The Experts below are selected from a list of 31974 Experts worldwide ranked by ideXlab platform
Suresh C Pillai - One of the best experts on this subject based on the ideXlab platform.
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2d nanostructures for Water Purification graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2 ), tungsten chalcogenides (WS 2 ) and titanium carbide (Ti 3 C 2 T x ) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Suresh C Pillai, Saoirse Dervin, Dionysios D DionysiouAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
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Review Article 2D nanostructures for Water Purification: Graphene and beyond
J. Name, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2), tungsten chalcogenides (WS 2) and titanium carbide (Ti 3 C 2 T x) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
Dionysios D Dionysiou - One of the best experts on this subject based on the ideXlab platform.
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2d nanostructures for Water Purification graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2 ), tungsten chalcogenides (WS 2 ) and titanium carbide (Ti 3 C 2 T x ) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Suresh C Pillai, Saoirse Dervin, Dionysios D DionysiouAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
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Review Article 2D nanostructures for Water Purification: Graphene and beyond
J. Name, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2), tungsten chalcogenides (WS 2) and titanium carbide (Ti 3 C 2 T x) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
Saoirse Dervin - One of the best experts on this subject based on the ideXlab platform.
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2d nanostructures for Water Purification graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, the mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2 ), tungsten chalcogenides (WS 2 ) and titanium carbide (Ti 3 C 2 T x ) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification are highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract a great deal of attention in the near future.
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2D nanostructures for Water Purification: Graphene and beyond
Nanoscale, 2016Co-Authors: Suresh C Pillai, Saoirse Dervin, Dionysios D DionysiouAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS2), tungsten chalcogenides (WS2) and titanium carbide (Ti3C2Tx) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
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Review Article 2D nanostructures for Water Purification: Graphene and beyond
J. Name, 2016Co-Authors: Saoirse Dervin, Dionysios D Dionysiou, Suresh C PillaiAbstract:Owing to their atomically thin structure, large surface area and mechanical strength, 2D nanoporous materials are considered to be suitable alternatives for existing desalination and Water Purification membrane materials. Recent progress in the development of nanoporous graphene based materials has generated enormous potential for Water Purification technologies. Progress in the development of nanoporous graphene and graphene oxide (GO) membranes, mechanism of graphene molecular sieve action, structural design, hydrophilic nature, mechanical strength and antifouling properties and the principal challenges associated with nanopore generation are discussed in detail. Subsequently, the recent applications and performance of newly developed 2D materials such as 2D boron nitride (BN) nanosheets, graphyne, molybdenum disulfide (MoS 2), tungsten chalcogenides (WS 2) and titanium carbide (Ti 3 C 2 T x) are highlighted. In addition, the challenges affecting 2D nanostructures for Water Purification is highlighted and their applications in the Water Purification industry are discussed. Though only a few 2D materials have been explored so far for Water treatment applications, this emerging field of research is set to attract great attention in the near future.
Mika Sillanpaa - One of the best experts on this subject based on the ideXlab platform.
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Water Purification using magnetic assistance a review
Journal of Hazardous Materials, 2010Co-Authors: Ritu D. Ambashta, Mika SillanpaaAbstract:Water is a major source for survival on this planet. Its conservation is therefore a priority. With the increase in demand, the supply needs to meet specific standards. Several Purification techniques have been adopted to meet the standards. Magnetic separation is one Purification technique that has been adapted from ore mining industries to anti-scale treatment of pipe lines to seeding magnetic flocculent. No reviews have come up in recent years on the Water Purification technique using magnetic assistance. The present article brings out a series of information on this Water Purification technique and explains different aspects of magnetism and magnetic materials for Water Purification.
