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Assoc.Prof.Dr. Nonglug Meethong

ภาควิชาฟิสิกส์,

Faculty of Science,

Khon Kaen University

13410697800: H-INDEX 16

Documents

TCI อ้างอิงจาก http://www.tci-thaijo.org/

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SCOPUS

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TCI

	Title	Author	Year	SCOPUS	PUBMED	ISI	TCI
1.	Synthesis and transport studies of one-dimensional ion conductors: AxGa4+XTi1-xO8 (A = Li, Na, K)	Edwards, D.D. Empie, N.H. Meethong, N. Amoroso, J.W.	2006
2.	Virus-enabled synthesis and assembly of nanowires for lithium ion battery electrodes	Kim, D. Meethong, N.	2006
3.	Size-dependent lithium miscibility gap in nanoscale Li 1-xFePO4	Meethong, N.	2007
4.	Strain accommodation during phase transformations in olivine-based cathodes as a materials selection criterion for high-power rechargeable batteries	Meethong, N.	2007
5.	Electrochemically induced phase transformation in nanoscale olivines Li1-xMPO4 (M = Fe, Mn)	Meethong, N. Kao, Y. Tang, M. Craig Carter, W.	2008
6.	Modeling particle size effects on phase stability and transition pathways in nanosized olivine cathode particles	Tang, M. Meethong, N. Kao, Y.	2008
7.	Aliovalent substitutions in olivine lithium iron phosphate and impact on structure and properties	Meethong, N. Kao, Y.	2009
8.	Model for the particle size, overpotential, and strain dependence of phase transition pathways in storage electrodes: application to nanoscale olivines	Tang, M. Meethong, N. Kao, Y.	2009
9.	Comparative study of lithium transport kinetics in olivine cathodes for li-ion batteries	Meethong, N. Kao, Y.	2010
10.	Overpotential-dependent phase transformation pathways in lithium iron phosphate battery electrodes	Kao, Y. Tang, M. Meethong, N.	2010
11.	Reply to comment on "aliovalent substitutions in olivine lithium iron phosphate and impact on structure and properties"	Meethong, N. Kao, Y.	2010
12.	An insight into crystal, electronic, and local structures of lithium iron silicate (Li2FeSiO4) materials upon lithium extraction	O. Kamon-in W. Klysubun W. Limphirat S. Srilomsak N. Meethong	2013
13.	Effect of donor dope ions, compaction pressures and sintering temperatures on PTCR and dielectric properties of BaTiO3	Srilomsak, S. Meethong, N.	2013
14.	Synthesis and characterization of stable and binder-free electrodes of TiO2 nanofibers for li-ion batteries	Tammawat, P. Meethong, N.	2013
15.	A Study of transient phase transformation in LFS/C using in-situ time resolved X-ray absorption spectroscopy	Buakeaw, S. Klysubun, W. Limphirat, W. Srilomsak, S. Meethong, N.	2014
16.	Properties of Dan Kwian, Sukhothai and Ratchaburi pottery clays fired at 700 and 900 °c	Meethong, N. Pattanasiriwisawa, W. Somphon, W. Tanthanuch, W. Srilomsak, S.	2014
17.	Improvement of electrochemical properties of Ca3Co4O9 as anode materials for lithium-ion batteries by Cr doping	Prasoetsopha, N. Pinitsoontorn, S. Kamwanna, T. Meethong, N. Fan, S. Tan, L. Sun, T. Hng, H.	2015
