Publication list

19nd May. 2011 update

專書Book

奈米科技(Nanotechnology)馬遠榮(Y.-R. Ma)商周出 版社出版(Business Weekly Publications, Inc.)20023月。

專書專章Book chapter (*corresponding author)

          

1.   磁力顯微術”(Magnetic force microscopy)馬遠榮(Y.-R. Ma)奈 米檢測技術(Advanced Nano-Scale Inspection Technology)”財團法人國家實驗研究院儀器科技研究中心(Instrument Technology Research Center)(April, 2009).

英文SCI國際期刊(*corresponding author)

Request by e-mail for the pdf files of our following SCI journal papers is very welcome.

2012

1.            One-dimensional metal-oxide nanostructures: Recent developments in synthesis, characteristics and applications” R. S. Devan, R. A. Patil, J.-H. Lin, Y.-R. Ma* Adv. Funct. Mater. Accepted. (IF=8.5, Time Cited:0)

2.            Nanoscale dynamic behavior of surface magnetic domains on a La0.7Sr0.3MnO3 thin film” J.-H. Lin, Y.-R. Lin, T.-K. Wen, R. S. Devan, Y. Liou, Y.-R. Ma*, (2012) J. Nanosci. Nanotechnol. Accepted. (IF=1.352, Times Cited:0)

3.            Effective photoluminescence in a large-area array of Ta2O5 nanodots” R. S. Devan, C.-L. Lin, J.-H. Lin, T.-K. Wen, R. A. Patil, Y.-R. Ma*, (2012) J. Nanosci. Nanotechnol. Accepted. (IF=1.352, Times Cited:0)

4.            Novel synthesis of kesterite Cu2ZnSnS4 nanoflakes by successive ionic layer adsorption and reaction technique: Characterization and application” S. S. Mali, Bharmana M. Patil, C. A. Betty, P. N. Bhosale, Y. W. Oh, S. R. Jadkare, R. S. Devan, Y.-R. Ma, P. S. Patil, (2012) Electrochim. Acta 66, 216-221. (IF=3.650, Times Cited:0)

5.            PbS quantum dot sensitized anatase TiO2 nanocorals for quantum dot-sensitized solar cell applications” S. S. Mali, S. K. Desai, S. S. Kalagi, C. A. Betty, P. N. Bhosale, R. S. Devan, Y.-R. Ma, P. S. Patil, (2012) Dalton Trans. 41, 6130-6136. (IF=3.647, Times Cited:0)

6.            Mass spectrometric identification of pathogens in foods using a zirconium hydroxide immobilization approach” C.-T. Chen, P. M. Reddy, Y.-R. Ma, Y.-P. Ho, (2012) Int. J. Mass Spectrom. 312, 45-52. (IF=2.009, Times Cited:0)

7.            Hydrothermal synthesis of rutile TiO2 nanoflowers using Brønsted acidic ionic liquid [BAIL]: Synthesis, characterization and growth mechanism” S. S. Mali, C. A. Betty, P. N. Bhosale, R. S. Devan, Y.-R. Ma, S. S. Kolekar, P. S. Patil, (2012) CrystEngComm 14,1920-1924. (IF=4.006, Times Cited:0)

8.            Room-temperature wide-range photoluminescence and semiconducting characteristics of two-dimensional pure metallic Zn nanoplates” J.-H. Lin, Y.-J. Huang, Y.-P. Su, C.-A. Liu, R. S. Devan, C.-H. Ho, Y.-P. Wang, H.-W. Lee, C.-M. Chang, Y. Liou, Y.-R. Ma*, (2012) RSC Advances 2, 2123-2127. (IF=3.259, Times Cited:0)

2011

9.            Scanning photoemission spectromicroscopic study of 4-nm ultrathin SiO3.4 protrusions probe-induced on the native SiO2 layer” R. S. Devan, S.-Y. Gao, Y.-R. Lin, S.-R. Cheng, C.-E. Hsu, C.-H. Chen, H.-W. Shiu, Y. Liou, Y.-R. Ma*, (2011) Microsc. Microanal. 17, 944-949. (IF=3.259, Times Cited:0)

