Skip to main content

Nanoporous Materials-Transition from Atom to Solid, Supports porous structure: Evolving Technology, Trends and industry Analysis – 2016 - 2023

Nanoporous materials comprises of regular organic or inorganic framework that supports a porous structure. The size of these pores is primarily between 100 nanometers and can even be smaller. Nanoporous materials are classified into two broad categories including bulk materials and membranes. Nanoporous membranes include cell membranes while activated carbon and zeolites are examples of bulk nanoporous membranes. Nanoporous materials are manufactured out of natural raw materials; however, artificial nanoporous materials can also be produced. Nanoporous materials with evenly sized pores have the ability of letting only certain substances pass through, while blocking others. Nanoporous materials are sub divided into three types including microporous materials, mesoporous materials and macroporous materials.

Nanoporous materials are used as adsorbents and ion exchangers, they are also employed in the catalysis process, in nano-reactors, guest-host interactions, as a low dielectric constant mediate. In addition, nanoporous materials are also employed in a wide range of biomedical processes including decontamination, as an antibacterial agent, in the slow release of drugs and as a filter in hemodialysis.

Moreover, nanoporous materials are of technological and scientific importance owing to their ability to absorb and cooperate with ions, atoms, molecules on their pore space and their sizable interior surfaces. Zeolites are the most widely used nanoporous materials and are the backbone of the already existing large-scale application segments in key sectors of the chemical industry. The application of zeolites range from high-end catalyst supports to detergent builders specifically in the petroleum and the chemical industry.  

Get the PDF Brochure for more Professional and Technical industry insights:

Some of the key driver of the nanoporous material market is its use in the biomedical industry. The nanoporous industry is a mature industry with a wide range of products having an array of applications and is employed in various industries including the chemical industry and the biomedical industry. However owing to the expanded scope, applicability, environmental rules, and regulations coupled with improved living standards and lifestyles of consumers around the world are stimulating increasing demand for nanoporous products. Furthermore, newly introduced specialized nanoporous adsorbent products are creating novel market opportunities in the electronics manufacturing industry and in the biomedical sector. 

The demand for nanoporous materials has been the highest in North America owing to the increase in emerging technologies in the biomedical industry and the fast growing chemical industry. However, the nanoporous material industry is expected to be mature over the forecast period. Europe follows North America in the nanoporous materials industry. Owing to the growing chemical industries, the stringent rules and regulations in Europe and the wide scope of applications of nanopowders materials, the demand for these materials is expected to increase over the projected period.


In addition, the North American region and the European regions prefer nanoporous materials over other materials as these materials are usually manufactured from natural raw materials and do not have rules and regulations put forth by their respective governments concerning their use either as catalysts or in the biomedical industry as decontamination or antibacterial agents. The demand of nanoporous materials in the Asia Pacific region is expected to increase during the projected period owing to the introduction of new technologies and the high number of chemical industries especially in emerging countries such as India and China. 

Some of the key companies operating in the nanoporous materials market include Albemarle Corp., American Colloid Company, Nanocor Inc., BASF SE, BASF Catalyst, ExxonMobil Chemical and Cloud Mining Company among others.
This research report analyzes this market on the basis of its market segments, major geographies, and current market trends. Geographies analyzed under this research report include 
  • North America 
  • Asia Pacific 
  • Europe
  • Middle East and Africa
  • Latin America
This report provides comprehensive analysis of 
  • Market growth drivers 
  • Factors limiting market growth
  • Current market trends 
  • Market structure
  • Market projections for upcoming years 
This report is a complete study of current trends in the market, industry growth drivers, and restraints. It provides market projections for the coming years. It includes analysis of recent developments in technology, Porter’s five force model analysis and detailed profiles of top industry players. The report also includes a review of micro and macro factors essential for the existing market players and new entrants along with detailed value chain analysis. 

About Us
Transparency Market Research (TMR) is a global market intelligence company providing business information reports and services. The company’s exclusive blend of quantitative forecasting and trend analysis provides forward-looking insights for decision makers. TMR’s experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.
TMR’s data repository is continuously updated and revised by a team of research experts so that it always reflects the latest trends and information. With extensive research and analysis capabilities, TMR employs rigorous primary and secondary research techniques to develop distinctive data sets and research material for business reports.

Comments

Popular posts from this blog

Superabrasives (Turning, Cutting, Buffing, Drilling, Boring, Grinding) Market Research Report 2025

An abrasive is a material which molds or provides finishing to a work piece through a process which includes buffing, grinding, cutting, as well as polishing. Abrasion typically depends on the difference in the hardness of the material and the abrasive (with the latter being the harder of the two). Unlike regular abrasion where any two solid materials that repeatedly rub against each other tend to wear away, superabrasives possess the kind of hardness that enables them to stay usable for a longer period of time. On the basis of hardness, the top two superabrasives include diamond and cubic boron nitride (CBN). Industrial diamonds used as superabrasives are exceptionally hard materials. However, they display several technological limitations. For instance, when a diamond comes in contact with a ferrous alloy such as steel or a nickel superalloy, the resulting formation of carbide leads to its abrasion. Also, a diamond-containing tool can only be used at moderate temperatures a

Industrial Lubricants Market: Strong Demand Across Automotive Industry, Trends To 2025

Lubricants refer to the organic or inorganic material primarily being use to decrease friction between two surfaces in contact. Lubricants play a key role in several industries as well as in commercial and residential sectors. One of their most common uses is in the lubrication of bearings and gears, allowing for their easy movement at high speeds, without loss in energy, prevent excessive generation of heat, or most importantly, prevent damage that would be caused otherwise. Industrial lubricants are, therefore, essential in enhancing the overall efficiency of a machine that contains moving parts in contact with one another. The global industrial lubricants market is currently expanding at a solid growth rate, driven by several factors and spearheaded by the likes of BP, Total, Chevron Corporation, ExxonMobil, and Shell. Browse Market Research Report @  http://www.transparencymarketresearch.com/industrial-lubricants-market.html What Impact has the Oil and Gas Industry Had

Rapid Prototyping Market - Rapidly Gaining Importance in Aerospace Sector, Research By 2024

Rapid prototyping is a technique in which the physical modeling of a design is done with the help of specialized machining technology. It was developed initially in the mid-1980s, the principle used in this technology is of solid modeling with the help of computer programs (i.e. CAD). Solid modeling makes use of computer aided-design (CAD) data to completely describe not just the external shape of parts or equipment, but its interior volume as well as the outside surfaces. The computer model is sliced into thin layers and the part of the product or commodity to be modelled or developed as per the requirement, is eventually fabricated by adding layers onto each other. Obtain Report Details @   http://www.transparencymarketresearch.com/rapid-prototyping-market.html The primary benefit of the system is that almost any shape can be manufactured using computerized programs. Time and money savings vary from 50% to 90% compared to conventional systems. Types of rapid prototypi