18.	Improvement of electrochemical properties of Ca3Co4O9 as anode materials for lithium-ion batteries by Cr doping	Prasoetsopha, N. Pinitsoontorn, S. Pinitsoontorn, S. Kamwanna, T. Meethong, N. Fan, S. Tan, L. Sun, T. Hng, H.	2015
19.	XANES Investigation of Dynamic Phase Transition in Olivine Cathode for Li-Ion Batteries	Pongha, S. Seekoaon, B. Limphirat, W. Srilomsak, S. Meethong, N.	2015
20.	Li2MnO3 domain size and current rate dependence on the electrochemical properties of 0.5Li2MnO3·0.5LiCoO2 cathode material	Wiriya, N. Srilomsak, S. Limphirat, W. Meethong, N.	2017
21.	Electrochemical and Magnetic Properties of Electrospun SrTi1−xFexO3 (x = 0, 0.05 and 0.10) Nanofibers for Anodes of Li-Ion Batteries	Karaphun, A. Meethong, N. Hunpratub, S. Swatsitang, E.	2018
22.	Surface modification of rice husk ash as anodes for lithium ion batteries	Pongha, S. Meethong, N.	2018
23.	The utility of rice husk ash from biomass power plant of Nakhon Ratchasima Province for synthesis of nano-silica for using cathode material of lithium ion battery	Srilomsak, S. Meethong, N.	2018
24.	A bifunctional auxiliary electrode for safe lithium metal batteries	Meethong, N.	2019
25.	Core-shell electrospun and doped LiFePO4/FeS/C composite fibers for Li-ion batteries	Yensano, R. Srilomsak, S. Meethong, N.	2019
26.	Data on effect of electrospinning conditions on morphology and effect of heat-treatment temperature on the cycle and rate properties of core-shell LiFePO4/FeS/C composite fibers for use as cathodes in Li-ion batteries	Yensano, R. Srilomsak, S. Meethong, N.	2019
27.	Electrochemical property investigation of cobalt doped LiFePO 4 /C during charge-discharge by an in-situ x-ray near edge structure technique	Wiriya, N. Pongha, S. Limphirat, W. Srilomsak, S. Meethong, N.	2019
28.	Rate dependent structural transition and cycling stability of a lithium-rich layered oxide material	Limphirat, W. Srilomsak, S. Meethong, N.	2019
29.	Structural and Electrochemical Kinetic Properties of 0.5Li2MnO3∙0.5LiCoO2 Cathode Materials with Different Li2MnO3 Domain Sizes	Limphirat, W. Srilomsak, S. Meethong, N.	2019
30.	A multiscale investigation elucidating the structural complexities and electrochemical properties of layered-layered composite cathode materials synthesized at low temperatures	Wiriya, N. Limphirat, W. Srilomsak, S. Meethong, N.	2020
31.	Doping effect of manganese on the structural and electrochemical properties of Li2FeSiO4 cathode materials for rechargeable Li-ion batteries	Wiriya, N. Srilomsak, S. Meethong, N. Limphirat, W.	2020
32.	Preparation of spherical and porous strontium titanate particles by hot water and hydrothermal conversion of hydrous titania	Meethong, N.	2020
33.	The current status of time-resolved XAS beamline at SLRI and application on in situ experiments	Limphirat, W. Wiriya, N. Meethong, N. Poo-arporn, Y.	2020
	Count			33	0	1	0

