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Oxidative desulfurization of dibenzothiophene over titanate nanotubesLORENCON, Eudes; ALVES, Diego C. B; KRAMBROCK, Klaus et al.Fuel (Guildford). 2014, Vol 132, pp 53-61, issn 0016-2361, 9 p.Article

A novel membrane for DMFC — Na2Ti3O7 Nanotubes/Nafion® composite membrane: Performances studiesYONGSHENG WEI; MATAR, Saif; LIANGBO SHEN et al.International journal of hydrogen energy. 2012, Vol 37, Num 2, pp 1857-1864, issn 0360-3199, 8 p.Conference Paper

The effects of the chemical composition of titanate nanotubes and solvent type on 3-aminopropyltriethoxysilane grafting efficiencyPONTON, Patricia I; D'ALMEIDA, José R. M; MARINKOVIC, Bojan A et al.Applied surface science. 2014, Vol 301, pp 315-322, issn 0169-4332, 8 p.Article

Surface-modification and characterization of H-titanate nanotubeWEI WANG; JINGWEI ZHANG; HUIZHONG HUANG et al.Colloids and surfaces. A, Physicochemical and engineering aspects. 2008, Vol 317, Num 1-3, pp 270-276, issn 0927-7757, 7 p.Article

Facile and green synthesis of titanate nanotube/ graphene nanocomposites for photocatalytic H₂ generation from waterHAIFENG DANG; XINFA DONG; YINGCHAO DONG et al.International journal of hydrogen energy. 2013, Vol 38, Num 22, pp 9178-9185, issn 0360-3199, 8 p.Article

Kinetic and thermodynamic studies of hydrogen adsorption on titanate nanotubes decorated with a Prussian blue analogueZAMORA, B; AL-HAJJAJ, A. A; SHAH, A. A et al.International journal of hydrogen energy. 2013, Vol 38, Num 15, pp 6406-6416, issn 0360-3199, 11 p.Article

Structural resistance of chemically modified 1-D nanostructured titanates in inorganic acid environmentMARINKOVIC, Bojan A; FREDHOLM, Yann C; MORGADO, Edisson et al.Materials characterization. 2010, Vol 61, Num 10, pp 1009-1017, issn 1044-5803, 9 p.Article

Effects of sodium content and calcination temperature on the morphology, structure and photocatalytic activity of nanotubular titanatesLEE, Chung-Kung; WANG, Cheng-Cai; LYU, Meng-Du et al.Journal of colloid and interface science. 2007, Vol 316, Num 2, pp 562-569, issn 0021-9797, 8 p.Article

In-situ synthesis, local structure, photoelectrochemical property of Fe-intercalated titanate nanotubeJUM SUK JANG; DONG HYUN KIM; SUN HEE CHOI et al.International journal of hydrogen energy. 2012, Vol 37, Num 15, pp 11081-11089, issn 0360-3199, 9 p.Article

Differences between Zn-porphyrin-coupled titanate nanotubes with various anchoring modes: Thermostability, spectroscopic, photocatalytic and photoelectronic propertiesXIANGQING LI; LIFANG LIU; KANG, Shi-Zhao et al.Applied surface science. 2011, Vol 257, Num 14, pp 5950-5956, issn 0169-4332, 7 p.Article

Absorption of Cr(VI) onto amino-modified titanate nanotubes using 2-Bromoethvlamine hvdrobromide through S_N2 reactionGUANJUN NIU; WEN LIU; TING WANG et al.Journal of colloid and interface science. 2013, Vol 401, pp 133-140, issn 0021-9797, 8 p.Article

Preparation and characterisation of titanium dioxide (Ti0₂) and thiourea-doped titanate nanotubes prepared from wastewater flocculated sludgeOKOUR, Y; SHON, H. K; EL SALIBY, I. J et al.Bioresource technology. 2010, Vol 101, Num 5, pp 1453-1458, issn 0960-8524, 6 p.Conference Paper

Effects of calcination temperature on the microstructures and photocatalytic activity of titanate nanotubesJIAGUO YU; HUOGEN YU; BEI CHENG et al.Journal of molecular catalysis. A, Chemical. 2006, Vol 249, Num 1-2, pp 135-142, issn 1381-1169, 8 p.Article

Preparation of graphene nanoplatelet―titanate nanotube composite and its advantages over the two single components as biosensor immobilization materialsXIAOQIANG LIU; JIAMEI ZHANG; RUI YAN et al.Biosensors & bioelectronics. 2014, Vol 51, pp 76-81, issn 0956-5663, 6 p.Article

Study of titanate nanotubes by X-ray and electron diffraction and electron microscopyBRUNATOVA, Tereza; POPELKOVA, Daniela; WEI WAN et al.Materials characterization. 2014, Vol 87, pp 166-171, issn 1044-5803, 6 p.Article

Adsorption mechanisms of thallium(I) and thallium(III) by titanate nanotubes: Ion-exchange and co-precipitationWEN LIU; PAN ZHANG; BORTHWICK, Alistair G. L et al.Journal of colloid and interface science. 2014, Num 423, pp 67-75, issn 0021-9797, 9 p.Article

Core―shell-structured carbon nanofiber-titanate nanotubes with enhanced photocatalytic activitySOONHYUN KIM; MINSUN KIM; YOUNG KWANG KIM et al.Applied catalysis. B, Environmental. 2014, Vol 148-149, pp 170-176, issn 0926-3373, 7 p.Article

Effects of sodium content on the microstructures and basic dye cation exchange of titanate nanotubesLEE, Chung-Kung; WANG, Cheng-Cai; JUANG, Lain-Chuen et al.Colloids and surfaces. A, Physicochemical and engineering aspects. 2008, Vol 317, Num 1-3, pp 164-173, issn 0927-7757, 10 p.Article

Stability and catalytic performance of vanadia supported on nanostructured titania catalyst in oxidative dehydrogenation of propaneKOOTENAEI, A. H. Shahbazi; TOWFIGHI, J; KHODADADI, A et al.Applied surface science. 2014, Vol 298, pp 26-35, issn 0169-4332, 10 p.Article

A new ion exchange behavior of protonated titanate nanotubes after deprotonation and the study on their morphology and optical propertiesHUIBIN ZHANG; LIXIN CAO; WEI LIU et al.Applied surface science. 2012, Vol 259, pp 610-615, issn 0169-4332, 6 p.Article

Generation of reactive oxygen species in titanates nanotubes induced by hydrogen peroxide and their application in catalytic degradation of methylene blue dyeLORENCON, Eudes; BRANDAO, Frederico D; KRAMBROCK, Klaus et al.Journal of molecular catalysis. A, Chemical. 2014, Vol 394, pp 316-323, issn 1381-1169, 8 p.Article

Influence of pH, ionic strength and humic acid on competitive adsorption of Pb(II), Cd(II) and Cr(III) onto titanate nanotubesTING WANG; WEN LIU; LIN XIONG et al.Chemical engineering journal (1996). 2013, Vol 215-16, pp 366-374, issn 1385-8947, 9 p.Article

Titanate nanotubes: towards a novel and safer nanovector for cardiomyocytesPAPA, Anne-Laure; DUMONT, Laure; VANDROUX, David et al.Nanotoxicology (Print). 2013, Vol 7, Num 5-8, pp 1131-1142, issn 1743-5390, 12 p.Article

Electrochemical behavior of thionine at titanate nanotubes-based modified electrode: A sensing platform for the detection of trichloroacetic acidHONG DAI; HUIFENG XU; XIAOPING WU et al.Talanta (Oxford). 2010, Vol 81, Num 4-5, pp 1461-1466, issn 0039-9140, 6 p.Article