10.       Effect of Mn substitution on electronic structure of Ca9Y(PO4)7:Eu2+,Mn2+ phosphor determined by X-ray absorption spectroscopy” Y.-R. Lu, C.-H. Huang, T.-M. Chen, J.-H. Lin, Y.-R. Ma, J.-L. Chen, C.-C. Hsu, C.-L. Chen, T.-S. Chan, (2011) Chem. Phys. Lett. 515, 245-248. (IF=2.282, Times Cited=0)

11.       Facile and low cost chemosynthesis of nanostructured PbS with tunable” S. B. Pawar, J. S. Shaikh, R. S. Devan, Y.-R. Ma, D. Haranath, P. N. Bhosale, P. S. Patil, (2011) Appl. Surf. Sci. 258, 1869-1875. (IF=1.795, Times Cited=0)

12.       Mechanism of light emission and electronic properties of Eu3+-doped Bi2SrTa2O9 system determined by coupled x-ray absorption and emission spectroscopy” T.-S. Chan, C.-L. Dong, Y.-H. Chen, T.-R. Lu, S. Y. Wu, Y.-R. Ma, C. C. Lin, R.-S. Liu, J.-L. Chen, J. Guo, J.-F. Lee, H.-S. Sheu, C. C. Yang, C. L. Chen, (2011) J. Mater. Chem. 21, 17119-17127. (IF=5.099, Times Cited:0)

13.       Two-dimensional single-crystalline pure Zn hexagonal nanoplates: Size-controllable synthesis and X-ray diffraction studyR. S. Devan, J.-H. Lin, Y.-J. Huang, C.-C. Yang, Yung Liou, Y.-R. Ma*, (2011) Nanoscale 3, 4339-4345. (IF=4.109, Times Cited:1)

14.       Growth mechanism and magnon excitation in NiO nanowallsA. C. Gandhi, C.-Y. Huang, C. C. Yang, T. S. Chan, C.-L. Cheng, Y.-R. Ma, S. Y. Wu, (2011) Nanoscale Res. Lett. 6, 485. (IF=2.557, Times Cited:0)

15.       Enhancement of green-light photoluminescence of Ta2O5 nanoblock stacks” R. S. Devan, C.-L. Lin, S.-Y. Gao, C.-L. Cheng, Y. Liou, Y.-R. Ma*, (2011) Phys. Chem. Chem. Phys. 13, 13441-13446. (IF=3.454, Times Cited:2)

16.       Electrochromic properties of large-area and high-density arrays of transparent one-dimensional β-Ta2O5 nanorods on indium-tin-oxide thin-films” R. S. Devan, S.-Y. Gao, W.-D. Ho, J.-H. Lin, Y.-R. Ma*, P. S. Patil, Y. Liou, (2011) Appl. Phys. Lett. 98, 133117. (IF=3.820, Times Cited:4)

17.       An Mn Doped Polyaniline Electrode for Electrochemical SupercapacitorD. S. Patil, J. S. Shaikh, D. S. Dalavi, M. M. Karanjkar, R. S. Devan, Y.-R. Ma, P. S. Patil, (2011) J. Electrochem. Soc. 158, A653-A657. (IF=2.420, Times Cited:1)

18.       Synthesis and characterization of Ru doped CuO thin films for supercapacitor based on Bronsted acidic ionic liquidJ. S. Shaikh, R. C. Pawar, R. S. Devan, Y.-R. Ma, P. P. Salvi, S. S. Kolekar, P. S. Patil, (2011) Electrochim. Acta 56, 2127-2134. (IF=3.642, Times Cited:2)

2010

19.       Investigation of high-temperature phase transformation in one-dimensional Ta2O5 nanorods” R. S. Devan, J.-H. Lin, W.-D. Ho, S. Y. Wu, Y. Liou, Y.-R. Ma*, (2010) J. Appl. Cryst. 43, 1062-1067. (IF=3.794, Times Cited:4)

20.       Creation and manipulation of surface magnetic domains in an alternating up-and-down pattern” G.-C. Xie, L.-C. Lin, S.-Y. Gao, R. S. Devan, S. Y. Wu, Y.-R Ma*, (2010) J. Nanosci. Nanotechnol. 10, 4465-4470. (IF=1.351, Times Cited:0)

