graphene oxide membranes with cerium-enhanced

Graphene Info

Graphene-Info is the world's leading graphene industry portal since 2009. We provide a multitude of services to the graphene market based on our extensive knowledge hub and industry connections. Graphene is the strongest, thinnest and most conductive material known to man.

Graphene Enhanced Filtration

Our scalable process applies a coating of graphene oxide – a form of graphene, the world's strongest material – to existing polymer based water filtration membranes. Unique capabilities Using proven science, G 2 O is working with a number of industry and innovation partners to scale up the technology and bring it to the market, ultimately delivering this new and unique filtration

Enhanced chlorine‐resistant and low biofouling reverse

The effect of graphene oxide (GO) loading (0.03, 0.06, 0.09, 0.12, and 0.30 wt%) in the aqueous phase on the performance of reverse All PI‐GO TFN membranes exhibited enhanced desalination performance in comparison with PI membranes. Samples with 0 2

Enhanced chlorine‐resistant and low biofouling reverse

The effect of graphene oxide (GO) loading (0.03, 0.06, 0.09, 0.12, and 0.30 wt%) in the aqueous phase on the performance of reverse All PI‐GO TFN membranes exhibited enhanced desalination performance in comparison with PI membranes. Samples with 0 2

Enhanced Ion Sieving of Graphene Oxide Membranes via

2021/3/25Enhanced Ion Sieving of Graphene Oxide Membranes via Surface Amine Functionalization. Qian Y 1, Shang J 2, Liu D 1, Yang G, Wang X 1, Chen C 3, Kou L 2, Lei W 1 Author information Affiliations 4 authors 1. Deakin University, Institute for Frontier Materials

US Patent for Enhanced graphene oxide membranes and

Enhanced graphene oxide membranes and methods for making same Jun 20, 2016 - BATTELLE MEMORIAL INSTITUTE A method for making a graphene oxide membrane and a resulting free-standing graphene oxide membrane that provides desired qualities of water permeability and selectivity at larger sizes, thinner cross sections, and with increased ruggedness as compared to existing membranes

Graphene Oxide Quantum Dot Enhanced Nanofiltration

Abstract: Graphene Oxide Quantum Dot Enhanced Nanofiltration Membranes for Water Purification Nanofiltration membranes are used in many separation processes including food processing, drug synthesis, and water desalination. These membranes selectively

Preparation and characterization of graphene oxide based membranes as possible Gas Diffusion Layers for PEM fuel cells with enhanced

Preparation and characterization of graphene oxide based membranes as possible Gas Diffusion Layers for PEM fuel cells with enhanced surface homogeneity Alessandro Migliavacca*a,b, Saverio Latorrataa, Paola Gallo Stampinoa and Giovanni Dotellia

Graphene Oxide Quantum Dot Enhanced Nanofiltration

Abstract: Graphene Oxide Quantum Dot Enhanced Nanofiltration Membranes for Water Purification Nanofiltration membranes are used in many separation processes including food processing, drug synthesis, and water desalination. These membranes selectively

Nanometric Graphene Oxide Framework Membranes with

Nanometric Graphene Oxide Framework Membranes with Enhanced Heavy Metal Removal via Nanofiltration Zhang, Yu; Zhang, Sui; Chung, Tai-Shung Abstract Publication: Pub Date: August 2015 DOI: 10.1021/acs.est.5b02086 Bibcode: full text sources |

Enhanced Stability of Laminated Graphene Oxide

2016/10/12Laminated graphene oxide (GO) has promising use as a membrane because of its high permeance, chemical and mechanical stability, as well as the molecular sieving effect of its interlayers. However, the hydrophilic surface of GO, which is highly decorated with oxygen groups, easily induces delamination of stacked GO films in aqueous media, thereby limiting the practical application.

