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John Wang

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Full Name
John Wang
Variants
Wang, J.
Wang, John
Wang John
Wang J.
WANG, JOHN
 
Main Affiliation
 
Faculty
 
Email
msewangj@nus.edu.sg
 
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Publications

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Author:  Wang, J.

Results 221-240 of 337 (Search time: 0.009 seconds).

Issue DateTitleAuthor(s)
2211999Nanosized hydroxyapatite powders from microemulsions and emulsions stabilized by a biodegradable surfactantLim, G.K.; Wang, J. ; Ng, S.C. ; Gan, L.M. 
2221997Nanostructured ceramics via microemulsion processing routesWang, J. ; Lim, G.K.; Ong, C.L.; Ng, S.C. ; Chew, C.H. ; Gan, L.M. 
22324-Jan-2019Nanowires versus nanosheets – Effects of NiCo2O4 nanostructures on ceramic membrane permeability and fouling potentialLyu Z. ; Chiang Albert Ng T. ; Gu Q. ; Sun Q.; He Z. ; Zhang L. ; Poh W.; Zeng K. ; Yong Ng H. ; Wang J. 
22414-Feb-2011Near-infrared emission from Eu-Yb doped silicate glasses subjected to thermal reductionSmedskjaer, M.M.; Qiu, J.; Wang, J. ; Yue, Y.
2259-Jul-2012Negative capacitance induced by redistribution of oxygen vacancies in the fatigued BiFeO 3-based thin filmKe, Q.; Lou, X.; Yang, H.; Kumar, A.; Zeng, K. ; Wang, J. 
2261-Nov-2022Negative Capacitance Phenomenon and Origin in Alkali Niobate Film with Self-Assembled Lattice FaultsWaqar, M; Yang, P ; He, Q ; Yao, K ; John Wang 
2271-May-2002NiFe 2O 4 nanoparticles formed in situ in silica matrix by mechanical activationZhou, Z.H. ; Xue, J.M. ; Wang, J. ; Chan, H.S.O. ; Yu, T. ; Shen, Z.X. 
228Nov-1999NiFe2O4 ultrafine particles prepared by co-precipitation/mechanical alloyingShi, Y. ; Ding, J. ; Liu, X.; Wang, J. 
2291-Jan-2023Noncryogenic Air Separation Using Aluminum Formate Al(HCOO)3 (ALF)Evans, Hayden A; Zhao, Dan ; Canepa, Pieremanuele ; Cheetham, Anthony K ; Mullangi, Dinesh ; Yildirim, Taner; Wang, Yuxiang ; Deng, Zeyu ; Zhang, Zhaoqiang ; Mai, Thuc T; Wei, Fengxia; Wang, John ; Walker, Angela R Hight; Brown, Craig M
2302009Observation of a fifth-order optical nonlinearity in Bi0.9 La0.1 Fe0.98 Mg0.02 O3 ferroelectric thin filmsGu, B. ; Wang, Y. ; Ji, W. ; Wang, J. 
2312009Orientation dependence of ferroelectric behavior of BiFeO3 thin filmsWu, J. ; Wang, J. 
2327-Mar-2012Origin of a tetragonal BiFeO 3 phase with a giant c/a ratio on SrTiO 3 substratesLiu, H.; Yang, P. ; Yao, K.; Ong, K.P.; Wu, P.; Wang, J. 
2331-Dec-2022Origin of giant electric-field-induced strain in faulted alkali niobate filmsWaqar, M; Wu, H ; Ong, KP; Liu, H ; Li, C ; Yang, P ; Zang, W ; Liew, WH; Diao, C ; Xi, S; Singh, DJ; He, Q ; Yao, K ; Pennycook, SJ ; Wang, J 
23423-Jan-2012Origin of the enhanced polarization in la and Mg co-substituted BiFeO 3 thin film during the fatigue processKe, Q.; Kumar, A.; Lou, X.; Zeng, K. ; Wang, J. 
2353-May-2021Overcoming the trade-off between water permeation and mechanical strength of ceramic membrane supports by interfacial engineeringQilin Gu ; Masashi Kotobuki ; Kirk Chin Ho; Meibo He; Gwendolyn J.H. Lim ; Tze Chiang Albert Ng ; Lei Zhang ; How Yong Ng ; John Wang 
23615-Dec-2011Oxygen-vacancy-mediated negative differential resistance in la and Mg co-substituted BiFeO 3 thin filmKe, Q.; Kumar, A.; Lou, X. ; Zeng, K. ; Wang, J. 
23713-Jul-2010Oxygen-vacancy-related relaxation and scaling behaviors of Bi 0.9La0.1Fe0.98Mg0.02O3 ferroelectric thin filmsKe, Q.; Lou, X. ; Wang, Y.; Wang, J. 
23816-Sep-2002Pb(Fe2/3W1/3)O3 by mechanical activation of coprecipitated Pb3Fe2O6 and WO3Khim, A.S.; Junmin, X. ; Wang, J. 
239Sep-2006Pb(Zn1/3Ta2/3)O3-PbTiO3 derived from mechanical activationSoon, K.; Xue, J. ; Wang, J. 
240Jan-2007Peculiar dielectric behaviors of (Na1/2Bi1/2) 0.87Pb0.13TiO3 thin filmsZhou, Z.H. ; Wang, J.