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237 results on '"Rummeli, Mark H."'

1. Numerical investigation on the effect of gas-phase dynamics on graphene growth in chemical vapor deposition.

Author

Li, Qihang, Luo, Jinping, Li, Zaoyang, Rummeli, Mark H., and Liu, Lijun

Subjects
CHEMICAL vapor deposition, GRAPHENE, CHEMICAL processes, GAS phase reactions, COMPUTATIONAL fluid dynamics, NON-equilibrium reactions
Abstract

Chemical vapor deposition (CVD) is a crucial technique to prepare high-quality graphene because of its controllability. In the research, we perform a systematic computational fluid dynamics numerical investigation on the effect of gas-phase reaction dynamics on the graphene growth in a horizontal tube CVD reactor. The research results indicate that the gas-phase chemical reactions in the CVD reactor are in a nonequilibrium state, as evidenced by the comparison of species mole fraction distributions during the CVD process and under chemical equilibrium conditions. The effect of gas-phase reaction dynamics on the deposition rate of graphene under different conditions is studied, and our research shows that the main causes of change in graphene growth rates under different conditions are gas-phase reaction dynamics and active species transport. The results of numerical simulation agree well with the experimental phenomena. The research results also indicate that, for methane, the main limiting factor of graphene growth is the surface kinetic reaction rate. Conversely, for active species, the main limiting factor of graphene growth is species transport. Our research suggests that the growth rate of graphene can be regulated from the perspective of the gas reaction mechanism. This method has theoretical guiding significance and can be extended to the preparation of large-area graphene. [ABSTRACT FROM AUTHOR]

Published
2024
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13. High‐performance Photoelectrochemical Hydrogen Production Using Asymmetric Quantum Dots.

Author

Wang, Kanghong, Wang, Chao, Tao, Yi, Tang, Zikun, Benetti, Daniele, Vidal, François, Liu, Yu, Rummeli, Mark H., Zhao, Haiguang, Rosei, Federico, and Sun, Xuhui

Subjects
QUANTUM dots, HYDROGEN production, SEMICONDUCTOR nanocrystals, STRUCTURAL shells, CHARGE exchange, INERTIAL confinement fusion, PHOTOCATHODES
Abstract

Solar‐driven photoelectrochemical (PEC) reactions using colloidal quantum dots (QDs) as photoabsorbers have shown great potential for the production of clean fuels. However, the low H2 evolution rate, consistent with low values of photocurrent density, and their limited operational stability are still the main obstacles. To address these challenges, the heterostructure engineering of asymmetric capsule‐shaped CdSe/CdxZn1‐xSe QDs with broad absorption and efficient charge extraction compared to pure‐shell QDs is reported. By engineering the shell composition from pure ZnSe shells into CdxZn1‐xSe gradient shells, the electron transfer rate increased from 4.0 × 107 s−1 to 32.7 × 107 s−1. Moreover, the capsule‐shaped architecture enables more efficient spatial carrier separation, yielding a saturated current density of average of 25.4 mA cm−2 under AM 1.5 G one sun illumination. This value is the highest ever observed for QDs‐based devices and comparable to the best‐known Si‐based devices, perovskite‐based devices, and metal oxide‐based devices. Furthermore, PEC devices based on heterostructured QDs maintained 96% of the initial current density after 2 h and 82% after 10 h under continuous illumination, respectively. The results represent a breakthrough in hydrogen production using heterostructured asymmetric QDs. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Effect of growth conditions and reactor configuration on the growth uniformity of large-scale graphene by chemical vapor deposition.

Author

Li, Qihang, Luo, Jinping, Li, Zaoyang, Rummeli, Mark H., and Liu, Lijun

Subjects
CHEMICAL vapor deposition, GRAPHENE, COMPUTATIONAL fluid dynamics, GAS dynamics, UNIFORMITY
Abstract

