Times Cited
- Practical Electron Microscopy and Database -
- An Online Book -
Electron microscopy
  Microanalysis | EM Book                                                                   http://www.globalsino.com/EM/  


Examples of "Citation Formats":

1. Y. Liao, Practical Electron Microscopy and Database. Available: (accessed 10.01.13).
2. Liao, Y. (2007) Practical Electron Microscopy and Database - An Online Book. http://www.globalsino.com/EM/.
3. Y. Liao, Comparison between EDS and EELS. Disponível em: http://www.globalsino.com/EM/page4794.html .Acesso em 15 de ag. 2013.
4. Y. Liao, Practical Electron Microscopy and Database, http://www.globalsino.com/EM/page4809.html (2006). 
5. Y. Liao, Practical electron microscopy and database (www.globalsino.com/EM/) (2006).
6. Yougui Liao. Practical Electron Microscopy and Database. URL: http://www.globalsino.com/EM/. GlobalSino 2007.
7. Y. Liao. “Practical Electron Microscopy and Database.” (4 March 2012) 1 September 2012 http://www.globalsino.com/EM/page4832.html.
8. Y. Liao, “Practical Electron Microscopy and Database”, online book
http:// www.globalsino.com/EM/page4832.html (2006).
9. Liao, Y. (February 2013). Foil thickness measurement. Practical electron microscopy and database. Retrieved from http://www.globalsino.com/EM/page4832.html.
10. Yougui Liao, Practical Electron Microscopy and Database. http://​www.​globalsino.​com/​EM/​.


Examples of "Times Cited":

Cited by books:

[4] Analysis of Images, Social Networks and Texts: 5th International Conference, AlST 2016, edited by Dmitry I. Ignatov, Mikhail Yu. Khachay, Valeri G. Labunets, Natalia Loukachevitch, Sergey Nikolenko, Alexander Panchenko, Andrey V. Savchenko, Konstantin Vorontsov, 2016.

[3] Carlo Mariani and Giovanni Stefani, Photoemission Spectroscopy: Fundamental Aspects, Synchrotron Radiation: Basics, Methods and Applications, edited by Settimio Mobilio 2015, 2015, 275-317 (book).

[2] Alejandro G Marangoni and David Pink, Edible Nanostructures: A Bottom-up Approach, 2014 (book).

[1] Cristiano Ferraris and Graeme Auchterlonie, Inclusions and traces studied by TEM-AEM, Minerals at the Nanoscale, edited by F. Nieto, K.J.T. Livi (2013). (book)

Cited by journal papers:

[9] Tatsuya Sakamoto , Yutaka Taguchi, Takeshi Kutsuwa, Kiyohide Ichimi, Shinichi Kasatani, and Minoru Inada, Investigation of Barrier-Layer Materials for Mg2Si/Ni Interfaces, Journal of Electronic Materials, 1, 2015.

[8] J Kasl, Š Mikmeková and D Jandová, SEM, TEM and SLEEM (scanning low energy electron microscopy) of CB2 steel after creep testing, Materials Science and Engineering, 55 (2014) 012008.

[7] Christian Oppermann, Gerhard Schmidt, Welf-Guntram Drossel, Approach to an FE simulation of coating damage on bulk metal forming tools, Diamond and Related Materials, 50, 2014, 157–165. (link)

[6] A.C. Oliveira, R.M. Oliveira, D.A.P. Reis, F.C. Carreri, Effect of nitrogen high temperature plasma based ion implantation on the creep behavior of Ti-6Al-4V alloy, Applied Surface Science, 311, 239–244, (2014). (Link)

[5] M. Yu. Presniakov, A. I. Popov, D. S. Usol’tseva, M. L. Shupegin, A. L. Vasiliev, Thermal stability of metal-silicon-carbon nanocomposites, Nanotechnologies in Russia, 9 ( 9-10), 518-532, (2014). (Link)

[4] K. A. S. M. Ehteshamul Haque, and Md. Mehedi Hassan Galib, An Investigation into III–V Compounds to Reach 20% Efficiency with Minimum Cell Thickness in Ultrathin-Film Solar Cells, Journal of Electronic Materials, 42(10), pp 2867-2875, 2013.

[3] J. K. Singh and S. N. Ojha, Microstructure of Tin Dispersed Aluminum-Silicon Alloys Prepared By Solidification in a Wedge Mold, International Journal of Engineering Innovation & Research, 2 (5), 2277–5668 (2013).

[2] Fan Zhang, Lan Cui, Kui Lin, Feng-min Jin, Bin Wang, Shu-xiu Shi, De-an Yang, Hui Wang, Fei He, Xiao-ping Chen, Shen Cui, Preparation of carbon-encapsulated iron nanoparticles in high yield by DC arc discharge and their characterization, Journal of Alloys and Compounds, 553, (2013) 367–374.

