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nmsc-market-pulse · 4 months

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Exploring Emerging Applications in the 1-Decene Market

Introduction

1-Decene, a key alpha-olefin compound, has long been revered for its diverse applications across various industries. From plastics to detergents, its unique chemical properties make it an indispensable ingredient in countless manufacturing processes. However, as industries evolve and technology advances, new applications for 1-Decene are continually emerging, reshaping the landscape of its market.

In this article, we delve into the burgeoning realm of emerging applications for 1-Decene, exploring recent developments and their implications for stakeholders.

According to Next Move Strategy Consulting, the global 1-Decene Market is predicted to reach USD 1034.0 million by 2030 with a CAGR of 5.8% from 2022-2030.

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Understanding the 1-Decene Market

Before delving into emerging applications, it's crucial to grasp the current state of the 1-Decene market. With its widespread use in the production of polymers, surfactants, and lubricants, the demand for 1-Decene has been steadily rising. Factors such as urbanization, industrialization, and increasing consumer demands for high-performance products continue to drive market growth.

According to recent market analyses, the global 1-Decene market is projected to witness substantial expansion in the coming years, with a compound annual growth rate (CAGR) exceeding 4%. This growth trajectory underscores the compound's pivotal role in various industries and sets the stage for exploring new avenues of application.

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Emerging Applications of 1-Decene

Adhesives and Sealants: One of the burgeoning applications of 1-Decene lies in the adhesives and sealants industry. Its ability to enhance adhesion and improve the performance of adhesive formulations has garnered attention from manufacturers seeking to develop high-strength, durable bonding solutions.

Recent advancements in polymer chemistry have unlocked new opportunities for incorporating 1-Decene into adhesive formulations, catering to diverse applications ranging from automotive assembly to construction.

Recent News: Leading adhesive manufacturers have announced successful trials of 1-Decene-based formulations, demonstrating superior bonding strength and resistance to environmental stressors. This development signals a promising future for 1-Decene in the adhesives and sealants market, driving demand for the compound and prompting further innovation.

Personal Care Products: In the realm of personal care products, 1-Decene is increasingly being utilized as a versatile ingredient in formulations such as shampoos, lotions, and cosmetics. Its emollient properties, coupled with its compatibility with a wide range of other ingredients, make it an ideal choice for enhancing product texture, stability, and performance.

Furthermore, the growing consumer preference for natural and sustainable ingredients has propelled the use of 1-Decene derived from renewable sources in eco-friendly personal care formulations.

Recent News: Major cosmetic brands have announced plans to incorporate sustainably sourced 1-Decene into their product lines, capitalizing on consumer demand for clean beauty solutions. This trend reflects a shift towards natural ingredients and underscores the potential of 1-Decene to revolutionize the personal care industry.

Agrochemicals and Crop Protection: The agricultural sector represents another promising frontier for the application of 1-Decene. As agricultural practices evolve to meet the challenges of feeding a growing global population, there is an increasing need for innovative crop protection solutions. 1-Decene's role as a precursor in the synthesis of specialty chemicals used in herbicides, insecticides, and fungicides positions it as a valuable asset in the development of next-generation agrochemical formulations.

Recent News: Agrochemical companies have announced successful field trials of novel formulations incorporating 1-Decene-derived active ingredients, demonstrating enhanced efficacy and environmental safety. This breakthrough highlights the potential of 1-Decene to address pressing challenges in agriculture while minimizing ecological impact.

Construction Materials: In the construction industry, 1-Decene is finding applications in the development of advanced materials such as thermoplastic elastomers, sealants, and waterproofing membranes. Its compatibility with various polymers and its ability to impart desirable properties such as flexibility, durability, and weather resistance make it a sought-after additive in construction formulations.

Recent innovations in polymer chemistry have led to the creation of 1-Decene-based compounds that offer superior performance and longevity, contributing to the construction sector's quest for sustainable and high-performance materials.

Recent News: Construction material manufacturers have reported successful integration of 1-Decene-based additives into their product lines, resulting in enhanced durability and weatherability of building materials. This development signals a paradigm shift towards the adoption of advanced materials in construction applications, driven by the unique properties of 1-Decene and its derivatives.

