Why APAC Will Lead Glycolic Acid Market in Coming Years?

The amazing anti-aging chemical glycolic acid seems to do everything. It works wonders to exfoliate the face, diminish fine wrinkles, prevent acne, lighten dark spots, thicken the skin, and level out texture of the skin. In 2021, the global glycolic acid market was worth around $309.3 million value, which is predicted to touch $604.4 million by 2030, advancing at a 7.7% CAGR from 2021 to 2030.

Glycolic acid is a key component in skin care products but is also widely utilized in the electronics, oil and gas, and dyeing and tanning sectors. Boiler cleaners, concrete removers, and dairy farm tank cleaners have all made use of it. This is due to its primary traits, which include its small size, affinity for chelating calcium, powerful acidic property, and natural biodegradability.

Glycolic Acid Market

The glycolic acid market in APAC is expected to increase at an average annual rate of 8.1% in the coming years. This can be due to the region's rapidly increasing need for cosmetics. The growing number of working women, a change in their lifestyle, and a rise in self-awareness are all contributing to an increase in the need for personal care products. Additionally, professional women view skincare products as a need that gives them self-assurance in their looks. The majority of cosmetic users are women between the ages of 20 and 40.

According to the data, in the past, the personal care & cosmetics segment held the biggest share in the glycolic acid market, at 58.2% in the past years. This is because of the various application of glycolic acid in cosmetics and skincare products such as moisturizers, anti-aging creams, toners, wrinkle-removal treatments, and other hair care items.

Additionally, the need for skincare products is boosting the requirement for glycolic acid as a result of the rising disposable income, growing awareness of personal hygiene, and increasing desire among people to improve their appearance.

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How Does Rise in Disposable Income Leads to Green & Bio-Solvents Market Proliferation?

In 2021, the green & bio-solvents market stood at $3,128.5 million, and it is expected to generate $5,322.2 million in revenue by 2030, progressing at a rate of 6.1% CAGR, ascribed to the expansion of the industry due to rising health & environmental concerns of synthetic solvents. Moreover, the paints & coatings category generates revenue worth over $1 billion, due to the economic surge and population growth, resulting in the expansion of the automotive and construction industries. Both the industries are major consumers of paints & coatings. It is expected to experience snowballing demand for eco-friendly solvents in the near future.

The next-largest green & bio-solvents market share is acquired by adhesives, attributed to the growing requirement for the eco-friendly adhesives solution in both automotive and construction industries. Moreover, the population explosion in developing countries such as India & China leads to the advancement of major industries such as automotive, building & construction, and furniture resulting in an increased demand for bio-solvents.

The growing use of chemicals worldwide resulted in governments imposing multiple regulations to reduce the technologies used for paints and coatings manufacturing, resulting in the green & bio-solvents market propulsion. Synthetic solvents pose a great threat to the workers of factories. It includes various health risks such as eyes, nose, and skin irritation. Moreover, conventional solvents cause volatile organic compound emissions to the environment. Therefore, regulatory authorities are focusing on curbing the manufacturing of these solvents by controlling technologies used in their production. Companies are also investing to improve their production processes and hence reduce toxic emissions. 

North America captures significant green & big-solvents market share, and it is expected to garner $2.0 billion in revenue by 2030, advancing at a rate of 6% during the forecast period 2021-2030, attributed to the dominance of the market players in the region such as Cargill Incorporated, and Dow Chemical Co., and Gevo Inc., that have developed capabilities for eco-friendly and cost-effective solvents with their advanced product research. 

Thus, the demand for green & bio-solvents is rising to minimize the VOC emission to the environment caused by conventional solvents. 

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How Does Increase in the Requirement to Reduce Dependency on Fossil Fuels Impact Phase Change Materials Market?

In 2021, the phase change materials market amassed revenue of $1,775.5 million, and it is set to progress at a rate of 16.8% from 2021 to 2030, to reach $7,206.2 million by 2030. This is owed to the expansion of construction and packaging industries with a rising focus on green buildings. Moreover, 50% of the world’s energy demand is driven by heating usage and more than 60% of that demand is dispersed as waste heat. It results in global climate change, with increased chances for improvements by saving waste heat for further use. The increased requirement to reduce the dependency on fossil fuels in order to conserve energy and minimize GHG emissions has resulted in the development of phase change materials.

The rise in the construction of green buildings in China has led to a surge in demand for PCMs. The construction industry of the country has experienced bolstered growth in recent years surpassing the 5-billion-m2 completed floor area of buildings annually. In addition, it has emerged as the largest contributor to the GDP of China, outgrowing other industrial sectors.

Phase Change Materials Market

The building and construction category holds the most-significant phase change materials market share, of 35%, and it is expected to advance at a rate of 16% in the coming years. Due to the rise in the demand for low heating and cooling loads for residential buildings, the building envelope technologies have shown steady improvements. The large energy savings are experienced by the increased adoption of innovative building materials with active thermal components. 