[1] Yougui Liao, Twinning Behavior in Uphill Nano-Tribological Process, Tribol. Lett. DOI 10.1007/s11249-012-0012-y (2012) pdf.

Cited by Thesis & others:

[54] Robert A. Moffatt, Two-Dimensional Spatial Imaging of Charge Transport in Germanium Crystals at Cryogenic Temperatures, PhD thesis, 2016.

[53] Kenny Vernieuwe, Synthesis of aqueous inks for the deposition of Al doped ZnO thin films and patterns, PhD thesis, 2015.

[52] Daniel Robert Symes, Development of On-Demand Low Temperature Electrolysers and Their Systems, PhD thesis, The University of Birmingham, 2015.

[51] Michael Oluwaseun Idowu, Investigation of the Catalyst Materials Diffusion during Hydrogenation of Pt-Mg-Ni Thin Films, thesis, 2015.

[50] Johann Maximilian Rühl, Prozessmodellierung von Reaktiv-Multischicht-Systemen (RMS), thesis, 2015.

[49] Chrysi M. Kapridaki, Assessment of Chemical Compatibility and Amelioration of Stone Consolidants with Nanotechnology, Phd Thesis, Technical University of Crete School of Architectural Engineering,  2015.

[48] Fu Ting Yen, The Study of Hybrid Solar Cells Based on 2D MoS2 with Si and GaAs, National Tsing Hua University, thesis, 2015.

[47] Симонов Константин Алексеевич, Наноструктуры на основе графена и гексагонального нитрида бора: характеризация методами рентгеновской спектроскопии и сканирующей туннельной микроскопии, thesis, 2015.


[45] 彭文業, Fabrication and Characterization of Modified Zinc Oxide Nanowires from Zinc-oxygen Contact CVD (以鋅氧接觸式化學氣相沉積法合成改質氧化鋅奈米線之製備與特性研究), 成功大學, thesis, 2015.

[44] Mette Kiehn Grønborg, Growth and Characterization of LSCO Crystals, University of Copenhagen, 2014.

[43] Simon Karl Moser, The nature of the quasiparticles in two benchmark transition metal oxides: A spectroscopic study of anatase TiO2 and tetragonal CuO, thesis, 2014.

[42] Bernadette Doppelhofer, Kornfeinung in AlSi-Legierungen, thesis.

[41] Ye Cheng, Thermal behavior of lattice parameter in compounds of the series Mn5−xFexSi3, thesis, (2014).

[40] Jia Wang, Controlling Nanowire Growth Direction, Thesis, 2014.

[39] The Schottky barrier Heights between Fe3Si and GaAs with in-situ XPS and I-V Measurements, Thesis, 2014.

[38] Kar Wei Ng, III-V Nanostructures on Dissimilar Substrates for Optoelectronic Applications, PhD thesis, University of California at Berkeley, 2014.

[37] Chih-Chiang Liu, Process Improvement in The Next-Generation LCD FAB - Application of RGA Using TRIZ Methods, thesis, (2014).

[36] Pavel Kejzlar, Martin Švec, Eva Macajová, The Usage of Backscattered Electrons in Scanning Electron Microscopy, Manufacturing Technology, 14 (3), 2014.

[35] Haiping Lai, High Temperature Oxidation and Corrosion of Ni-Based Superalloys for Industrial Gas Turbines, PhD thesis, (2014).

[34] Peterson Grandini de Carvalho, Structural and magnetic properties of electrodeposited Co nanowires (Propriedades estruturais e magnéticas de nanofios de Co eletrodepositados), Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin, thesis, 2014. (Link)

[33] Chong-Chi Chi, Investigation of relations between the interface microstructures and the magnetism of gamma-Fe2O3/CoO core/shell nanoparticles, thesis, 2014.

[32] Peizhi Liu, Atomic Structure of the Vicinal Interface between Silicon Carbide and Silicon Dioxide, PhD thesis, 2014.

[31] Uk Huh, Monte Carlo Modeling of Ion Beam Induced Secondary Electrons, PhD thesis 2014.


[29] Rajwant Singh, Synthesis and characterization of Tb2O3/TiO2 nanoparticles and their application in dye sensitized solar cells, thesis, 2013.

[28] Yuanyuan Zhu, Atomic-Scale Structural Characterizations of Functional Epitaxial Thin Films, Texas A&M University, PhD thesis, 2013.

[27] 刘中灏, 角分辨光电子能谱对铁基超导体111 体系和122*体系的研究 (Study of 111 and 122* System on Iron-Based Superconductors with Angle-Resolved), PhD thesis, 中国人民大学, 2013.

[26] Pradeep Kumar Singh, Electron microscopic studies of low-k inter-metal dielectrics, Thesis, 2013.