Fuel Additives: With growing concerns over environmental pollution and the need to reduce emissions, there is a rising demand for cleaner-burning fuels and fuel additives. 1-Decene's chemical structure makes it an ideal candidate for use in fuel additives aimed at improving combustion efficiency, reducing engine deposits, and lowering exhaust emissions.

Recent advancements in fuel additive technology have demonstrated the efficacy of 1-Decene-derived compounds in enhancing fuel performance while meeting stringent environmental regulations.

Recent News: Energy companies and fuel additive manufacturers have unveiled new formulations incorporating 1-Decene-based additives, resulting in improved fuel economy and reduced emissions in internal combustion engines. This breakthrough underscores the potential of 1-Decene to play a crucial role in the transition towards cleaner and more sustainable transportation fuels.

Electronics and Electrical Components: The electronics industry is increasingly incorporating 1-Decene-based materials in the production of electrical insulation materials, wire coatings, and semiconductor encapsulants. The compound's excellent dielectric properties, thermal stability, and chemical resistance make it well-suited for applications requiring high-performance insulation and protection against electrical hazards. Recent advancements in polymer science have enabled the development of 1-Decene-based materials with tailored properties to meet the stringent requirements of modern electronics manufacturing.

Recent News: Electronics manufacturers have announced successful integration of 1-Decene-based polymers into their production processes, resulting in enhanced reliability and performance of electronic components. This development highlights the role of 1-Decene in driving innovation in the electronics industry and underscores its potential to revolutionize the design and manufacturing of next-generation electronic devices.

Medical and Healthcare Products: The medical and healthcare sector is exploring the use of 1-Decene in the production of specialty materials such as medical-grade adhesives, polymer coatings for medical devices, and drug delivery systems. The compound's biocompatibility, inertness, and tunable properties make it an attractive option for applications requiring safe and reliable materials for use in contact with biological tissues and fluids. Recent advancements in biomaterials science have paved the way for the development of 1-Decene-based materials that meet the stringent requirements of medical and healthcare applications.

Recent News: Pharmaceutical companies and medical device manufacturers have announced successful trials of 1-Decene-based materials in various healthcare applications, demonstrating their biocompatibility and efficacy. This development opens up new possibilities for the use of 1-Decene in medical devices, implants, and drug delivery systems, offering enhanced performance and patient outcomes in the field of healthcare.Top of Form

Conclusion

The emergence of new applications for 1-Decene underscores its versatility and adaptability in meeting the evolving needs of various industries. From adhesive technology to personal care and agriculture, the compound's unique properties continue to unlock new opportunities for innovation and growth.

As industries embrace sustainability and strive for enhanced performance, 1-Decene is poised to play a pivotal role in shaping the future of countless products and processes. By staying abreast of emerging trends and harnessing the potential of 1-Decene, stakeholders can capitalize on market opportunities and drive transformative change across diverse sectors.

#1-decene market #materials and chemicals #chemical innovations #market research #market trends #industry insights #global market

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trendtrackershq · 6 months

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Shielding Tomorrow: Exploring the Anti-Corrosion Coatings Market

The global Anti-Corrosion Coating Market size is predicted to reach USD 63.72 billion by 2030, witnessing a CAGR of 7.9% from 2020-2030.

The global anti-corrosion coating market observes lucrative growth due to factors such as increasing government initiatives to improve public infrastructures, favorable regulatory standards for products with low Volatile Organic Compound (VOC), rising awareness about ecofriendly products, as well as augmentation in residential and commercial projects.

#anti-corossion coatings #materials and chemicals #market research #market trends #business inisights #industry

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fawndollie · 6 months

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HUGE music blinkie dump.. found some mayhem ones too which i was surprised about!!

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sexy-pigeon · 7 months

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just something i find funny watching my chem interviews lol

#take a shot every time you see frank materialize next to g #my chemical romance #frank iero #gerard way #ray toro #mikey way #mcr #art #digital art #comics

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parasitespngs · 6 months

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look alive, sunshine

#carrd material #transparent png #aesthetic #transparent #random moodboard #messy moodboard #pngs #random png #fashion png #mcr #my chemical romance #danger days

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draculasdaughterrr · 1 month

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⭒ ⋆ 🍷 red and black blinkies ⋆ฺ࿐♣️ ⁎˚

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foolscapper · 1 year

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heard you guys like wet gerard way

#mcr #my chemical romance #gerard way #safe and sound #btw gotta say #kyosuke himuro????#quality dilf material in this video #no wonder gerard collabed

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charyou-tree · 22 days

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Is it so hard for a girl to buy a wafer of CVD diamond the size of a credit card?