In addition, Europe holds the greatest share of the phase change materials market, accounting for 40%, attributed to the inclination toward eco-friendly products, resulting in the proliferation of the PCM industry. Moreover, there are various initiatives taken by the European regulatory associations, to encourage the efficient building of mechanical solutions and increase the awareness of PCM applications that have caused a market boost. 

Therefore, the surge in green buildings and increased awareness of the environment resulting in reduced GHG emissions propel the market.

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Silicone Elastomers Market to Reach a Value of Around $16,425 Million by 2030

The size of the silicone elastomers market at a projected $8,3445 million in 2021, which will advance at a growth rate of almost 8% in the near future, to reach about $16,425 million by 2030. The industry is driven by the high requirement for silicone elastomers in the electrical & electronics sector, their better properties, and an elderly population, which is powering product requirements in the healthcare sector.

In 2021, construction had the largest share, at 42%, and it will maintain this position in the years to come. Silicone elastomers play an indispensable role in a diversity of building materials and equipment, like assembled building elements. Since the emphasis on enhanced construction eminence is rising, the competition is increasing in a more and more price-sensitive market. Concurrently, building companies must keep to the ever-stricter construction quality guidelines.

Silicone Elastomers Market

The silicone elastomers market is likewise driven by the high demand for these materials from the electronics and electrical industry. A diversity of grades is offered to offer flame retardation, heat resistance, low volatility for delicate components, protection from moisture, as well as adhesion to the variability of surfaces.

The Europe silicone elastomers market region held the largest share at around 35%, in 2021. The trend of plummeting the weight of the vehicles mainly driving the market. Silicone elastomers have the capability to supplement metals and other materials in vehicles, thus lowering their weight and improving fuel efficacy, and, eventually, lowering the emission of numerous pollutants, primarily CO2. Silicones retain their properties and, more importantly, guarantee that vehicles, aircraft, ships, and trains run efficiently and safely for long.

The increasing demand for elastomers is increasing in different industries, and other than that, there are various technological advancements as well.

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Why Will North America Dominate SOC as a Service Market?

 The major factor driving the global SOC as a service market is the rising count of cyberattacks and security threats. In 2021, the market stood at $4.4 billion, which is predicted to reach $11.8 billion by the end of this decade. In addition, the market will witness an 11.6% CAGR from 2021 to 2030. Furthermore, at least a 50% annual hike is observed in cyberattacks all around the world. Moreover, the market growth is owing to the work-from-home and BYOD trends, which is why the outbreak of COVID-19 had resulted in an increasing inclination toward SOCaaS solutions.

Within the type segment, the detection service category generated the highest revenue in 2021, accounting for an about 37% market share, and it will continue to show this trend during this decade. This can be attributed to the surging integration of digital technologies in all industries. Moreover, because people are sharing massive amounts of data and depending increasingly on digital information than ever before, the incidence of targeted attacks is increasing globally. To deal with this situation, the requirement for fraud detection solutions among several corporations is on the surge. 

SOC as a Service Market Size & Share Analysis Forecast, 2030

The SOC as a service market can be bifurcated into SMEs and large enterprises. The latter category comprises multinational enterprises, which are continuously developing and implementing the latest technologies to deal with all types of cyberattack, by detecting, preventing, and responding to it. Furthermore, there is a rising adoption of SOCaaS solutions by MNCs to enhance the security of financial resources, because they have numerous revenue streams and intricate corporate networks. Therefore, this category dominates the enterprise size segment of the industry.

In 2021, the BFSI sector ruled the SOC as a service market with at least 45% revenue, on account of being prone to cyberattacks because all it deals with is money, shares, and financial bonds. Furthermore, the BFSI is the target of at least 70% of the cyberattacks very year. Moreover, the count of breached bank accounts will surge to over 30 billion by 2030. Moreover, BFSI corporations are the most attractive of all kinds of companies for cybercriminals, losing about $6 million for every data breach on average.

The healthcare category, in the vertical segment of the SOC as a service market, is predicted to potentially grow in the coming years. This can be ascribed to the data records of healthcare organizations, which encompass every patient’s PII PCI data for billing purposes. Hence, there is a dire need to execute the security operation center as a service in this sector. Furthermore, unencrypted PII PCI data is transferred within laboratories, clinics, and hospitals, putting people’s lives in danger.

In 2021, North America dominated the SOC as a service market, generating approximately 40% of the global revenue, because it is home to the highest count of security operation centers as a service vendors on this planet. This is because of the unending number of cyberattacks and data breaches in this region. Moreover, the skyrocketing demand for cloud-based platforms, technologies, and apps will create a demand for stronger security solutions, because the data of corporations and customers, including information related on payments, is on these platforms and apps.

Hence, the rising concerns about data security among individuals and corporations will pave the way for market growth.


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Why Will Europe Dominate the Underfloor Heating Market?

The global underfloor heating market is driven by an increasing count of construction projects and surging awareness about economic heating solutions. In 2021, the market stood at $4,319.3 million, and it is predicted to touch $7,945.4 million by 2030. The market is expected to witness a 7.0% CAGR from 2021 to 2030, thereby generating extravagant opportunities for the market players in the future. Moreover, the U.K. market will grow at the swiftest CAGR in the coming years in Europe.