21.       Low-temperature phase transformation and phonon confinement in one-dimensional Ta2O5 nanorods” R. S. Devan, W.-D. Ho, S. Y. Wu, Y.-R. Ma*, (2010) J. Appl. Cryst. 43, 498-503. (IF=3.794, Times Cited:6)

22.       “In situ confocal Raman mapping study of a single Ti-assisted ZnO nanowireA. C. Gandhi, H.-J. Hung, P.-H. Shih, C.-L. Cheng, Y.-R. Ma, S. Y. Wu, (2010) Nanoscale Res. Lett. 5, 581-586. (IF=2.557, Times Cited:1)

23.       Spontaneous self-organization of Cu2O/CuO core-shell nanowires from copper nanoparticles” J.-Y. Ji, P.-H. Shih, C. C. Yang, T. S. Chan, Y.-R. Ma, S. Y. Wu, (2010) Nanotechnology 21, 045603. (IF=3.644, Times Cited:2)

2009

24.       High room-temperature photoluminescence of one-dimensional Ta2O5 nanorod arrays” R. S. Devan, W.-D. Ho, C.-H. Chen, H.-W. Shiu, C.-H. Ho, C.-L. Cheng, S. Y. Wu, Y. Liou, Y.-R. Ma*, Nanotechnology 20, 445708 (2009). (IF=3.644, Times Cited:8)

25.       Room-temperature gas sensing studies of polyaniline thin films deposited on different substrates” N. G. Deshpande, Y. G. Gudage, R. S. Devan, Y.-R. Ma, Y. P. Lee, R. Sharma, Smart Mater. Struct. 18, 095010 (2009). (IF=2.094, Times Cited:3)

26.       Comparative atomic force and scanning electron microscopy: An investigation of structural differentiation of hepatic stellate cells” K.-T. Chang, M.-J. Tsai, Y.-T. Cheng, J.-J. Chen, R.-H. Hsia, Y.-S. Lo, Y.-R. Ma, C.-F. Weng, J. Struct. Biol. 167, 200 (2009). (IF=3.497, Times Cited:3)

27.       Effective dielectric and magnetic properties of (Ni-Co-Cu)ferrite/BTO composite ” R. S. Devan, Y.-R. Ma, B. K. Chougule, Mater. Chem. Phys. 115, 263, (2009). (IF=2.353, Times Cited:7)

2008

28.       X-ray diffraction study of a large-scale and high-density array of one-dimensional crystalline tantalum pentoxide nanorodsR. S. Devan, W.-D. Ho, J.-H. Lin, S. Y. Wu, Y.-R. Ma*, P.-C. Lee, and Y. Liou, Cryst. Growth Des. 8, 4465 (2008). (IF=4.389, Times Cited:10)

29.       Size effect of surface magnetic anisotropy in Cu2O nanoparticles” P.-H. Shih, J.-Y. Ji, Y.-R. Ma and S. Y. Wu, J. Appl. Phys. 103, 07B735 (2008). (IF=2.064, Times Cited:0)

30.       Li0.5Co0.75Fe2O4+BaTiO3 particulate composites with coupled magnetic-electric properties” R. S. Devan, D. R. Dhakras, T. G. Vichare, A. S. Joshi, S. R. Jigajeni, Y.-R. Ma, and B. K. Chougule, J. Phys. D: Appl. Phys. 41, 105010 (2008). (IF=2.105, Times Cited:17)

31.       Laser oxidation and wide-band photoluminescence of thermal evaporated bismuth thin filmsL. Kumari, J.-H. Lin, and Y.-R. Ma*, J. Phys. D: Appl. Phys. 41, 025405 (2008). (IF=2.105, Times Cited:6)

2007

32.       Tip-induced large-area oxide bumps and composition stoichiometry test via atomic force microscopyY.-S. Lu, H.-I Wu, S. Y. Wu, Y.-R. Ma*, Surf. Sci. 601, 3788 (2007). (IF=2.010, Times Cited:4)

33.       Construction of magnetization reversals of ring and square thin films of Ni80Fe20 using enhanced magnetic force microscopyC.-L. You, S. Y. Wu, Y.-R. Ma*, C. Yu, D.-C. Chen, Y. Liou, and Y. D. Yao, Surf. Sci. 601, 4279 (2007). (IF=2.010, Times Cited:0)