Graphene Oxide Quantum Dot Enhanced Nanofiltration

Abstract: Graphene Oxide Quantum Dot Enhanced Nanofiltration Membranes for Water Purification Nanofiltration membranes are used in many separation processes including food processing, drug synthesis, and water desalination. These membranes selectively

Interplay of graphene oxide and interfacial polymerized

Geim, R.R. Nair, Precise and ultrafast molecular sieving through graphene oxide membranes, Science, 343 (2014) 752-754. M.G. Markovic, A novel fabrication approach for multifunctional graphene-based thin film nanocomposite membranes with Sci

Graphene Oxide Membranes with Cerium

Graphene Oxide Membranes with Cerium-Enhanced Proton Conductivity for Water Vapor Electrolysis Nur Laila Hamidah Department of Applied Chemistry and Biochemistry, Graduate School of Science and Technology, Kumamoto University, Kumamoto 860-8555, Japan

Membranes

Investigation of the collaborative effect of cerium particles embedded in graphene oxide to enhance the chemical stability of a proton exchange membrane fuel cell (PEMFC) has been carried out. Synthesis of composite membranes (Nafion-GO/Ce-x) with Nafion solution as a polymer is synthesized by a solution casting method where (x = concentration of composite). The developed hybrid material was

Interplay of graphene oxide and interfacial polymerized

Geim, R.R. Nair, Precise and ultrafast molecular sieving through graphene oxide membranes, Science, 343 (2014) 752-754. M.G. Markovic, A novel fabrication approach for multifunctional graphene-based thin film nanocomposite membranes with Sci

Enhanced chlorine‐resistant and low biofouling reverse

The effect of graphene oxide (GO) loading (0.03, 0.06, 0.09, 0.12, and 0.30 wt%) in the aqueous phase on the performance of reverse All PI‐GO TFN membranes exhibited enhanced desalination performance in comparison with PI membranes. Samples with 0 2

Graphene Oxide Incorporated Forward Osmosis

In this work, grapheme oxide (GO) nano-sheets were synthesized and dispersed in the aqueous phase for the interfacial polymerization (IP) process to develop a new type of thin-film composite (TFC) membranes for forward osmosis (FO) applications. The effects of the GO concentrations on the membrane surface and cross-sectional morphologies and FO desalination performances of the as

Enhanced ion transport by graphene oxide/cellulose

Enhanced ion transport by graphene oxide/cellulose nanofibers assembled membranes for high-performance osmotic energy harvesting† Yadong Wu, ab Weiwen Xin, ab Xiang-Yu Kong, b Jianjun Chen, b Yongchao Qian, b Yue Sun, b Xiaolu Zhao, b Weipeng Chen, b Lei Jiang b and Liping Wen *

One

In this work, graphene oxide (GO) was phosphorylated by a novel method and then incorporated into the chitosan (CS) matrix for the fabrication of nanocomposite membranes with enhanced proton conductivity for fuel cell applications. The 2D phosphorylated graphene oxide (PGO) offers efficient proton hopping sites (–PO3H−+H3N-) that form continuous proton conducting channels at the CS

Graphene Oxide Incorporated Forward Osmosis

In this work, grapheme oxide (GO) nano-sheets were synthesized and dispersed in the aqueous phase for the interfacial polymerization (IP) process to develop a new type of thin-film composite (TFC) membranes for forward osmosis (FO) applications. The effects of the GO concentrations on the membrane surface and cross-sectional morphologies and FO desalination performances of the as

Enhanced Ion Sieving of Graphene Oxide Membranes via

However, it is still very challenging to achieve high selectivity and high permeance of water desalination through precise d-spacing control of 2D nanomaterial membranes within subnanometer. Here, we developed functionalized graphene oxide membranes (FGOMs) with nitrogen groups such as amine groups and polarized nitrogen atoms to enhance metal ion sieving by one-step controlled plasma

Graphene oxide quantum dots embedded polysulfone membranes with enhanced hydrophilicity, permeability and antifouling performance

Graphene oxide (GO) has been demonstrated to be an effective hydrophilic nanofiller to modify the polymeric membranes when forming a mixed matrix structure. GO quantum dots (QDs) are promising candidates to fully exert the rich oxygen containing functional groups due to their unique size induced edge effects. In this work, GO QDs modified polysulfone (PSF) ultrafiltration (UF) membranes were

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