Geographically, Europe will rule the underfloor heating market, by advancing at a 7.0% CAGR in the coming years owing to extensive government support in an attempt to meet the environmental sustainability standards through an efficient energy system. The European government had lowered the carbon emissions significantly by imposing stringent rules and regulations. This will pave the way for a carbon-free environment by 2050. Furthermore, the dire need for the energy performance of buildings is being complemented by the New Building Energy Act of Germany.

Underfloor Heating Market

Based on offering, the hydronic underfloor heating system bifurcation is the larger. This can be credited to its reduced operational costs and the ability to generate more heat than the conventional electric system. Therefore, the bigger revenue share is held by this category, and it will show this trend in the forecast period as well by advancing at a 7.2% CAGR. The prominent European and North American countries have contributed extensively to the boom in the market due to a paradigm shift in the living standards of people with a rising disposable income.

The new installations category in the underfloor heating market will advance at a higher rate owing to surging awareness about lowering carbon emissions. For instance, the EE regulatory framework outlines actions and encompasses policies evolved by the EU to minimize greenhouse gases by more than 55% by 2030. Furthermore, underfloor heating systems are being used in residential and commercial infrastructure projects, including smart city projects, to achieve these goals. In addition, the retrofit installations will also not lag as they are very comfortable, apart from being an economic option.

The residential category will boom the underfloor heating market and account for about $4.0 billion of the total revenue by the end of this decade. This can be ascribed to its increasing deployment in residential sectors because of its ideal benefits. Thus, the installation of these systems goes hand in hand with rising house construction activities in well-developed nations, such as Canada and the U.S. nonetheless, the commercial category will also expand on account of effective floor heating in retail enterprises and workplaces.

Therefore, the rising number of residential and commercial projects will exert a push on the revenue being generated in the market by offering lucrative opportunities to industry participants.

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Usage of Radiation Hardened Electronics in Space

 Electronic devices, single-board computer CPUs, and sensors that have been radiation-hardened and developed to be less prone to harm from radiation exposure and extremely high temperatures are known as rad-hard electronics. Radiation is undoubtedly a key design consideration for radiation-hardened electronics, but it is not the sole material for which radiation tolerance/survivability and radiation hardening testing are crucial.

Ordinary concrete is particularly vulnerable to neutron activation and radiation harm, and excessive radiation exposure can change the physical characteristics of concrete, rendering a concrete bunker structurally unsafe. Because of this risk, nuclear reactor facilities that won't be as vulnerable to high radiation levels must be designed and built using specialized radiation-tolerant concrete.

Radiation Hardened Electronics Market Size & Share Analysis Forecast, 2030

The market is being driven by the high demand for radiation-hardened components for airplanes, medical equipment, and nuclear power plants. This is why, the radiation-hardened electronics market is predicted to touch $2,104.2 million by 2030, progressing at a 3.5% CAGR from 2021 to 2030. Due to government efforts and investments made by entrepreneurs working in this domain internationally, the space industry is growing.

Get More Insights: Radiation Hardened Electronics Market Revenue Estimation and Growth Forecast Report

Reconfigurable radiation-hardened devices are in higher demand, which presents market opportunities for the participants. These tools enable satellite users to alter the scope of their operations while in orbit, significantly lowering the cost of reconfiguration. Top companies in the sector are involved in the creation of new software. electronics with specified radiation protection.

The demand for radiation-hardened electronics is mostly driven by the necessity of radiation-hardened electronics for space applications, and it will grow at the fastest pace in the coming years. This is mostly due to the growth in international ISR activities, which is pressuring companies to provide more durable and dependable electrical components for spacecraft. Additionally, the need for radiation-hardened electronics is being driven by the swelling data volume that is crowding the satellite spectrum due to the expanding worldwide internet user population.

The aerospace and defense industries are largely in need of radiation hardening and survival testing. Infrastructure and defense systems that must continue to operate in the wake of a nuclear explosion depend on radiation-hardened electronics because they must be tolerant of the high radiation levels caused by the explosion.

Additionally, such radiation-hardened electronics and systems must be free to operate in the case of secondary radiation impacts, including an electromagnetic pulse, which is a strong dosage of electromagnetic radiation. We need radiation-hardened electronics to be utilized in the design for that functionality to be sustained through an incident where such systems are exposed to high amounts of radiation.

The tremendous volumes of radiation that solar flares emit are one of the biggest risks to our aerospace and military satellite systems in orbit. Solar flares with sufficient energy can even damage electronics on Earth's surface, resulting in outages and system failures.

Due to the absence of an atmosphere to shield them, spacecraft like satellites, space stations, and shuttles are particularly susceptible to solar flares. Radiation hardening measures are essential for shielding human passengers from the effects of electromagnetic exposure to radiation as well as preventing damage to the electrical systems of spacecraft from space radiation.


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