34.       One-dimensional Bi2O3 nanohooks: Synthesis, characterization and optical propertiesL. Kumari, J.-H. Lin and Y.-R. Ma*, J. Phys.: Condens. Matter 19, 406204 (2007). (IF=2.332, Times Cited:21)

35.       Synthesis of bismuth oxide nanostructures by an oxidative metal vapor phase deposition technique” L. Kumari, J.-H. Lin, Y.-R. Ma*, Nanotechnology 18, 295605 (2007). (IF=3.644, Times Cited:23)

36.       Direct observation of short-circuit diffusion during the formation of a single cupric oxide nanowire” C.-L. Cheng, Y.-R. Ma, M. H. Chou, C. Y. Huang, V. Yeh, and S. Y. Wu, Nanotechnology 18, 245604 (2007). (IF=3.644, Times Cited:6)

37.       Effects of deposition temperature and thickness on the structural properties of thermal evaporated bismuth thin films L. Kumari, S.-J. Lin, J.-H. Lin, Y.-R. Ma*, P.-C. Lee, Y. Liou, Appl. Surf. Sci. 253, 5931 (2007). (IF=1.793, Times Cited:7)

38.       Magnetoresistance in two-component Ag/Ni nanocompacts” S. Y. Wu, Y.-R. Ma, M. T. Liao, W.-H. Li, J. Magn. Magn. Mater. 310, 2359 (2007). (IF=1.689, Times Cited:1)

39.       X-ray diffraction and Raman scattering studies on large-area array and nano-branched structure of 1D MoO2 nanorodsL. Kumari, Y.-R. Ma,* C.-C. Tsai, Y.-W. Lin, S. Y. Wu, K.-W. Cheng and Y. Liou, Nanotechnology 18, 115717 (2007). (IF=3.644, Times Cited:19)

2006

40.       Magnetic properties of large-area one-dimensional WO2 and MoO2 nanorodsY.-R. Ma*, C.-C. Tsai, S. F. Lee, K.-W. Cheng, Y. Liou, Y. D. Yao, J. Magn. Magn. Mater. 304, E13-E15 (2006). (IF=1.689, Times Cited:2)

41.       Investigation of Tip-Induced Magnetic Ripples on La0.7Sr0.3MnO3 Surface”, J.-S. Chen, Y.-R. Ma*, Y. Liou and Y. D. Yao, J. Appl. Phys. 99, 08B702 (2006). (IF=2.064, Times Cited:3)

2005

42.       Surface magnetic ripples induced by a local magnetic field from a scanning magnetic tip H.-I Wu, J.-S. Chen, Y.-R. Ma*, Y. Liou, and Y. D. Yao, IEEE Trans. Magn. 41, 3748 (2005). (IF=1.053, Times Cited:5)

43.       Synthesis and characterization of one-dimensional WO2 nanorods”, Y.-R. Ma*, C.-M. Lin, C.-L. Yeh, and R.-T. Huang, J. Vac. Sci. Technol. B 23, 2141 (2005). (IF=1.271, Times Cited:25)

44.       Thickness effect of nanosized thin-film iron dot on growth of multiwall carbon nanotubes”, Y.-R. Ma*, M. S. Wong, C.-H. Shee, K.-W. Cheng, J.-C. Wu, Y. Liou, and Y.-D. Yao, J. Appl. Phys. 97, 10J707 (2005). (IF=2.064, Times Cited:1)

2004

45.       Pushing nanoparticles of La0.7Sr0.3MnO3, Y.-R. Ma*, Y. Liou, and Y.-D. Yao, J. Magn. Magn. Mater. 282, 342 (2004). (IF=1.689, Times Cited:4)

46.       Effect of field power on growth of multiwall carbon nanotubes”, Y.-R. Ma*, K.-W. Cheng, C.-H. Shee, C.-C. Tsai, M. S. Wong, H.-L. Liu, Y. Liou, and Y.-D. Yao, J. Magn. Magn. Mater. 282, 61 (2004). (IF=1.689, Times Cited:4)