Chemical vapor deposition (CVD) is an affordable method for the preparation of large-scale and high-quality graphene. With the increase in CVD reactor size, gas mass transfer, flow state, and gas phase dynamics become more complicated. In this study, computational fluid dynamics is used to investigate factors affecting the uniformity of large-scale graphene growth under different growth conditions and reactor configurations. The dimensionless number defined in this paper and the Grashof number are utilized to distinguish the species transfer patterns and the flow states, respectively. A gas-surface dynamics model is established to simulate the graphene growth. Results reveal that the graphene growth rate uniformity is the highest at very low pressure and flow rate due to the flow symmetry and diffusion-dominated species transfer. At an increased pressure of 20 Torr, the uniformity of the graphene growth rate becomes higher axially and lower circumferentially with an increasing inlet mass flow rate. When the flow rate is fixed at 1500 SCCM and pressure is reduced from 20 to 2 Torr, graphene growth uniformity first increases and then decreases due to the influence of gas phase dynamics. Graphene growth rates are analyzed across ordinary reactor configurations and four configurations with inner tubes at 20 Torr pressure and 1500 SCCM flow rate. Comprehensive evaluation suggests that the ordinary reactor configuration performs best under these conditions. This research offers insights into the macroscopic growth mechanism of large-scale graphene and provides guidance for designing growth conditions in large-area graphene production. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Minimal bundling of single-walled carbon nanotubes comprising vertically aligned films

Author

Einarsson, Erik, Shiozawa, Hidetsugu, Kramberger, Christian, Rummeli, Mark H., Gruneis, Alexander, Pichler, Thomas, and Maruyama, Shigeo

Subjects
Condensed Matter - Other Condensed Matter
Abstract

A freestanding film of vertically aligned single-walled carbon nanotubes (VA-SWNTs) synthesized by the alcohol catalytic chemical vapor deposition (ACCVD) method was observed directly by transmission electron microscopy (TEM). These observations revealed that the film is comprised primarily of small SWNT bundles, typically containing 3-8 SWNTs. The lack of significant bundling is supported by electron diffraction spectra, in which no bundle peak is observed, and by electron energy-loss spectroscopy (EELS), which shows minimal dielectric screening. This indicates the electrical properties of the VA-SWNT film are dominated by the one-dimensional nature of SWNTs, rather than behaving as a bulk material.

Published
2007

23. Fast synthesis of large-area bilayer graphene film on Cu

Author

Zhang, Jincan, primary, Liu, Xiaoting, additional, Zhang, Mengqi, additional, Zhang, Rui, additional, Ta, Huy Q., additional, Sun, Jianbo, additional, Wang, Wendong, additional, Zhu, Wenqing, additional, Fang, Tiantian, additional, Jia, Kaicheng, additional, Sun, Xiucai, additional, Zhang, Xintong, additional, Zhu, Yeshu, additional, Shao, Jiaxin, additional, Liu, Yuchen, additional, Gao, Xin, additional, Yang, Qian, additional, Sun, Luzhao, additional, Li, Qin, additional, Liang, Fushun, additional, Chen, Heng, additional, Zheng, Liming, additional, Wang, Fuyi, additional, Yin, Wanjian, additional, Wei, Xiaoding, additional, Yin, Jianbo, additional, Gemming, Thomas, additional, Rummeli, Mark. H., additional, Liu, Haihui, additional, Peng, Hailin, additional, Lin, Li, additional, and Liu, Zhongfan, additional

Published
2023
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24. Atomically Dispersed Cerium Sites Immobilized on Vanadium Vacancies of Monolayer Nickel‐Vanadium Layered Double Hydroxide: Accelerating Water Splitting Kinetics.

Author

Zeng, Kai, Chao, Ming, Tian, Meng, Yan, Jin, Rummeli, Mark H., Strasser, Peter, and Yang, Ruizhi

Subjects
LAYERED double hydroxides, MONOMOLECULAR films, CERIUM, VANADIUM, OXYGEN evolution reactions, NICKEL catalysts, WATER electrolysis
Abstract

Rational design of efficient single‐atom catalysts is a potential avenue to mitigate the sluggish oxygen evolution reaction (OER) kinetics. Adopting appropriate matrixes to stabilize the single‐atom active centers with the optimized geometric and electronic structure plays an essential role in enhancing catalytic activities. Herein, massive isolated Ce atoms are successfully anchored on monolayer nickel‐vanadium layered double hydroxide support (Ce SAs/m‐NiV LDH) via the vanadium defects trapping strategy, resulting in stabilized Ce single‐atom with the maximum loading of 8.07 wt.%. Benefitting from the strong synergetic electronic interaction between Ce single atoms and monolayer NiV LDH matrix, thus‐prepared catalyst possesses favorable OER (209 mV @ 10 mA cm−2) and water electrolysis performance (1.47 V @ 10 mA cm−2), surpassing other catalysts and even the commercial RuO2 catalyst. Density functional theory (DFT) calculations in combination with in situ electrochemical impedance spectroscopy analysis reveal that the immobilization of monatomic Ce can effectively narrow the band gap and strengthen the density states near the Fermi level as well as more easily adsorb the surficial OH–, leading to a lower charge transfer barrier and faster water splitting kinetics. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Fast synthesis of large-area bilayer graphene film on Cu

