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J. Geng, Byung-Seon Kong, S. Yang, Hee‐Tae Jung (2010)
Preparation of graphene relying on porphyrin exfoliation of graphite.Chemical communications, 46 28
A. Benniston (2007)
Porphyrin linked poly(pyridyl)-based conjugates as artificial photosynthetic reaction centre models.Physical chemistry chemical physics : PCCP, 9 43
Seul-Ki Kim, S. Jeon (2012)
Improved electrocatalytic effect of carbon nanomaterials by covalently anchoring with CoTAPP via diazonium salt reactionsElectrochemistry Communications, 22
A. Furlan, G. Gueorguiev, Z. Czigány, H. Högberg, S. Braun, S. Stafström, L. Hultman (2008)
Synthesis of phosphorus‐carbide thin films by magnetron sputteringphysica status solidi (RRL) – Rapid Research Letters, 2
Peipei Guo, Fei Xiao, Qian Liu, Hongfang Liu, Yunlong Guo, J. Gong, Shuai Wang, Yunqi Liu (2013)
One-Pot Microbial Method to Synthesize Dual-Doped Graphene and Its Use as High-Performance ElectrocatalystScientific Reports, 3
B. Ankamwar, F. Surti (2012)
Water Soluble Graphene SynthesisChemical science transactions, 1
W. Fan, Qinghua Lai, Qinghong Zhang, Ye Wang (2011)
Nanocomposites of TiO2 and Reduced Graphene Oxide as Efficient Photocatalysts for Hydrogen EvolutionJournal of Physical Chemistry C, 115
Xiaoying Yang, Xiaoyan Zhang, Yanfeng Ma, Yi Huang, Yinsong Wang, Yongsheng Chen (2009)
Superparamagnetic graphene oxide–Fe3O4nanoparticles hybrid for controlled targeted drug carriersJournal of Materials Chemistry, 19
Guancai Xie, Kai Zhang, Hui Fang, B. Guo, Ruzhi Wang, Hui Yan, L. Fang, J. Gong (2013)
A photoelectrochemical investigation on the synergetic effect between CdS and reduced graphene oxide for solar-energy conversion.Chemistry, an Asian journal, 8 10
Yiseul Park, Seunghee Kang, W. Choi (2011)
Exfoliated and reorganized graphite oxide on titania nanoparticles as an auxiliary co-catalyst for photocatalytic solar conversion.Physical chemistry chemical physics : PCCP, 13 20
(2013)
Reusability of TCPP–Fe3O4@S/RGO composite in photodegradation of MB
Suman Thakur, G. Das, P. Raul, N. Karak (2013)
Green One-Step Approach to Prepare Sulfur/Reduced Graphene Oxide Nanohybrid for Effective Mercury Ions RemovalJournal of Physical Chemistry C, 117
Tapas Kuila, A. Mishra, Partha Khanra, N. Kim, J. Lee (2013)
Recent advances in the efficient reduction of graphene oxide and its application as energy storage electrode materials.Nanoscale, 5 1
M. Martínez‐Díaz, G. Torre, T. Torres, T. Torres (2010)
Lighting porphyrins and phthalocyanines for molecular photovoltaics.Chemical communications, 46 38
Guohua Pan, Jia Zhu, Shulan Ma, Genban Sun, Xiaojing Yang (2013)
Enhancing the electromagnetic performance of Co through the phase-controlled synthesis of hexagonal and cubic Co nanocrystals grown on graphene.ACS applied materials & interfaces, 5 23
Yanfei Xu, Zhibo Liu, Xiaoliang Zhang, Yan Wang, J. Tian, Yi Huang, Yanfeng Ma, Xiaoyan Zhang, Yongsheng Chen (2009)
A Graphene Hybrid Material Covalently Functionalized with Porphyrin: Synthesis and Optical Limiting PropertyAdvanced Materials, 21
M. Mahmoudian, Y. Alias, W. Basirun, P. Woi, M. Sookhakian, F. Jamali-Sheini (2015)
Synthesis and characterization of Fe3O4 rose like and spherical/reduced graphene oxide nanosheet composites for lead (II) sensorElectrochimica Acta, 169
Yaqi Hu, Zhonghua Xue, Hongxia He, Ruixia Ai, Xiuhui Liu, Xiaoquan Lu (2013)
Photoelectrochemical sensing for hydroquinone based on porphyrin-functionalized Au nanoparticles on graphene.Biosensors & bioelectronics, 47
Quanjun Xiang, Jiaguo Yu, M. Jaroniec (2012)
Synergetic effect of MoS2 and graphene as cocatalysts for enhanced photocatalytic H2 production activity of TiO2 nanoparticles.Journal of the American Chemical Society, 134 15
A. Mozer, M. Griffith, G. Tsekouras, P. Wagner, G. Wallace, S. Mori, K. Sunahara, M. Miyashita, John Earles, K. Gordon, Luchao Du, R. Katoh, A. Furube, D. Officer (2009)
Zn-Zn porphyrin dimer-sensitized solar cells: toward 3-D light harvesting.Journal of the American Chemical Society, 131 43
Jun Zhang, Jiaguo Yu, M. Jaroniec, J. Gong (2012)
Noble metal-free reduced graphene oxide-ZnxCd₁-xS nanocomposite with enhanced solar photocatalytic H₂-production performance.Nano letters, 12 9
D. Zhao, H. Yang, R. Li, J. Ma, W. Feng (2014)
Fabrication of nickel ferrite–graphene nanocomposites and their photocatalytic propertiesMaterials Research Innovations, 18
J. Geng, Y. Ko, S. Youn, Y. Kim, Seong Kim, D. Jung, Hee‐Tae Jung (2008)
Synthesis of SWNT Rings by Noncovalent Hybridization of Porphyrins and Single-Walled Carbon NanotubesJournal of Physical Chemistry C, 112