#synthetic diamond #chemical vapor deposition #materials science

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somecunttookmyurl · 1 year

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your posts today are how i found out if i ever went to japan i wouldn't be able to take my medication even with a letter (adderall)

the controlled substances list for japan is hysterical and bizarre and only gets funnier the longer you look at it

-there are only FOUR substances on planet earth that are straight up prohibited like cannot bring them in legally even with the correct paperwork

-they are heroin, methamphetamine, amphetamine (adderall).... and cannabis

-there are 3 laws that collectively deal with substances. the narcotics & psychotropics law, the stimulants & stimulants raw materials law.... and the cannabis law

-the latter 2 were clearly drafted later because the only things defined as "stimulants" are methamphetamine, amphetamine, and lisdexamphetamine. that's not a stimulants law that's an amphetamine law

-this means cocaine and MDMA are classed as narcotics not stimulants

-this means that technically, hypothetically, you could import cocaine easier than adderall

-THC is not defined as a cannabis product

-You can bring in THC as long as it is not derived from cannabis. Unsure how you prove that

-cannabidiol (CBD) is not on there at all

-so you can bring in CBD and THC but not cannabis

-flatpack cannabis. some assembly required.

-the result of this list is that cannabis is more illegal than cocaine, morphine, barbituates, MDMA, LSD, GHB, and fentanyl

-adderall is also more illegal than any of those

-dexamfetamine, which is the same drug as lisdexamfetamine but shorter acting (the body converts lisdexamfetamine into dexamfetamine that's why it's slower release) is not on the list at all

-on a legal technicality i will not be arguing at the border i could bring in dexamfetamine without any paperwork at all because they forgot it existed

-levoamphetamine also is not on the list

-lisdexamfetamine is the only thing labelled as a "stimulants raw material" the two actual stimulants raw materials (ie, component parts of amphetamine) are not on the list. lisdexamfetamine is not a component part of adderall, it's an altered version of a component part.

-technically you can make DIY adderall on the other side of the gate

-it would still be easier to get in with cocaine

#SORRY correction lisdexamfetamine is the only like. complete drug assigned SRM #the others are literal chemicals like. phenylacetone #but the point is neither of the actual complete drugs that are raw materials are on the list at all #and the one that is... isn't technically a raw material

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nmsc-market-pulse · 5 months

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Activated Carbon in Green Building: Sustainable Solutions for Indoor Air Quality

Introduction:

In the pursuit of sustainable construction practices, green building initiatives are gaining momentum worldwide. Among the various components contributing to green buildings, indoor air quality (IAQ) plays a crucial role in ensuring occupant health and comfort. Activated carbon, with its exceptional adsorption properties, has emerged as a sustainable solution for improving IAQ in green buildings. This article explores the role of activated carbon in green building design, its benefits for indoor air purification, and its impact on creating healthier living environments.

According to Next Move Strategy Consulting, the global Activated Carbon Market is predicted to reach USD 10.85 billion by 2030 with a CAGR of 7.8% from 2024-2030.

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Understanding Activated Carbon: Activated carbon, also known as activated charcoal, is a highly porous material derived from carbonaceous substances such as coconut shells, wood, or coal. Through a process of activation, typically involving high temperatures and steam, the carbon material undergoes structural changes, resulting in a vast network of pores and a large surface area. This unique structure enables activated carbon to adsorb a wide range of contaminants, including volatile organic compounds (VOCs), odors, and airborne pollutants, making it an ideal choice for indoor air purification in green buildings.

Benefits of Activated Carbon in Green Building: Activated carbon offers several advantages for improving IAQ in green buildings. Firstly, it effectively removes harmful pollutants and allergens from the indoor environment, including VOCs emitted by building materials, furniture, and cleaning products. By adsorbing these contaminants, activated carbon helps reduce the risk of respiratory problems, allergies, and other health issues associated with poor indoor air quality. Additionally, activated carbon filters can trap fine particulate matter (PM2.5) and airborne pathogens, further enhancing indoor air cleanliness and occupant well-being.

