graphdiyne and hydrogen-substituted graphdiyne as

Enhanced Selective Hydrogen Permeation through Graphdiyne

membranes Article Enhanced Selective Hydrogen Permeation through Graphdiyne Membrane: A Theoretical Study Quan Liu 1,*, Long Cheng 2 and Gongping Liu 2,* 1 Analytical and Testing Center, Anhui University of Science and Technology, Huainan 232001, China

Pore Structure of Graphdiyne: Design, Synthesis and

Key words: Graphdiyne, Pore structure design, Three dimensional, Synthesis, Application CLC Number: O613 Cite this article ZHAN Shuhui, ZHAO Yasong, YANG Nailiang, WANG Dan. Pore Structure of Graphdiyne: Design, Synthesis and Application 0 /

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne for Efficient Electrocatalytic Ammonia Synthesis Nano Energy ( IF 16.602) Pub Date : 2021-04-30, DOI: 10.1016/j.nanoen.2021.106099

Synthesis and Applications of Graphdiyne‐Based Metal‐Free

Synthesis and Applications of Graphdiyne-Based Metal-Free Catalysts Zicheng Zuo, Dan Wang, Jin Zhang, Fushen Lu, and Yuliang Li* Dr. Z. Zuo, Prof. Y. Li Beijing National Laboratory for Molecular Sciences (BNLMS) CAS Research/Education Center for

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne for Efficient Electrocatalytic Ammonia Synthesis Nano Energy ( IF 16.602) Pub Date : 2021-04-30, DOI: 10.1016/j.nanoen.2021.106099

Two

The researchers also compared both modified graphdiyne materials to an empty version where only hydrogen occupied the position of the functional groups in the network. Overall, the team found that modified graphdiyne can be prepared by a bottom-up strategy, which is also suited to build functional two-dimensional carbon material architectures for batteries, capacitors, and other

Graphdiyne and Hydrogen

Graphdiyne and Hydrogen-Substituted Graphdiyne as Potential Cathode Materials for High-Capacity Aluminum-Ion Batteries Shaikat Debnath Australian Institute for Bioengineering and Nanotechnology, The University of Queensland, St. Lucia, Queensland 4072, Australia

Influence of Kubas

Influence of Kubas-type interaction of BeNi codoped graphdiyne with hydrogen molecules on desorption temperature and storage efficiency E.V. Anikina a, b, A. Banerjee c, *, V.P. Beskachko b, R. Ahuja a, c a Materials Theory Division, Department of Physics and Astronomy, Uppsala University, Box 516, 75120 Uppsala, Sweden

A new approach to separate hydrogen from carbon dioxide using graphdiyne

A new approach to separate hydrogen from carbon dioxide using graphdiyne–like membrane Parham Rezaee1,‡,* and Hamid Reza Naeij1,‡,† 1Azadi Ave., P.O.Box 13547-59647, Tehran, Iran *Corresponding author: parham.rezaeealum.sharif.edu †E-mail: naeij

Highly Efficient and Selective Generation of Ammonia and Hydrogen on a Graphdiyne

Recently, Graphdiyne as the hot research project in new materials field, gathering many researchers' attention all over the world. Academician Yuliang Li's research team from Chinese Academy of Science has contributed a lot on the research of Graphdiyne, a nd they published a paper on ACS Publications, named Highly Efficient an d Selective Generation of Ammonia and Hydrogen on a Graphdiyne

Graphdiyne as Hydrogen Purification Membrane: Chinese

At pressure of 47 kPa, the hydrogen flow is 7 mol/m 2 s. With increase of pressure, the hydrogen flow goes up, and reaches maximum of 610 5 mol/m 2 s at 1.5 GPa. Compared to other known membranes, graphdiyne can be used for means of hydrogen

Graphdiyne as a promising substrate for stabilizing Pt

Graphdiyne as a promising substrate for stabilizing Pt nanoparticle catalyst Zheng-Zhe Lin School of Physics and Optoelectronic Engineering, Xidian University, Xi'an 710071, China ARTICLE INFO Article history: Received 9 October 2014 Accepted 1 February 2015

Structure of 2D Graphdiyne and Its Application in

This paper focuses on application of graphdiyne (GDY) in both energy storage and conversion fields, including the most recent theoretical and experimental progress. The unique three-dimensional pore structure formed by stacking of the GDY layer, make it possess the natural advantage which can be applied to lithium storage and hydrogen storage.