Y. Ng, S. Ikeda, M. Matsumura, R. Amal (2012)
A perspective on fabricating carbon-based nanomaterials by photocatalysis and their applicationsEnergy and Environmental Science, 5
Xiaoyan Zhang, Haopeng Li, Xiaoli Cui, Yuehe Lin (2010)
Graphene/TiO2 nanocomposites: synthesis, characterization and application in hydrogen evolution from water photocatalytic splittingJournal of Materials Chemistry, 20
Xiaoling Li, Hailiang Wang, J. Robinson, Hernan Sanchez, G. Diankov, H. Dai (2009)
Simultaneous nitrogen doping and reduction of graphene oxide.Journal of the American Chemical Society, 131 43
A. Adler, F. Longo, F. Kampas, Jean Kim (1970)
On the preparation of metalloporphyrinsJournal of Inorganic and Nuclear Chemistry, 32
W. Peng, Xiao-yan Li (2013)
Synthesis of a sulfur-graphene composite as an enhanced metal-free photocatalystNano Research, 6
Quanjun Xiang, Jiaguo Yu, M. Jaroniec (2011)
Enhanced photocatalytic H₂-production activity of graphene-modified titania nanosheets.Nanoscale, 3 9
Qin Li, B. Guo, Jiaguo Yu, J. Ran, Baohong Zhang, Hui-Juan Yan, J. Gong (2011)
Highly efficient visible-light-driven photocatalytic hydrogen production of CdS-cluster-decorated graphene nanosheets.Journal of the American Chemical Society, 133 28
Meng Chen, Yong-Gang Feng, X. Wang, Ting Li, Jun-Yan Zhang, D. Qian (2007)
Silver nanoparticles capped by oleylamine: formation, growth, and self-organization.Langmuir : the ACS journal of surfaces and colloids, 23 10
Guancai Xie, Kai Zhang, B. Guo, Qian Liu, L. Fang, J. Gong (2013)
Graphene‐Based Materials for Hydrogen Generation from Light‐Driven Water SplittingAdvanced Materials, 25
Jiayu Dai, Jianmin Yuan (2010)
Modulating the electronic and magnetic structures of P-doped graphene by molecule dopingJournal of Physics: Condensed Matter, 22
Mingshan Zhu, Zhi Li, B. Xiao, Yongtao Lu, Yukou Du, Ping Yang, Xiaomei Wang (2013)
Surfactant assistance in improvement of photocatalytic hydrogen production with the porphyrin noncovalently functionalized graphene nanocomposite.ACS applied materials & interfaces, 5 5
(2013)
Dissertation Institute of Chemistry
Jiayu Dai, Jianmin Yuan, P. Giannozzi (2009)
Gas adsorption on graphene doped with B, N, Al, and S: A theoretical studyApplied Physics Letters, 95
L. Qu, Y. Liu, Jong‐Beom Baek, L. Dai (2010)
Nitrogen-doped graphene as efficient metal-free electrocatalyst for oxygen reduction in fuel cells.ACS nano, 4 3
Sheng Chen, Junwu Zhu, Xiaodong Wu, Qiaofeng Han, Xin Wang (2010)
Graphene oxide--MnO2 nanocomposites for supercapacitors.ACS nano, 4 5
N. Karousis, Atula Sandanayaka, Taku Hasobe, S. Economopoulos, E. Sarantopoulou, N. Tagmatarchis (2011)
Graphene oxide with covalently linked porphyrin antennae: Synthesis, characterization and photophysical propertiesJournal of Materials Chemistry, 21
D. Marcano, D. Kosynkin, J. Berlin, A. Sinitskii, Zhengzong Sun, A. Slesarev, L. Alemany, W. Lu, J. Tour (2010)
Improved synthesis of graphene oxide.ACS nano, 4 8
J. Robinson, F. Perkins, E. Snow, Zhongqing Wei, P. Sheehan (2008)
Reduced graphene oxide molecular sensors.Nano letters, 8 10
P. Denis (2013)
Concentration dependence of the band gaps of phosphorus and sulfur doped grapheneComputational Materials Science, 67
Mingshan Zhu, Yu‐Tao Dong, Yukou Du, Zhigang Mou, Jian Liu, Ping Yang, Xiaomei Wang (2012)
Photocatalytic hydrogen evolution based on efficient energy and electron transfers in donor-bridge-acceptor multibranched-porphyrin-functionalized platinum nanocomposites.Chemistry, 18 14
A one-step green-chemistry method was applied to prepare sulfur/reduced graphene oxide (S/RGO). The synthesized S/RGO was modified by 5,10,15,20-tetrakis(4-carboxyphenyl)porphyrin (TCPP) and Fe3O4 nanoparticles to form TCPP–Fe3O4@S/RGO. The prepared composites were investigated by X-ray diffraction (XRD) analysis, Fourier-transform infrared (FT-IR) spectroscopy, X-ray photoelectron spectroscopy (XPS), energy-dispersive X-ray (EDX) mapping, and transmission electron microscopy (TEM) and scanning electron microscopy (SEM) imaging. Diffuse reflectance spectroscopy (DRS) was used to determine the photocatalytic ability of S/RGO and TCPP–Fe3O4@S/RGO. In addition, photocatalytic degradation of a hazardous dye (methylene blue) by the TCPP–Fe3O4@S/RGO composite under visible-light irradiation is reported. The results demonstrate synthesis of TCPP–Fe3O4@S/RGO by an environmentally friendly method with excellent degradation effect.
Research on Chemical Intermediates – Springer Journals
Published: Dec 9, 2015
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