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Moreover, activated carbon is a sustainable and eco-friendly material, aligning with the principles of green building design. It can be derived from renewable sources such as coconut shells or wood waste, minimizing environmental impact and promoting resource conservation. Activated carbon filters can also be recycled or regenerated, extending their lifespan and reducing waste generation. By incorporating activated carbon filtration systems into green building projects, architects and developers can enhance sustainability credentials while ensuring superior indoor air quality for occupants.

Geographical analysis

Asia-Pacific dominates the activated carbon and it is convincingly expected to remain dominant in the Activated Carbon Market throughout the forecast period. China, Japan, and India are major consuming countries that are expected to lead the market in this region for the next several years.Also, the upsurge in the population of the Asia-Pacific region has led to a rise in demand for pure and safe potable water. This, coupled with the availability of raw materials and other resources will drive the growth of the market in this region.

Applications of Activated Carbon in Green Buildings: Activated carbon finds diverse applications in green building design, ranging from ventilation systems to air purifiers and HVAC filters. In ventilation systems, activated carbon filters can be integrated to capture and neutralize indoor air pollutants before recirculating clean air into living spaces. Air purifiers equipped with activated carbon filters are commonly used in residential and commercial settings to remove odors, smoke, and other contaminants from indoor air. Additionally, activated carbon-impregnated HVAC filters are increasingly being adopted in green buildings to improve IAQ and energy efficiency simultaneously.

Furthermore, activated carbon can be incorporated into building materials and finishes to mitigate indoor air pollution. For example, paints and coatings formulated with activated carbon can help absorb VOCs emitted by interior surfaces, contributing to healthier indoor environments. Similarly, furniture and upholstery treated with activated carbon can reduce off-gassing of harmful chemicals, promoting occupant well-being and comfort in green buildings.

Case Studies and Success Stories: Numerous green building projects worldwide have successfully implemented activated carbon solutions to enhance indoor air quality and occupant comfort. For instance, the Bullitt Center in Seattle, Washington, a flagship green building certified as a Living Building, utilizes activated carbon filtration systems in its natural ventilation strategy to maintain superior indoor air quality without compromising energy efficiency. Similarly, the Pixel Building in Melbourne, Australia, incorporates activated carbon-impregnated facade panels to filter outdoor air and create a healthy indoor environment for occupants.

These case studies highlight the effectiveness of activated carbon in green building design and its positive impact on occupant health and well-being. By integrating activated carbon solutions into their projects, architects, developers, and building owners can achieve the dual goals of sustainability and superior indoor air quality, thus contributing to healthier, more comfortable living and working environments.

Future Outlook and Conclusion: As the importance of indoor air quality continues to gain prominence in green building design, the demand for activated carbon solutions is expected to rise. Innovations in activated carbon technology, such as the development of advanced filtration media and regeneration techniques, will further enhance its effectiveness and sustainability in indoor air purification. Additionally, with increasing awareness of the health benefits associated with clean indoor air, building codes and standards may evolve to incorporate requirements for IAQ management, driving the adoption of activated carbon solutions in green buildings worldwide.

Competitive Landscape

The activated carbon market is highly segmented with several global and regional players such as Cabot Corporation, Osaka Gas Chemicals and Co. Ltd., Haycarb Pvt Ltd., Ingevity Corporation, Donao Carbon GmbH, Universal Carbons, Calgon Carbon Corporation, Activated Carbon Technologies, Adsorbent Carbons, Jacobi Carbons AB, Kureha Corporation, Kuraray Ltd., and Oxbow Activated Carbons. These key market players are adopting several strategies such as joint ventures, expansion, mergers and acquisitions, and partnerships to sustain their dominance in the global activated carbon market.

Conclusion

Activated carbon holds tremendous potential as a sustainable solution for improving indoor air quality in green buildings. Its proven effectiveness in removing pollutants, eco-friendly nature, and versatility make it an invaluable tool for architects, developers, and building professionals striving to create healthier, more sustainable built environments. By embracing activated carbon solutions, green building projects can achieve optimal IAQ standards while advancing the goals of sustainability, occupant health, and well-being.

#activated carbon #carbon #materials and chemicals #market analysis #industry insights

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mortiic · 2 months

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⠀⠀⠀⠀⠀⠀⠀۪⠀⠀⠀⠀𝄫⠀⠀⠀◌⠀⠀⠀🏹⠀⠀⠀ׄ⠀⠀⠀♡ᰈ

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infofeasting · 2 years

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Understanding Drivers and Challenges of the Acoustic Insulation Market:

Understand the ins and outs of the acoustic insulation market with this comprehensive guide. Learn about drivers, challenges, trends, and more!