[25] ΑΝΤΙΟΠΗ Α. ΛΟΤΣΑΡΗ, Διεπιφάνειες και ατέλειες προηγμένων ΙΙΙ-Ν ετεροδομών-νανοδομών χωρίς πεδία πόλωσης, PhD thesis, 2013.

[24] Vasim Shaikh, Mist and Microstructure Characterization in End Milling AISI 1018 Steel Using Microlubrication, University of North Texas, PhD thesis, 2013. (Link)

[23] Ângelo Miguel Alfaia de Andrade Castelinho, Heterojunction diodes including ZnO thin films, Thesis, 2013.

[22] Shao Dongkai, Functionalized carbon nanotube for next generation biosensor, Thesis, 2013.

[21] VERA POPOVICH, Microstructure and Mechanical Aspects of Multicrystalline Silicon Solar Cells, Thesis, 2013.

[20] Šárka Mikmeková, Study of Complicated Crystals Structures by Means of Slow Electrons, PhD thesis, 2013.

[19] Presnyakov Mikhail, Structure and Films Thermostability Metalliferous Silicon-Carbon Nanocomposite, dissertation, Moscow, 2014. (Link)

[18] Michael G. Lee, Depth-Resolved Cathodoluminescence of Thorium Dioxide, Air Force Institute of Technology, Thesis, March 2013 (pdf).

[17] Chen-Chun Chen, Recovery of conducting glasses from TFT-LCD wastes for DSSC electrodes, Thesis, 2013 Link.

[16] Christopher John Quinn, The Fabrication and Analysis of the Magnetic and Crystallographic Properties of Fe-rich (FexGa1-x) Galfenol Alloys, PhD thesis, University of Salford, 2012.

[15] John T. Avrett II, Optimum Concentration Factor Analysis Using Dynamic Thermal Model of a Concentrated Photovoltaic System, Department of the Air Force, Air University, Thesis, 2012.

[14] Kai Wang, Investigation of Metal-induced Crystallization of Silicon Thin Films and Silicon Based Nanostructures, The Hong Kong Polytechnic University, Thesis. 2012.

[13] FNU Atiquzzaman, Chemical Mechanical Planarization of Electronic Materials, University of South Florida, thesis, 2012.

[12] Ajeesh Mavolil Sahadevan, Study of Spin-Dependent Transport Phenomena in Magnetic Tunneling Systems, National University of Singapore, 2012.

[11] Hooi Ling Lee, Strategies for the Formation of Covalently Bonded NanoNetworks on Metal Surfaces through Amine Reactions, DUBLIN CITY UNIVERSITY, PhD thesis, 2012.

[10] Plasma Enhanced Atomic Layer Deposition of Pt nanoparticles on the TiO2 substrate as the catalyst for Direct Methanol Fuel Cells, Fu-Ming Pan, thesis, 2012.

[9] Savitree Bangarigadu-Sanasy, Thermoelectric properties of Thallium Lanthanoid Tellurides, Tl10-xLnxTe6, 0.25 ≤ x ≤ 1.32, Ln = La, Ce, Pr, Nd, Sm, Gd, Tb, Dy, Ho and Er, University of Waterloo, PhD Thesis, 2012.

[8] Petr Homola, Study of new catalytic materials for fuel cells with polymer membrane (Studium nových katalytických materiálů pro palivové články s polymerní membránou), Thesis, 2012.

[7] Juan Cornide Arce, Aceros Bainiticos Avanzados: Mecanismos de Transformacion Y Propiedades Mecanicas, thesis, 2012.

[6] Daniel Schiavo, Modeling Radiation Effects on a Triple Junction Solar Cell Using Silvaco Atlas, thesis, 2012.

[5] Shin-shiang Juang, 5052鋁合金TIG對接銲件疲勞性質與疲勞壽命評估之研究, National Central University, thesis, 2012.

[4] Caracterização e Modificação de Heteroestruturas de Nitretos do Grupo III, Sérgio Nuno Canteiro de Magalhães, Universidade de Aveiro Ano 2013 Departamento de Física. (Link)

[3] Society for Cutaneous Ultrastructure Research (SCUR, or Link).

[2] Daniel Mierwaldt, Ausarbeitung zum Versuch Solarzelle, thesis, (2010).

[1] P. Kiattisaksri, P.J. Gibbs, K. Koenig, E.A. Pfeif, A.N. Lasseigne, P.F. Mendez, B. Mishra and D.L. Olson, Assessment of the State of Precipitation in Aluminum Casting A356.2 Alloy Using Nondestructive Microstructure Electronic Property Measurements, AIP Conference Proceedings, 1211, (2009) 1285-1292, doi:http://dx.doi.org/10.1063/1.3362216, Link.