Author

Zhang, Jincan, Liu, Xiaoting, Zhang, Mengqi, Zhang, Rui, Ta, Huy Q, Sun, Jianbo, Wang, Wendong, Zhu, Wenqing, Fang, Tiantian, Jia, Kaicheng, Sun, Xiucai, Zhang, Xintong, Zhu, Yeshu, Shao, Jiaxin, Liu, Yuchen, Gao, Xin, Yang, Qian, Sun, Luzhao, Li, Qin, Liang, Fushun, Chen, Heng, Zheng, Liming, Wang, Fuyi, Yin, Wanjian, Wei, Xiaoding, Yin, Jianbo, Gemming, Thomas, Rummeli, Mark H, Liu, Haihui, Peng, Hailin, Lin, Li, Liu, Zhongfan, Sun, Luzhao [0000-0003-0518-0744], Yin, Wanjian [0000-0003-0932-2789], Wei, Xiaoding [0000-0002-5173-4923], Yin, Jianbo [0000-0001-6610-3916], Gemming, Thomas [0000-0002-7353-595X], Liu, Haihui [0009-0000-8481-0059], Peng, Hailin [0000-0003-1569-0238], Lin, Li [0000-0002-3626-0643], Liu, Zhongfan [0000-0001-5554-1902], and Apollo - University of Cambridge Repository

Subjects
4018 Nanotechnology, 5104 Condensed Matter Physics, 51 Physical Sciences, 40 Engineering
Abstract

Bilayer graphene (BLG) is intriguing for its unique properties and potential applications in electronics, photonics, and mechanics. However, the chemical vapor deposition synthesis of large-area high-quality bilayer graphene on Cu is suffering from a low growth rate and limited bilayer coverage. Herein, we demonstrate the fast synthesis of meter-sized bilayer graphene film on commercial polycrystalline Cu foils by introducing trace CO2 during high-temperature growth. Continuous bilayer graphene with a high ratio of AB-stacking structure can be obtained within 20 min, which exhibits enhanced mechanical strength, uniform transmittance, and low sheet resistance in large area. Moreover, 96 and 100% AB-stacking structures were achieved in bilayer graphene grown on single-crystal Cu(111) foil and ultraflat single-crystal Cu(111)/sapphire substrates, respectively. The AB-stacking bilayer graphene exhibits tunable bandgap and performs well in photodetection. This work provides important insights into the growth mechanism and the mass production of large-area high-quality BLG on Cu.

Published
2023

28. Ru-Substituted MnO2 for Accelerated Water Oxidation: The Feedback of Strain-Induced and Polymorph-Dependent Structural Changes to the Catalytic Activity and Mechanism

Author

Qin, Yongze, primary, Liu, Yu, additional, Zhang, Yanzhi, additional, Gu, Yindong, additional, Lian, Yuebin, additional, Su, Yanhui, additional, Hu, Jiapeng, additional, Zhao, Xiaohui, additional, Peng, Yang, additional, Feng, Kun, additional, Zhong, Jun, additional, Rummeli, Mark H., additional, and Deng, Zhao, additional

Published
2022
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31. Innentitelbild: Photocatalytic Abstraction of Hydrogen Atoms from Water Using Hydroxylated Graphitic Carbon Nitride for Hydrogenative Coupling Reactions (Angew. Chem. 24/2022)

Author

Zhang, Dongsheng, primary, Ren, Pengju, additional, Liu, Wuwen, additional, Li, Yaru, additional, Salli, Sofia, additional, Han, Feiyu, additional, Qiao, Wei, additional, Liu, Yu, additional, Fan, Yingzhu, additional, Cui, Yi, additional, Shen, Yanbin, additional, Richards, Emma, additional, Wen, Xiaodong, additional, Rummeli, Mark H., additional, Li, Yongwang, additional, Besenbacher, Flemming, additional, Niemantsverdriet, Hans, additional, Lim, Tingbin, additional, and Su, Ren, additional

Published
2022
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32. Inside Cover: Photocatalytic Abstraction of Hydrogen Atoms from Water Using Hydroxylated Graphitic Carbon Nitride for Hydrogenative Coupling Reactions (Angew. Chem. Int. Ed. 24/2022)