Graphdiyne as Hydrogen Purification Membrane: Chinese

At pressure of 47 kPa, the hydrogen flow is 7 mol/m 2 s. With increase of pressure, the hydrogen flow goes up, and reaches maximum of 610 5 mol/m 2 s at 1.5 GPa. Compared to other known membranes, graphdiyne can be used for means of hydrogen

Synthesis of Graphdiyne Nanowalls Using Acetylenic Coupling

Synthesis of Graphdiyne Nanowalls Using Acetylenic Coupling Reaction Jingyuan Zhou,†,‡ Xin Gao,† Rong Liu,†,‡ Ziqian Xie,† Jin Yang,‡, Shuqing Zhang,†,‡ Gengmin Zhang, Huibiao Liu,∥ Yuliang Li,∥ Jin Zhang,*,† and Zhongfan Liu*,† †Center for Nanochemistry, Beijing Science and Engineering Center for Nanocarbons, Beijing National Laboratory for Molecular

A Short Review of Synthesis of Graphdiyne and Its Potential

Graphdiyne, a new member of all-carbon family, produced by two hybridization states(sp2, sp), was firstly proposed by Baughman and other pioneers in 1987[4], and was synthesized through cross-coupling on the surface of copper foil using hexaethynylbenzen by Li group in 2010 for the first

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne

Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne for Efficient Electrocatalytic Ammonia Synthesis Nano Energy ( IF 16.602) Pub Date : 2021-04-30, DOI: 10.1016/j.nanoen.2021.106099

Transparent proton transport through a two

membrane hydrogen bonds across graphdiyne serve as ideal channels for proton transport in Grotthuss mechanism. The free energy barrier for proton transfer across graphdiyne is ~2.4kJmol −1, nearly identical to that in bulk water (2.1kJmol ), enabling "

Graphdiyne as a promising substrate for stabilizing Pt

Graphdiyne as a promising substrate for stabilizing Pt nanoparticle catalyst Zheng-Zhe Lin School of Physics and Optoelectronic Engineering, Xidian University, Xi'an 710071, China ARTICLE INFO Article history: Received 9 October 2014 Accepted 1 February 2015

Tailoring the optoelectronic properties of graphyne and

DOI: 10.1007/s10853-017-0779-1 Corpus ID: 99101511 Tailoring the optoelectronic properties of graphyne and graphdiyne: nitrogen/sulfur dual doping versus oxygen containing functional groups article{Mohajeri2017TailoringTO, title={Tailoring the optoelectronic

Synthesis and Applications of Graphdiyne‐Based Metal‐Free

Synthesis and Applications of Graphdiyne-Based Metal-Free Catalysts Zicheng Zuo, Dan Wang, Jin Zhang, Fushen Lu, and Yuliang Li* Dr. Z. Zuo, Prof. Y. Li Beijing National Laboratory for Molecular Sciences (BNLMS) CAS Research/Education Center for

Two

The researchers also compared both modified graphdiyne materials to an empty version where only hydrogen occupied the position of the functional groups in the network. Overall, the team found that modified graphdiyne can be prepared by a bottom-up strategy, which is also suited to build functional two-dimensional carbon material architectures for batteries, capacitors, and other

Structure of 2D Graphdiyne and Its Application in

This paper focuses on application of graphdiyne (GDY) in both energy storage and conversion fields, including the most recent theoretical and experimental progress. The unique three-dimensional pore structure formed by stacking of the GDY layer, make it possess the natural advantage which can be applied to lithium storage and hydrogen storage.

Electronic Property Modulation of One‐Dimensional

Table 1 shows that the obtained band gaps of the substituted extended graphdiyne nanowires have a range of 1.023–1.708 eV using the PBE method (1.961–2.374 eV using HSE06 method). These band gap values are all smaller than the value of 1.762 eV (2.605 eV with HSE06) for pristine extended graphdiyne nanowire.

Scientists Develop Graphdiyne Based Fuel Cell Cathode

The as-synthesized pyridinic nitrogen-doped hydrogen-substituted graphdiyne showed much better electrocatalytic performance for the oxygen reduction reaction than that of the commercial platinum-based catalyst in alkaline media and comparable activity in

Two

The researchers also compared both modified graphdiyne materials to an empty version where only hydrogen occupied the position of the functional groups in the network. Overall, the team found that modified graphdiyne can be prepared by a bottom-up strategy, which is also suited to build functional two-dimensional carbon material architectures for batteries, capacitors, and other

Synthesis and properties of annulenic subunits of graphyne and graphdiyne

subunits of graphyne and graphdiyne nanoarchitectures* Michael M.Haley Department of Chemistry and the Materials Science Institute, University of Oregon, Eugene, OR 97403-1253, USA Abstract: This report describes the synthetic strategies toward and

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