47.       Size Effect of nanosized thin-film iron dot on growth of multiwall carbon nanotubes”, M. S. Wong, K.-W. Cheng, C.-H. Shee, Y.-R. Ma*, J.-C. Wu, Y. Liou, and Y.-D. Yao, J. Appl. Phys. 95, 7291, (2004). (IF=2.064, Times Cited:9)

48.       Magnetic switching and reversal process in a tip ring structure”, Y. Liou, D.-C. Chen, C. Yu, J. S. Chen, S.-F. Lee, Y. D. Yao, C. C. Tzeng, T. Y. Chen, and K. W. Cheng, and Y.-R. Ma, J. Appl. Phys. 95, 6723, (2004). (IF=2.064, Times Cited:5)

Magnetic studies in octagon-patterned permalloy submicro-wires”, Y. D. Yao, E. W. Huang, S. F. Lee, C. Yu, M. S. Wong, and Y.-R. Ma, J. Magn. Magn. Mater. 272-276, 1686 (2004). (IF=1.689, Times Cited:0)

 

2003

49.       Magnetic force microscopy study in patterned permalloy submicron-wire”, E. W. Huang, C. Yu, S. F. Lee, Y. D. Yao, T. Y. Chen, M. S. Wong, C. R. Chang, B. S. Han, Y.-R. Ma, International J. Nanoscience, 2, 325 (2003).

50.       Magnetoresistance study in NiFe semicircle-ring patterned wires”, C. Yu, S. F. Lee, Y. D. Yao, Y.-R. Ma, E. W. Huang, J. L. Tsai, T. Y. Chen and C. R. Chang, J. Appl. Phys. 93, 7619, (2003). (IF=2.064, Times Cited:0)

51.       Fabrication and physical properties of permalloy nano-size wires”, C. Yu, S. F. Lee, Y. D. Yao, M. S. Wong, E. W. Huang, Y.-R. Ma, J. L. Tsai, and C. R. Chang, Physica B 327, 247 (2003). (IF=0.856, Times Cited:4)

2002

52.       Observation and investigation of plasimid DNA using an atomic force microscope”, Y.-R. Ma*, H.-J. Chiang, and Y.-D. Yao, Microsc. Microanal. 8 (suppl. 2), 988 (2002). (IF=3.259, Times Cited:0)

53.       Microscopy and Magnetoresistance studies in zigzag and semi-circle-in-series Permalloy wires”, C. Yu, S.-F. Lee, Y.-D. Yao, Y.-R. Ma, J. L. Tsai, and C. R. Chang, Microsc. Microanal. 8, (suppl. 2), 1370 (2002). (IF=3.259, Times Cited:0)

54.       Investigation of magnetic domain structures on a thin film surface of La0.7Sr0.3MnO3 at various temperatures using magnetic force microscopy”, Y.-R. Ma*, C.-H. Chueh, W.-L. Kuang, Y. Liou, and Y.-D. Yao, Surf. Sci. 507-510, 571 (2002). (IF=2.010, Times Cited:6)

55.       Magnetic force microscopy study in La0.7Sr0.3MnO3/Si(001) around its Curie temperature”, Y.-R. Ma*, C.-H. Chueh, W.-L. Kuang, Y. Liou, and Y.-D. Yao, J. Magn. Magn. Mater. 239, 371 (2002). (IF=1.689, Times Cited:6)

2001

56.       Tip-induced local anodic oxidation on the native SiO2 layer of Si(111) using an atomic force microscope”, Y.-R. Ma*, C. Yu, Y.-D. Yao, Y. Liou, and S.-F. Lee, Phys. Rev. B 64, 195324 (2001). (IF=3.774, Times Cited:26)



1998

49.    C60 adsorption on the Si(110)-(16x2) surface”, Y.-R. Ma, P. Moriarty, M. D. Upward and P. H. Beton, Surf. Sci. 397, 421, (1998). (SCI)

50.    Probing the interactions of C60 on Si(100)-2x1 using anisotropic molecular manipulation”, P. Moriarty, Y.-R. Ma, M. D. Upward, P. H. Beton and D. Teehan, Semicond. Sci. Technol. 13, A47, (1998). (SCI)

51.    Reconstruction dependent adsorption of C60 on GaAs(111)B”, P. Moriarty, M. D. Upward, A. W. Dunn, Y.-R. Ma, P. H. Beton, D. Teehan and D. A. Woolf, Surf. Sci. 405, 21, (1998). (SCI)