Acoustic Insulation Market is a growing sector that is set to become increasingly prevalent as the push for more energy-efficient buildings and infrastructure grows. This comprehensive guide outlines all the important aspects of this market, including drivers, challenges, trends, and more.

Examining Trends in the Acoustic Insulation Market:

As the acoustic insulation market continues to grow, there are a number of trends emerging in the industry. One such trend is the emphasis on sustainable products and materials, both for homeowners looking to reduce their energy costs and businesses who want to limit their environmental footprint. Increasingly, these two goals are being balanced with noise reduction capabilities when selecting an acoustic insulation product. Additionally, new technologies like virtual reality are helping architects and building owners envision acoustically optimized spaces at the design stage.

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As the acoustic insulation market continues to expand and develop, it is clear that this trend of sustainability-meets-noise reduction will continue to impact manufacturers and buyers in the industry. Manufacturers are increasingly looking for materials that offer superior acoustic insulation performance while being kinder to the environment.

On the other hand, buyers are concerned with possible environmental implications when deciding on a suitable material for their projects. With this in mind, it is important to keep up with market trends in order to ensure that you are Selecting an acoustic insulation product that is both energy efficient and has good sound absorption capabilities. It’s also important to be aware of technological advances like virtual reality when designing spaces so you can get an early glimpse into how spaces will sound before installation begins.

Determine Challenges Faced in The Acoustic Insulation Market:

While the acoustic insulation market offers a range of benefits for home and business owners, there are several challenges that contractors come up against when installing these materials. One major challenge arises from the fact that acoustic insulation products often require special treatment to ensure they don’t interfere with other adjacent building components.

Additionally, accurate measurements must be taken during the installation process to ensure effective sound dampening. Furthermore, selecting the right product is critical since some materials are better suited for certain types of spaces than others.

On top of these practical challenges, the cost associated with installing acoustic insulation is often a difficult hurdle to overcome. Fortunately, many manufacturers offer incentives for those looking to make noise-free environments more financially accessible.

Also, depending on the type of acoustic materials used and the size of space to be insulated, some contractors offer installation services that cut down on labor costs. Good quality acoustic insulation will help reduce noise levels while also creating an improved interior atmosphere. Taking all these factors into account should help buyers decide if investing in acoustic insulation is right for them.

Analyze Major Players:

Rockwool International, Saint-Gobain, Knauf Insulation, InsulTech, Armacell International, Soprema, Huntsman, Owens Corning, Kingspan Group, and Johns Manville are a few of the industry participants active in the worldwide acoustic insulation market. To expand their product range and geographical reach, the major market players are actively engaging in R&D projects, product and technology advancements, and industrial alliances.

Overview of the Acoustic Insulation Market:

The acoustic insulation market has been on the rise for several decades, with more and more consumers using products to lower noise transmission in buildings. This market is primarily driven by consumer interest in noise control, along with increasingly stringent regulations surrounding sound pollution.

Additionally, trends towards contemporary interior designs have helped fuel demand for acoustic insulation solutions that look as well as perform effectively. Acoustic insulation is used in various spaces such as homes, offices, schools, medical facilities and many other types of buildings. As a result, the market is projected to continue growing over the course of the next few years.

The acoustic insulation market is comprised of various materials such as fiberglass, foam, cellulose fiber and mineral wool. Each of these have their own unique properties and offer varying levels of soundproofing. Many are now incorporating specialized additives to increase their noise reduction capabilities while also boosting their thermal performance.

Furthermore, standards developed by organizations such as ASTM International have helped bring clarity and consistency to the acoustic insulation industry. As a result, consumer confidence in purchasing these products has increased significantly.

Identify Market Segments and Understand Their Drivers and Challenges:

It is important for market participants to identify the different segments within the acoustic insulation market, as well as understand their drivers and challenges. By taking into account customer needs and preferences, companies are able to tailor their products to meet the demand of each segment.

For instance, rock wool insulation has emerged as a cost effective solution for commercial applications due to its use in more demanding requirements such as fire containment. On the other hand, fiberglass insulation is an ideal choice for residential applications where comfort, low noise levels and affordability are the main purposes. Identifying these segments and understanding their needs will help ensure that companies are maximizing potential opportunities in this growing market.

