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Wilfried Wunderlich
Wilfried Wunderlich
Professor, Solid State Physics, Tokai University, Japan
Verified email at keyaki.cc.u-tokai.ac.jp
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Cited by
Cited by
Year
HREM-studies of the microstructure of nanocrystalline palladium
W Wunderlich, Y Ishida, R Maurer
Scripta metallurgica et materialia 24 (2), 403-408, 1990
2561990
Enhanced effective mass in doped SrTiO3 and related perovskites
W Wunderlich, H Ohta, K Koumoto
Physica B: Condensed Matter 404 (16), 2202-2212, 2009
1732009
Fabrication and characterization of anatase/rutile–TiO2 thin films by magnetron sputtering: a review
S Tanemura, L Miao, W Wunderlich, M Tanemura, Y Mori, S Toh, ...
Science and Technology of Advanced Materials 6 (1), 11-17, 2005
1532005
ELECTRONIC PROPERTIES OF NANO-POROUS TiO 2- AND ZnO THIN FILMS- COMPARISON OF SIMULATIONS AND EXPERIMENTS
W Wunderlich, T Oekermann, L Miao, NT Hue, S Tanemura, M Tanemura
Journal of Ceramic Processing & Research 5 (4), 343-354, 2004
1232004
An aqueous sol–gel route to synthesize nanosized lanthana-doped titania having an increased anatase phase stability for photocatalytic application
KV Baiju, CP Sibu, K Rajesh, PK Pillai, P Mukundan, KGK Warrier, ...
Materials chemistry and physics 90 (1), 123-127, 2005
1192005
Laser-ablated ZnO nanoparticles and their photocatalytic activity toward organic pollutants
N Mintcheva, AA Aljulaih, W Wunderlich, SA Kulinich, S Iwamori
Materials 11 (7), 1127, 2018
862018
Effect of tantalum addition on anatase phase stability and photoactivity of aqueous sol–gel derived mesoporous titania
KV Baiju, P Shajesh, W Wunderlich, P Mukundan, SR Kumar, ...
Journal of Molecular Catalysis A: Chemical 276 (1-2), 41-46, 2007
762007
Synthesis and characterization of iron oxide embedded hydroxyapatite bioceramics
EB Ansar, M Ajeesh, Y Yokogawa, W Wunderlich, H Varma
Journal of the American Ceramic Society 95 (9), 2695-2699, 2012
712012
Au-Pd@g-C3N4 as an Efficient Photocatalyst for Visible-Light Oxidation of Benzene to Phenol: Experimental and Mechanistic Study
SM Hosseini, M Ghiaci, SA Kulinich, W Wunderlich, H Farrokhpour, ...
The Journal of Physical Chemistry C 122 (48), 27477-27485, 2018
612018
T. Kremser, and G. Frommeyer
W Wunderlich
Z. Metallkd, 802-08, 1990
581990
The atomistic structure of metal/ceramic interfaces is the key issue for developing better properties
W Wunderlich
Metals 4 (3), 410-427, 2014
542014
AB-INITIO CALCULATIONS OF THE OPTICAL BAND GAP OF TiO2 THIN FILMS
W Wunderlich, L Miao, M Tanemura, S Tanemura, P Jin, K Kaneko, ...
International Journal of Nanoscience 3 (04n05), 439-445, 2004
492004
Molecular dynamics—simulations of the fracture toughness of sapphire
W Wunderlich, H Awaji
Materials & Design 22 (1), 53-59, 2001
482001
Mesoporous gadolinium doped titania photocatalyst through an aqueous sol–gel method
KV Baiju, P Periyat, P Shajesh, W Wunderlich, KA Manjumol, VS Smitha, ...
Journal of Alloys and Compounds 505 (1), 194-200, 2010
452010
Structural aspects and porosity features of nano-size high surface area alumina–silica mixed oxide catalyst generated through hybrid sol–gel route
P Padmaja, KGK Warrier, M Padmanabhan, W Wunderlich, FJ Berry, ...
Materials chemistry and physics 95 (1), 56-61, 2006
452006
Mobile dislocations at the α2/γ phase boundaries in intermetallic TiAl/Ti3Al-alloys
W Wunderlich, T Kremser, G Frommeyer
Acta metallurgica et materialia 41 (6), 1791-1799, 1993
451993
Enhanced photoactivity and anatase thermal stability of silica–alumina mixed oxide additives on sol–gel nanocrystalline titania
KV Baiju, P Periyat, PK Pillai, P Mukundan, KGK Warrier, W Wunderlich
Materials Letters 61 (8-9), 1751-1755, 2007
442007
Growth model for plasma-CVD growth of carbon nano-tubes on Ni-sheets
W Wunderlich
Diamond and related materials 16 (2), 369-378, 2007
402007
An aqueous method for the controlled manganese (Mn 2+) substitution in superparamagnetic iron oxide nanoparticles for contrast enhancement in MRI
AE Beeran, SS Nazeer, FB Fernandez, KS Muvvala, W Wunderlich, S Anil, ...
Physical Chemistry Chemical Physics 17 (6), 4609-4619, 2015
372015
NaTaO3 composite ceramics–A new thermoelectric material for energy generation
W Wunderlich
Journal of nuclear materials 389 (1), 57-61, 2009
372009
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