52.    Translation, rotation and removal of individual C60 molecules”, P. Moriarty, Y.-R. Ma, M.D. Upward and P.H. Beton, Surf. Sci. 407, 27, (1998). (SCI)

53.    C60 terminated Si surfaces: Charge transfer, bonding, and chemical passivation”, P. Moriarty, M. D. Upward, A. W. Dunn, Y.-R. Ma, P. H. Beton and D. Teehan, Phys. Rev. B 57, 362, (1998). (SCI)

1997

54.    Disorder-Order ripening of C60 islands”, Y.-R. Ma, P. Moriarty and P. H. Beton, Phys. Rev. Lett. 78, 2588, (1997). (SCI)

55.    Absence of long-range ordered reconstruction on the GaAs(311)A surface”, P. Moriarty, Y.-R. Ma, A. W. Dunn, P. H. Beton, M. Henini, C. McGinley, E. McLoughlin, A. A. Cafolla, G. Hughes, S. Downes, D. Teehan and B. Murphy, Phys. Rev. B 55, 15397, (1997). (SCI)

56.    Investigation and manipulation of C60 on a Si surface using a scanning tunneling microscope”, P. Moriarty, A.W. Dunn, Y.-R. Ma, M.D. Upward and P.H. Beton, Fullerene Sci. and Technol. 5, 769, (1997). (SCI)

57.    Adsorption of Sb on GaAs(111)B studied by photoemission and low energy electron diffraction”, A. A. Cafolla, C. McGinley, P Moriarty, A. W. Dunn, Y.-R. Ma, D Teehan, B Murphy, S Downes and D. A. Woolf, Surf. Sci. 377, 130, (1997). (SCI)

58.    Absence of long-range ordered reconstruction on the GaAs(311)A surface”, P. Moriarty, Y.-R. Ma, A. W. Dunn, P. H. Beton, M. Henini, C. McGinley, E. McLoughlin, A. A. Cafolla, G. Hughes, S. Downes, D. Teehan and B. Murphy, Phys. Rev. B 55, 15397, (1997). (SCI)

69.    Adsorption of Sb on GaAs(111)B studied by photoemission and low energy electron diffraction”, A. A. Cafolla, C. McGinley, P Moriarty, A. W. Dunn, Y.-R. Ma, D Teehan, B. Murphy, S. Downes and D. A. Woolf, Surf. Sci. 377, 130, (1997). (SCI)

1996

60.    Adsorbed and substituted Sb dimers on GaAs(001)”, P. Moriarty, P.H. Beton and Y.-R. Ma, Phys. Rev. B 53, 16148, (1996). (SCI)

61.    (2x4)/c(2x8) to (4x2)/c(8x2) transition on the GaAs(001) surfaces”, P. Moriarty, P.H. Beton, Y.-R. Ma, A.W. Dunn, M. Henini and D.A. Woolf, J. Vac. Sci. Tech. B 14, 943, (1996). (SCI)

1994

62.    Diamond formation in carbon-hydrogen oxygen system”, Y. Liou and Y.-R. Ma, Diam. Relat. Mater. 3, 573, (1994). (SCI)

1993

63.    Residual-Stress in Tin-coated Graphite”, C. C. Chiu, Y.-R. Ma and Y. Liou, J. Mater. Sci. Lett. 12, 1789, (1993). (SCI)

 

中文期刊

1.   低維奈米材料馬遠榮,科學 發展月刊(國科會)38272-75(2004/10)

2.   以 探針引發式離子佈植術產生奈米氧化物和奈米氧 化物成分鑑定馬 遠榮、 呂文綺,物理雙月刊263期,498頁,(2004/06)

3.   掃 描式探針顯微鏡於生物樣品隻量測與應用馬 遠榮,量測資訊,90期,22頁,(2003/3)

4.   第 四波工業革命-奈 米科技馬 遠榮,中華日報,32(2002/8/5)

5.   二 十一世紀經濟新希望-超 越想像的奈米科技馬 遠榮,科學知識,第55期,56頁,(2002)

6.  “奈 米科技與工業革命馬 遠榮, 科儀新知,第二十三卷四期(126)85(2002)

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