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Water Purification using magnetic assistance: A review
Journal of Hazardous Materials, 2010Co-Authors: Ritu D. Ambashta, Mika SillanpaaAbstract:Water is a major source for survival on this planet. Its conservation is therefore a priority. With the increase in demand, the supply needs to meet specific standards. Several Purification techniques have been adopted to meet the standards. Magnetic separation is one Purification technique that has been adapted from ore mining industries to anti-scale treatment of pipe lines to seeding magnetic flocculent. No reviews have come up in recent years on the Water Purification technique using magnetic assistance. The present article brings out a series of information on this Water Purification technique and explains different aspects of magnetism and magnetic materials for Water Purification. © 2010 Elsevier B.V.
M. K. Price - One of the best experts on this subject based on the ideXlab platform.
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Progress with the desalination and Water Purification technologies US roadmap
Desalination, 2005Co-Authors: Thomas E. Hinkebein, M. K. PriceAbstract:Abstract The worldwide need for fresh sources of drinking Water continues to outstrip supply while the resources necessary to develop new supply remain limited. The best solution to this dilemma is the coordination of research efforts on an international basis. The Desalination and Water Purification Roadmap presents a summary of the Water supply challenges facing the United States, and suggests areas of research and development that may lead to technological solutions to these challenges. These solutions have international application at the same time that innovation is occurring internationally. This Roadmap is a living document—updates to the Roadmap may be made on a regular basis to ensure that it remains current and relevant. The Roadmap is also complemented by a series of additional documents, created as a result of meetings to be held, focused on: • Defining discrete research projects and priorities based on the information contained within this Roadmap; • Identifying regulatory issues related to the implementation of desalination and Water Purification technologies, and developing potential solutions where conflicts are found; • Identifying, evaluating, and quantifying the impaired Water resources to better assess the impact that desalination and Water Purification technologies may have on Water supplies; • Generating plans to accelerate the commercialization of desalination and Water Purification technologies developed as a result of this Roadmap. This Roadmap cannot exist in a vacuum—technology development must be undertaken with the context of the product’s end-use in mind. The goal of this process is to: • Develop a consensus and direction to guide investments for the creation of new Water Purification technologies; • Identify the roles that various sectors of the economy (e.g., national government agencies, the private sector, educational and non-profit organizations) can play in the creation of new Water Purification technologies; and • Develop an expert group to review alternative Water Purification technologies.
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Progress with the desalination and Water Purification technologies US roadmap
Desalination, 2005Co-Authors: Thomas E. Hinkebein, M. K. PriceAbstract:The worldwide need for fresh sources of drinking Water continues to outstrip supply while the resources necessary to develop new supply remain limited. The best solution to this dilemma is the coordination of research efforts on an international basis. The Desalination and Water Purification Roadmap presents a summary of the Water supply challenges facing the United States, and suggests areas of research and development that may lead to technological solutions to these challenges. These solutions have international application at the same time that innovation is occurring internationally. This Roadmap is a living document-updates to the Roadmap may be made on a regular basis to ensure that it remains current and relevant. The Roadmap is also complemented by a series of additional documents, created as a result of meetings to be held, focused on: • Defining discrete research projects and priorities based on the information contained within this Roadmap; • Identifying regulatory issues related to the implementation of desalination and Water Purification technologies, and developing potential solutions where conflicts are found; • Identifying, evaluating, and quantifying the impaired Water resources to better assess the impact that desalination and Water Purification technologies may have on Water supplies; • Generating plans to accelerate the commercialization of desalination and Water Purification technologies developed as a result of this Roadmap. This Roadmap cannot exist in a vacuum - technology development must be undertaken with the context of the product's end-use in mind. The goal of this process is to: • Develop a consensus and direction to guide investments for the creation of new Water Purification technologies; • Identify the roles that various sectors of the economy (e.g., national government agencies, the private sector, educational and non-profit organizations) can play in the creation of new Water Purification technologies; and • Develop an expert group to review alternative Water Purification technologies. Toward these ends, we are now joined by a number of national and international organizations, each of which is contributing its own resources to a common end. This end includes assistance in developing novel Water treatment technologies as well as improving and sharpening the roadmap itself. © 2005 Elsevier B.V. All rights reserved.
