007 Phys. Rev. Lett. 99 106402
[44] Ren J, Guo H, Pan J, Zhang Y Y, Wu X, Luo H G, Du S, Pantelides S T, Gao H J 2014 Nano Lett. 14 4011
[45] Ren J D, Guo H M, Pan J, Zhang Y F, Yang Y, Wu X, Du S, Ouyang M, Gao H J 2017 Phys. Rev. Lett. 119 176806
[46] Gao L, Liu Q, Zhang Y Y, Jiang N, Zhang H G, Cheng Z H, Qiu W F, Du S X, Liu Y Q, Hofer W A, Gao H J 2008 Phys. Rev. Lett. 101 197209
[47] Liu Q, Zhang Y Y, Jiang N, Zhang H G, Gao L, Du S X, Gao H J 2010 Phys. Rev. Lett. 104 166101
[48] Liu Q, Du S, Zhang Y, Jiang N, Shi D, Gao H J 2012 Small 8 796
[49] Yang K, Liu L, Zhang L, Xiao W, Fei X, Chen H, Du S, Ernst K H, Gao H J 2014 ACS Nano 8 2246
[50] Liu L W, Yang K, Jiang Y H, Song B Q, Xiao W D, Li L F, Zhou H T, Wang Y L, Du S X, Ouyang M, Hofer W A, Castro Neto A H, Gao H J 2013 Sci. Rep. 3 1210
[51] Liu L W, Yang K, Jiang Y H, Song B Q, Xiao W D, Song S R, Du S X, Ouyang M, Hofer W A, Castro Neto A H, Gao H J 2015 Phys. Rev. Lett. 114 126601
[52] Novoselov K S, Geim A K, Morozov S V, Jiang D, Zhang Y, Dubonos S V, Grigorieva I V, Firsov A A 2004 Science 306 666
[53] Pan Y, Shi D X, Gao H J 2007 Chin. Phys. 16 3151
[54] Pan Y, Zhang H G, Shi D X, Sun J T, Du S X, Liu F, Gao H J 2009 Adv. Mater. 21 2777
[55] Gao M, Pan Y, Huang L, Hu H, Zhang L Z, Guo H M, Du S X, Gao H J 2011 Appl. Phys. Lett. 98 033101
[56] Meng L, Wu R T, Zhang L Z, Li L F, Du S X, Wang Y L, Gao H J 2012 J. Phys.:Condens. Matter 24 314214
[57] Pan Y, Zhang L, Huang L, Li L, Meng L, Gao M, Huan Q, Lin X, Wang Y, Du S, Freund H J, Gao H J 2014 Small 10 2215
[58] Meng L, Wang Y L, Zhang L Z, Du S X, Wu R T, Li L, Zhang Y, Li G, Zhou H T, Hofer W A, Gao H J 2013 Nano Lett. 13 685
[59] Huang L, Zhang Y F, Zhang Y Y, Xu W Y, Que Y D, Li E, Pan J B, Wang Y L, Liu Y Q, Du S X, Pantelides S T, Gao H J 2017 Nano Lett. 17 1161
[60] Li L F, Lu S Z, Pan J B, Qin Z H, Wang Y Q, Wang Y L, Cao G Y, Du S X, Gao H J 2014 Adv. Mater. 26 4820
[61] Qin Z, Pan J, Lu S, Shao Y, Wang Y, Du S, Gao H J, Cao G 2017 Adv. Mater. 29 1606046
[62] Li L F, Wang Y L, Xie S, Li X B, Wang Y Q, Wu R T, Sun H B, Zhang S B, Gao H J 2013 Nano Lett. 13 4671
[63] Wang Y L, Li L F, Yao W, Song S R, Sun J T, Pan J B, Ren X, Li C, Okunishi E, Wang Y Q, Wang E, Shao Y, Zhang Y Y, Yang H T, Schwier E F, Iwasawa H, Shimada K, Taniguchi M, Cheng Z H, Zhou S Y, Du S X, Pennycook S J, Pantelides S T, Gao H J 2015 Nano Lett. 15 4013
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