	Title	Authors	Year	Publication name	Cited count
	Title	Authors	Year	Publication name	< 2015	2016	2017	2018	2019	2020	Total
1.	Synthesis and transport studies of one-dimensional ion conductors: AxGa4+XTi1-xO8 (A = Li, Na, K)	Edwards, D.D. Empie, N.H. Meethong, N. Amoroso, J.W.	2006	Solid State Ionics 19-25 SPEC. ISS. (177), pp. 1897-1900
2.	Virus-enabled synthesis and assembly of nanowires for lithium ion battery electrodes	Kim, D. Meethong, N.	2006	Science 5775 (312), pp. 885-888
3.	Size-dependent lithium miscibility gap in nanoscale Li 1-xFePO4	Meethong, N.	2007	Electrochemical and Solid-State Letters 5 (10), pp. 134-138
4.	Strain accommodation during phase transformations in olivine-based cathodes as a materials selection criterion for high-power rechargeable batteries	Meethong, N.	2007	Advanced Functional Materials 7 (17), pp. 1115-1123
5.	Electrochemically induced phase transformation in nanoscale olivines Li1-xMPO4 (M = Fe, Mn)	Meethong, N. Kao, Y. Tang, M. Craig Carter, W.	2008	Chemistry of Materials 19 (20), pp. 6189-6198
6.	Modeling particle size effects on phase stability and transition pathways in nanosized olivine cathode particles	Tang, M. Meethong, N. Kao, Y.	2008	Materials Research Society Symposium Proceedings (1100), pp. 1-6
7.	Aliovalent substitutions in olivine lithium iron phosphate and impact on structure and properties	Meethong, N. Kao, Y.	2009	Advanced Functional Materials 7 (19), pp. 1060-1070
8.	Model for the particle size, overpotential, and strain dependence of phase transition pathways in storage electrodes: application to nanoscale olivines	Tang, M. Meethong, N. Kao, Y.	2009	Chemistry of Materials 8 (21), pp. 1557-1571
9.	Comparative study of lithium transport kinetics in olivine cathodes for li-ion batteries	Meethong, N. Kao, Y.	2010	Chemistry of Materials 3 (22), pp. 1088-1097
10.	Overpotential-dependent phase transformation pathways in lithium iron phosphate battery electrodes	Kao, Y. Tang, M. Meethong, N.	2010	Chemistry of Materials 21 (22), pp. 5845-5855
11.	Reply to comment on "aliovalent substitutions in olivine lithium iron phosphate and impact on structure and properties"	Meethong, N. Kao, Y.	2010	Advanced Functional Materials 2 (20), pp. 189-191
12.	An insight into crystal, electronic, and local structures of lithium iron silicate (Li2FeSiO4) materials upon lithium extraction	Klysubun, W. Limphirat, W. Srilomsak, S. Meethong, N.	2013	Physica B: Condensed Matter (416), pp. 69-75
13.	Effect of donor dope ions, compaction pressures and sintering temperatures on PTCR and dielectric properties of BaTiO3	Srilomsak, S. Meethong, N.	2013	Key Engineering Materials (547), pp. 153-164
14.	Synthesis and characterization of stable and binder-free electrodes of TiO2 nanofibers for li-ion batteries	Tammawat, P. Meethong, N.	2013	Journal of Nanomaterials (2013), pp.
15.	A Study of transient phase transformation in LFS/C using in-situ time resolved X-ray absorption spectroscopy	Buakeaw, S. Klysubun, W. Limphirat, W. Srilomsak, S. Meethong, N.	2014	International Journal of Electrochemical Science 8 (9), pp. 4257-4267
16.	Properties of Dan Kwian, Sukhothai and Ratchaburi pottery clays fired at 700 and 900 °c	Meethong, N. Pattanasiriwisawa, W. Somphon, W. Tanthanuch, W. Srilomsak, S.	2014	Key Engineering Materials (608), pp. 47-61
17.	Improvement of electrochemical properties of Ca3Co4O9 as anode materials for lithium-ion batteries by Cr doping	Prasoetsopha, N. Pinitsoontorn, S. Kamwanna, T. Meethong, N. Fan, S. Tan, L. Sun, T. Hng, H.	2015	Journal of Solid State Electrochemistry (), pp.
18.	Improvement of electrochemical properties of Ca<inf>3</inf>Co<inf>4</inf>O<inf>9</inf> as anode materials for lithium-ion batteries by Cr doping	Prasoetsopha, N. Pinitsoontorn, S. Pinitsoontorn, S. Kamwanna, T. Meethong, N. Fan, S. Tan, L. Sun, T. Hng, H.	2015	Journal of Solid State Electrochemistry 4 (19), pp. 1197-1202