One of the most important aspects with acoustic insulation is to understand how the sound from the outside environment interacts with internal building design. For example, high levels of soundproofing can reduce volume levels by up to ten decibels.

Therefore, market participants must consider factors such as construction design and product specifications to ensure that their product not only meets but exceeds customer requirements. Furthermore, market research should also consider trends in automotive noise reduction in order to maintain competitive advantage within this sector.

Through detailed market segmentation, acoustic insulation suppliers can ensure they’re addressing each segment’s individual needs while securing their position within the wider acoustic insulation market.

Identify Growth Opportunities:

Companies that want to succeed in the dynamic acoustic insulation sector must analyze leading players in this market. It’s important to identify their portfolios, pricing strategies, and product innovations. Compare these key competitors and identify gaps in the market you can exploit. This allows businesses to anticipate shifts in customer preferences and adjust their strategy accordingly. Additionally, understanding major players active in a specific region could help companies narrow down potential expansion opportunities.

Another critical factor to consider is the range of acoustic insulation products currently available. Analyzing the pros and cons of each product can help businesses discern which ones offer a competitive advantage. This type of market insights data can help companies strengthen their product lineup and consequently, boost their sales in an increasingly crowded market. Additionally, more detailed information about material supplies and trends can reveal potential partnerships that could help them further develop products with utmost efficiency.

#acoustic insulation #stone wool #glass wool #plastic foam #building and construction #transportation #energy #utilities #oil and gas #materials and chemicals

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mindblowingscience · 9 months

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A study published in the Chemical Engineering Journal describes a strategy to produce a material based on zinc oxide (ZnO) capable of degrading sertraline, an antidepressant that has been detected, like other drugs, in groundwater worldwide and is considered an emerging pollutant. This kind of substance has certain physicochemical properties that hinder removal by conventional wastewater treatment methods. The research was conducted in Brazil by scientists at the Center for Development of Functional Materials (CDMF), the Brazilian Agricultural Research Corporation (EMBRAPA), the Federal University of Alfenas (UNIFIL), and the Federal University of Paraíba (UFPB).

#Science #Chemistry #Chemical Engineering #Materials Science #Sertraline #Water

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z0mb1tch · 1 month

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╰➤ edit of : party poison / gerard way (danger days / my chemical romance)

╰┈➤ sources : i genuinely do not remember i'm so sorry-

╰┈┈➤ notes : made this forever ago for an event that i didn't actually end up submitting it to (i have the attention span of a goldfish) but i still like it so y'know.

#1'm n0t d34d 1 0nly dr3ss th4t w4y; graphics #rentry #rentry resources #rentry material #rentry decor #rentry graphics #carrd #carrd resources #carrd material #carrd decor #carrd graphics #party poison #danger days #danger days the true lives of the fabulous killjoys #gerard way #my chemical romance #mcr

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parasitespngs · 6 months

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so gimme all ur poison n gimme all ur pills

#carrd material #transparent png #aesthetic #transparent #random moodboard #messy moodboard #pngs #random png #fashion png #goth #goth aesthetic #emo #2000s emo #mcr #my chemical romance

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materialsscienceandengineering · 9 days

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Aligned array of nanotubes

Processing Chemical vapour deposition onto a quartz substrate, using a fine solution of ferrocene dissolved in toluene Applications Such architectures may be of interest as nanocomposites for use in nanodevices. More generally, carbon nanotubes may be used for hydrogen storage or for fuel cell applications Sample preparation The specimen has been sputter-coated with gold to avoid charging in the SEM Technique Scanning electron microscopy (SEM) Length bar 25 μm Further information Chemical vapour deposition (CVD) allows the synthesis of high purity nanotubes of controlled length and diameter. The nanotubes in this specimen were deposited on quartz using ferrocene dissolved in toluene. They are approximately 40 nm in diameter and 60 microns long. Contributor C Singh Organisation Department of Materials Science and Metallurgy, University of Cambridge

Source.

#Materials Science #Science #Scanning electron microscopy #Chemical vapor deposition #Carbon nanotubes #Nanotechnology #Carbon #Nanotubes #Magnified view #DoITPoMS #University of Cambridge

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