Author

Zhang, Dongsheng, primary, Ren, Pengju, additional, Liu, Wuwen, additional, Li, Yaru, additional, Salli, Sofia, additional, Han, Feiyu, additional, Qiao, Wei, additional, Liu, Yu, additional, Fan, Yingzhu, additional, Cui, Yi, additional, Shen, Yanbin, additional, Richards, Emma, additional, Wen, Xiaodong, additional, Rummeli, Mark H., additional, Li, Yongwang, additional, Besenbacher, Flemming, additional, Niemantsverdriet, Hans, additional, Lim, Tingbin, additional, and Su, Ren, additional

Published
2022
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33. Photocatalytic Abstraction of Hydrogen Atoms from Water Using Hydroxylated Graphitic Carbon Nitride for Hydrogenative Coupling Reactions

Author

Zhang, Dongsheng, primary, Ren, Pengju, additional, Liu, Wuwen, additional, Li, Yaru, additional, Salli, Sofia, additional, Han, Feiyu, additional, Qiao, Wei, additional, Liu, Yu, additional, Fan, Yingzhu, additional, Cui, Yi, additional, Shen, Yanbin, additional, Richards, Emma, additional, Wen, Xiaodong, additional, Rummeli, Mark H., additional, Li, Yongwang, additional, Besenbacher, Flemming, additional, Niemantsverdriet, Hans, additional, Lim, Tingbin, additional, and Su, Ren, additional

Published
2022
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41. In-situ observations of novel single-atom thick 2D tin membranes embedded in graphene

Author

Section Economic Urban Transitions, Sub Soft Condensed Matter, Soft Condensed Matter and Biophysics, Yang, Xiaoqin, Ta, Huy Q., Li, Wei, Mendes, Rafael G., Liu, Yu, Shi, Qitao, Ullah, Sami, Bachmatiuk, Alicja, Luo, Jinping, Liu, Lijun, Choi, Jin Ho, Rummeli, Mark H., Section Economic Urban Transitions, Sub Soft Condensed Matter, Soft Condensed Matter and Biophysics, Yang, Xiaoqin, Ta, Huy Q., Li, Wei, Mendes, Rafael G., Liu, Yu, Shi, Qitao, Ullah, Sami, Bachmatiuk, Alicja, Luo, Jinping, Liu, Lijun, Choi, Jin Ho, and Rummeli, Mark H.

Published
2021

46. Rationally Designed Metal Cocatalyst for Selective Photosynthesis of Bibenzyls via Dehalogenative C–C Homocoupling

Author

Li, Yaru, primary, Ren, Pengju, additional, Zhang, Dongsheng, additional, Qiao, Wei, additional, Wang, Dan, additional, Yang, Xiaoqin, additional, Wen, Xiaodong, additional, Rummeli, Mark H., additional, Niemantsverdriet, Hans, additional, Lewis, James P., additional, Besenbacher, Flemming, additional, Xiang, Hongwei, additional, Li, Yongwang, additional, and Su, Ren, additional

Published
2021
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47. In situ observations of freestanding single-atom-thick gold nanoribbons suspended in graphene

Author

Zhao, Liang, Ta, Huy Q., Mendes, Rafael G., Bachmatiuk, Alicja, Rummeli, Mark H., Sub Soft Condensed Matter, Soft Condensed Matter and Biophysics, Sub Soft Condensed Matter, and Soft Condensed Matter and Biophysics

Subjects
In situ, Materials science, Graphene, Mechanical Engineering, Atom (order theory), Molecular physics, in situ TEM, law.invention, electron beam irradiation, Electron beam irradiation, Mechanics of Materials, law, gold nanoribbons, single-atom-thick
Abstract

Bulk gold's attributes of relative chemical inertness, rarity, relatively low melting point and its beautiful sheen make it a prized material for humans. Recordings suggest it was the first metal employed by humans dating as far back to the late Paleolithic period approximate to 40 000 BC. However, at the nanoscale gold is expected to present new and exciting properties, not least in catalysis. Moreover, recent studies suggest a new family of single-atom-thick two-dimensional (2D) metals exist. This work shows single-atom-thick freestanding gold membranes and nanoribbons can form as suspended structures in graphene pores. Electron irradiation is shown to lead to changes to the graphene pores which lead to dynamic changes of the gold membranes which transition to a nanoribbon. The freestanding single-atom-thick 2D gold structures are relatively stable to electron irradiation for extended periods. The work should advance the development of 2D gold monolayers significantly. Web of Science art. no. 2000436

Published
2020

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