19.	XANES Investigation of Dynamic Phase Transition in Olivine Cathode for Li-Ion Batteries	Pongha, S. Seekoaon, B. Limphirat, W. Srilomsak, S. Meethong, N.	2015	Advanced Energy Materials 15 (5), pp.
20.	Li<inf>2</inf>MnO<inf>3</inf> domain size and current rate dependence on the electrochemical properties of 0.5Li<inf>2</inf>MnO<inf>3</inf>·0.5LiCoO<inf>2</inf> cathode material	Wiriya, N. Srilomsak, S. Limphirat, W. Meethong, N.	2017	Scientific Reports 1 (7), pp.
21.	Electrochemical and Magnetic Properties of Electrospun SrTi<inf>1−x</inf>Fe<inf>x</inf>O<inf>3</inf> (x = 0, 0.05 and 0.10) Nanofibers for Anodes of Li-Ion Batteries	Karaphun, A. Meethong, N. Hunpratub, S. Swatsitang, E.	2018	Journal of Superconductivity and Novel Magnetism 6 (31), pp. 1909-1916
22.	Surface modification of rice husk ash as anodes for lithium ion batteries	Pongha, S. Meethong, N.	2018	Materials Today: Proceedings 6 (5), pp. 13989-13994
23.	The utility of rice husk ash from biomass power plant of Nakhon Ratchasima Province for synthesis of nano-silica for using cathode material of lithium ion battery	Srilomsak, S. Meethong, N.	2018	Key Engineering Materials (766 KEM), pp. 51-57
24.	A bifunctional auxiliary electrode for safe lithium metal batteries	Meethong, N.	2019	Journal of Materials Chemistry A 43 (7), pp. 24807-24813
25.	Core-shell electrospun and doped LiFePO<inf>4</inf>/FeS/C composite fibers for Li-ion batteries	Yensano, R. Srilomsak, S. Meethong, N.	2019	Journal of Alloys and Compounds (804), pp. 339-347
26.	Data on effect of electrospinning conditions on morphology and effect of heat-treatment temperature on the cycle and rate properties of core-shell LiFePO<inf>4</inf>/FeS/C composite fibers for use as cathodes in Li-ion batteries	Yensano, R. Srilomsak, S. Meethong, N.	2019	Data in Brief (26), pp.
27.	Electrochemical property investigation of cobalt doped LiFePO <inf>4</inf> /C during charge-discharge by an in-situ x-ray near edge structure technique	Wiriya, N. Pongha, S. Limphirat, W. Srilomsak, S. Meethong, N.	2019	AIP Conference Proceedings (2097), pp.
28.	Rate dependent structural transition and cycling stability of a lithium-rich layered oxide material	Limphirat, W. Srilomsak, S. Meethong, N.	2019	Physical Chemistry Chemical Physics 39 (21), pp. 21984-21990
29.	Structural and Electrochemical Kinetic Properties of 0.5Li<inf>2</inf>MnO<inf>3</inf>∙0.5LiCoO<inf>2</inf> Cathode Materials with Different Li<inf>2</inf>MnO<inf>3</inf> Domain Sizes	Limphirat, W. Srilomsak, S. Meethong, N.	2019	Scientific Reports 1 (9), pp.
30.	A multiscale investigation elucidating the structural complexities and electrochemical properties of layered-layered composite cathode materials synthesized at low temperatures	Wiriya, N. Limphirat, W. Srilomsak, S. Meethong, N.	2020	Physical Chemistry Chemical Physics 10 (22), pp. 5439-5448
31.	Doping effect of manganese on the structural and electrochemical properties of Li<inf>2</inf>FeSiO<inf>4</inf> cathode materials for rechargeable Li-ion batteries	Wiriya, N. Srilomsak, S. Meethong, N. Limphirat, W.	2020	Radiation Physics and Chemistry (171), pp.
32.	Preparation of spherical and porous strontium titanate particles by hot water and hydrothermal conversion of hydrous titania	Meethong, N.	2020	Ceramics International 5 (46), pp. 6146-6153
33.	The current status of time-resolved XAS beamline at SLRI and application on in situ experiments	Limphirat, W. Wiriya, N. Meethong, N. Poo-arporn, Y.	2020	Radiation Physics and Chemistry (171), pp.

	Title	Authors	Year	Journal title

	Title	Authors	Year	Journal title	Cited count
	Title	Authors	Year	Journal title	< 2015	2016	2017	2018	2019	2020	Total
1.	An insight into crystal, electronic, and local structures of lithium iron silicate (Li2FeSiO4) materials upon lithium extraction	O. Kamon-in W. Klysubun W. Limphirat S. Srilomsak N. Meethong	2013	PHYSICA B-CONDENSED MATTER (416.0), pp. 69.0-75.0	12	0	0	0	0	0	12

	Title	Authors	Year	Journal title

	Title	Authors	NRIIS type	Year	NRIIS Scholarship