![]() Harris C, Kamat PV (2010) Photocatalytic events of CdSe quantum dots in confined media. Wu KF, Lian TQ (2016) Quantum confined colloidal nanorod heterostructures for solar-to-fuel conversion. Hensel J, Wang GM, Li Y, Zhang JZ (2010) Synergistic effect of CdSe Quantum dot sensitization and nitrogen doping of TiO 2 nanostructures for photoelectrochemical solar hydrogen generation. Zhu YX, Wang YF, Chen Z, Qin LS, Yang LB, Zhu L, Tang P, Gao T, Huang YX, Sha ZL, Tang G (2015) Visible light induced photocatalysis on CdS quantum dots decorated TiO 2 nanotube arrays. Adv Funct Mater 21:3111–3118ĭibbell RS, Watson DF (2009) Distance-dependent electron transfer in tethered assemblies of CdS quantum dots and TiO 2 nanoparticles. Kim HN, Kim TW, Kim IY, Hwang SJ (2011) Cocatalyst-free photocatalysts for efficient visible-light induced H 2 production: porous assemblies of CdS quantum dots and layered titanate nanosheets. ACS Appl Mater Interfaces 8:5972–5980įang Z, Wang YB, Song JB, Sun YM, Zhou JJ, Xu R, Duan HW (2013) Immobilizing CdS quantum dots and dendritic Pt nanocrystals on thiolated graphene nanosheets toward highly efficient photocatalytic H 2 evolution. Zhai CY, Zhu MS, Pang FZ, Bin D, Lu C, Goh MC, Yang P, Du YK (2016) High efficiency photoelectrocatalytic methanol oxidation on CdS quantum dots sensitized Pt electrode. Liu Y, Yan K, Zhang JD (2016) Graphitic carbon nitride sensitized with CdS quantum dots for visible-light-driven photoelectrochemical aptasensing of tetracycline. Pan J, Li JT, Yan ZL, Zhou BH, Wu HS, Xiong X (2013) SnO nanowire-quantum dots heterostructures: tailoring optical properties of SnO 2 for enhanced photodetection and photocatalysis. Saha S, Das G, Thote J, Banerjee R (2014) Photocatalytic metal-organic framework from CdS quantum dot incubated luminescent metallohydrogel. Yu JG, Zhang J, Jaroniec M (2010) Preparation and enhanced visible-light photocatalytic H 2-production activity of CdS quantum dots-sensitized Zn 1-xCd xS solid solution. Zheng DD, Zhang GG, Wang XC (2015) Integrating CdS quantum dots on hollow graphitic carbon nitride nanospheres for hydrogen evolution photocatalysis. Zhang X, Huang H, Liu J, Liu Y, Kang ZH (2013) Carbon quantum dots serving as spectral converters through broadband upconversion of near-infrared photons for photoelectrochemical hydrogen generation. Zhao J, Holmes MA, Osterloh FE (2013) Quantum confinement controls photocatalysis: a free energy analysis for photocatalytic proton reduction at CdSe nanocrystals. Li XB, Li ZJ, Gao YJ, Meng QY, Yu S, Weiss RG, Tung CH, Wu LZ (2014) Mechanistic insights into the interface-directed transformation of thiols into disulfides and molecular hydrogen by visible-light irradiation of quantum dots. Hildebrandt N, Spillmann CM, Algar WR, Pons T, Stewart MH, Oh E, Susumu K, Díaz SA, Delehanty JB, Medintz IL (2017) Energy transfer with semiconductor quantum dot bioconjugates: a versatile platform for biosensing, energy harvesting, and other developing applications. Li XB, Gao YJ, Wu HL, Wang Y, Guo Q, Huang MY, Chen B, Tung CH, Wu LZ (2017) Assembling metallic 1T-MoS 2 nanosheets with inorganic-ligand stabilized quantum dots for exceptional solar hydrogen evolution. Liu MY, You WS, Lei ZB, Takata T, Domen K, Can LI (2006) Photocatalytic water splitting to hydrogen over a visible light-driven LaTaON 2 catalyst. Wang DF, Tang JW, Zou ZG, Ye JH (2005) Photophysical and photocatalytic properties of a new series of visible-light-driven photocatalysts M 3V 2O 8 (M = Mg, Ni, Zn). Li K, Su FY, Zhang WD (2016) Modification of g-C 3N 4 nanosheets by carbon quantum dots for highly efficient photocatalytic generation of hydrogen. Yu HJ, Zhao YF, Zhou C, Shang L, Peng Y, Cao YH, Wu LZ, Tung CH, Zhang TR (2014) Carbon quantum dots/TiO 2 composites for efficient photocatalytic hydrogen evolution.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |