市場調查報告書
商品編碼
1447053
2030 年銀奈米粒子市場預測:按類型、合成方法、應用和地區分類的全球分析Silver Nanoparticle Market Forecasts to 2030 - Global Analysis By Type (Spherical Silver Nanoparticles, Rod Shaped Silver Nanoparticles, Triangular Silver Nanoparticles and Other Types), Synthesis Method, Application and By Geography |
根據 Stratistics MRC 的數據,2023 年全球銀奈米粒子市場規模為 24 億美元,預計在預測期內將以 17.6% 的年複合成長率成長,到 2030 年達到 76 億美元。
銀奈米顆粒表現出獨特的性能,如抗菌、導電和光學性能,使其在各種產品和工藝中廣受歡迎。此外,奈米銀顆粒因其抗菌特性而被用於紡織產品中,以增強醫用紡織品和運動服布料的性能。這些奈米顆粒的尺寸通常為 1 至 100 奈米,由於尺寸小、表面積與體積比高,因此具有獨特的物理和化學性質。
根據美國國家生物技術資訊中心 (NCBI) 2020 年 7 月的一篇報導,這些生物參與透過生物合成生產銀奈米粒子,使得該過程經濟且環保。
紡織業需求不斷成長
銀奈米粒子具有顯著的抗菌性能,因此在各種紡織品應用中需求量大。隨著消費者越來越重視衛生和健康產品,紡織業正在尋求創新的解決方案,將抗菌功能嵌入到織物中,從而增加其吸引力。銀奈米粒子提供了一種多功能解決方案,可以生產抑制細菌和真菌生長、減少異味並促進清潔的抗菌紡織品。此外,將銀奈米顆粒納入紡織產品中可以防止微生物劣化,延長產品壽命,並透過減少廢棄物為永續做出貢獻。
製造成本高
銀奈米粒子的合成通常涉及複雜且資源集中的過程,包括專用設備、原料以及對溫度和pH等反應參數的精確控制。高成本可能會阻礙潛在員工的聘用,尤其是在成本效益至關重要的行業。不斷創新以提高生產效率和降低成本對於奈米銀在各個領域的廣泛採用至關重要。然而,確保奈米顆粒生產的品質和一致性會帶來額外的複雜性和成本。
奈米科技的進步
奈米技術透過實現奈米級材料的精確操縱和工程,徹底改變了材料科學,其中銀奈米粒子表現出獨特的性能。奈米技術研究的不斷進步促進了創新合成方法的發展,提高了銀奈米顆粒的生產效率和可擴展性。這些進步已經生產出具有尺寸、形狀和表面化學等客製化特性的銀奈米顆粒,以最佳化其在各種應用中的性能。
集聚問題
銀奈米顆粒容易聚集或結塊,從而減少其表面積並損害其在各種應用中的有效性。在合成、儲存、加工和摻入最終產品的過程中可能會發生聚集,導致實現均勻分散和穩定性的挑戰。這些問題不僅影響銀奈米顆粒的性能和功能,還會增加生產成本並阻礙其在整個產業的廣泛普及。解決聚集問題需要創新策略,例如表面改質、功能化和封裝,以提高穩定性並防止顆粒聚集。
最初,由於銀奈米顆粒的抗菌特性,其需求激增,導致其在消毒劑、個人防護設備和醫療保健產品等各種醫療應用中使用。全球供應鏈和製造流程的中斷給滿足這種不斷成長的需求帶來了挑戰。經濟不確定性和消費者支出減少對市場產生了負面影響,特別是在電子和紡織等行業,銀奈米粒子用於導電和抗菌性能。然而,儘管存在這些挑戰,隨著人們對銀奈米粒子益處的認知不斷增強以及新應用的出現,疫情也刺激了在新的抗病毒技術中利用銀奈米粒子的研究和開發工作,促進了市場未來的潛在成長。
球形銀奈米粒子段預計在預測期內達到最大值
球形銀奈米粒子部分在預測期內出現了顯著成長,因為它具有高表面積與體積比,提高了其在抗菌塗層、催化作用和醫療程序等各種應用中的有效性。它們均勻的形狀可以精確控制尺寸、分散性和表面化學等特性,這使得它們對研究和商業應用都有吸引力。此外,合成技術的進步正在提高製造的可擴展性和成本效率,進一步推動市場成長。隨著業界越來越認知到球形銀奈米顆粒的好處並投資於研發,該細分市場將不斷擴大,並為整個銀奈米顆粒市場的成長和多樣化做出重大貢獻。
生物合成領域預計在預測期內年複合成長率最高
作為一種永續且環境友善的製造方法,生物合成領域預計將在預測期內實現高速成長。與傳統化學方法相比,利用細菌、真菌、植物和藻類等生物實體合成銀奈米顆粒具有多種優勢。這些優點包括減少能源消費量、減少有毒化學物質的使用、利用自然機制形成奈米顆粒的能力以及更高的純度和均勻性。此外,生物合成技術通常會產生具有獨特性質和功能的奈米顆粒,從而在醫學、農業和環境修復等領域開闢了潛在的應用前景。
由於中國、印度和韓國等國家的快速工業化和都市化增加了電子、醫療保健和紡織等各個行業對先進材料的需求,亞太地區將在預測期內繼續成長。此外,該地區強大的研發基礎設施和政府推廣奈米技術的舉措進一步支持了市場擴張。此外,隨著嚴格的法規鼓勵使用安全和永續的包裝解決方案,銀奈米顆粒正在成為該地區對抗微生物污染和維持食品新鮮度的一個引人注目的選擇。
隨著消費者越來越重視食品安全和長壽,以及製造商尋求創新解決方案來延長保存期限並確保產品完整性,歐洲地區預計在預測期內將出現可觀的成長。在這一領域,銀奈米粒子提供了一種強大的解決方案,因為它們的小尺寸提供了與病原體接觸的大表面積,並有效抑制其生長和增殖。在監管限制內使用時,銀奈米粒子對人體的毒性較低,這使其成為增強食品包裝材料的有吸引力的選擇。這些因素正在推動該地區的成長。
According to Stratistics MRC, the Global Silver Nanoparticle Market is accounted for $2.4 billion in 2023 and is expected to reach $7.6 billion by 2030 growing at a CAGR of 17.6% during the forecast period. Silver nanoparticles exhibit unique properties including antimicrobial, conductive, and optical characteristics, making them highly sought after for a range of products and processes. Additionally, they are utilized in textiles for their antibacterial properties, enhancing the performance of fabrics in medical textiles and sportswear. These nanoparticles typically range in size from 1 to 100 nanometers and possess unique physical and chemical properties due to their small size and high surface area-to-volume ratio.
According to the July 2020 article by the National Center for Biotechnology Information (NCBI), the involvement of these living organisms in the production of silver nanoparticles through biological synthesis makes the process economic and environmentally friendly.
Rising demand in textile industry
Silver nanoparticles possess remarkable antimicrobial properties, making them highly sought-after for various textile applications. As consumers increasingly prioritize hygiene and health-conscious products, the textile industry seeks innovative solutions to embed antimicrobial features in fabrics, thereby enhancing their appeal. Silver nanoparticles offer a versatile solution, enabling the production of antimicrobial textiles that inhibit the growth of bacteria and fungi, reducing odor and promoting cleanliness. Moreover, the incorporation of silver nanoparticles in textiles extends the lifespan of products by preventing microbial degradation, thereby contributing to sustainability efforts through reduced waste.
High production costs
The synthesis of silver nanoparticles often involves complex and resource-intensive processes, including specialized equipment, raw materials, and precise control over reaction parameters such as temperature and pH. High costs can deter potential adopters, especially in industries where cost-effectiveness is paramount. The need for continuous innovation to improve production efficiency and reduce costs is essential for the widespread adoption of silver nanoparticles across various sectors. However, ensuring quality and consistency in nanoparticle production adds further complexity and cost.
Advancements in nanotechnology
Nanotechnology has revolutionized material science by enabling precise manipulation and engineering of materials at the nanoscale, where silver nanoparticles exhibit unique properties. The continual progress in nanotechnology research has facilitated the development of innovative synthesis methods, enhancing the production efficiency and scalability of silver nanoparticles. These advancements have led to the creation of silver nanoparticles with tailored characteristics, such as size, shape, and surface chemistry, optimizing their performance in various applications.
Agglomeration issues
Silver nanoparticles have a propensity to agglomerate or clump together, reducing their surface area and compromising their effectiveness in various applications. Agglomeration can occur during synthesis, storage, processing, or integration into end products, leading to challenges in achieving uniform dispersion and stability. These issues not only affect the performance and functionality of silver nanoparticles but also increase production costs and hinder their widespread adoption across industries. Addressing agglomeration requires innovative strategies such as surface modification, functionalization, or encapsulation to enhance stability and prevent particle aggregation.
Initially, there was a surge in demand for silver nanoparticles due to their antimicrobial properties, which were utilized in various medical applications such as disinfectants, personal protective equipment, and healthcare products. Disruptions in the global supply chain and manufacturing processes led to challenges in meeting this heightened demand. Economic uncertainties and reduced consumer spending affected the market negatively, particularly in industries such as electronics and textiles, where silver nanoparticles are utilized for their conductive and antibacterial properties. However, despite these challenges, the pandemic also stimulated research and development efforts in utilizing silver nanoparticles for novel antiviral technologies, driving potential future growth in the market as awareness of their benefits increases and new applications emerge.
The Spherical Silver Nanoparticles segment is expected to be the largest during the forecast period
Spherical Silver Nanoparticles segment has been experiencing notable growth during the anticipated period as it offers high surface area-to-volume ratios, enhancing their efficacy in various applications such as antimicrobial coatings, catalysis, and medical treatments. Their uniform shape allows for precise control over properties like size, dispersibility, and surface chemistry, making them attractive for research and commercial applications alike. Additionally, advancements in synthesis techniques have made production more scalable and cost-effective, further driving market growth. As industries increasingly recognize the benefits of spherical silver nanoparticles and invest in research and development, this segment is poised for continued expansion, contributing significantly to the overall growth and diversification of the silver nanoparticle market.
The Biological Synthesis segment is expected to have the highest CAGR during the forecast period
Owing to its sustainable and environmentally friendly production methods, Biological Synthesis segment is estimated to witness enhanced growth throughout the overcast period. Utilizing biological entities such as bacteria, fungi, plants, and algae to synthesize silver nanoparticles offers several advantages over traditional chemical methods. These include lower energy consumption, reduced use of toxic chemicals, and the ability to harness natural mechanisms for nanoparticle formation, resulting in higher purity and uniformity. Moreover, biological synthesis techniques often produce nanoparticles with unique properties and functionalities, expanding their potential applications in fields such as medicine, agriculture, and environmental remediation.
Due to the rapid industrialization and urbanization across countries like China, India, and South Korea have led to increased demand for advanced materials in various sectors such as electronics, healthcare, and textiles, Asia Pacific region is poised to hold enormous growth during the prognostication period of time. Additionally, the region's robust research and development infrastructure coupled with government initiatives promoting nanotechnology further fuel the market expansion. Furthermore, with stringent regulations encouraging the use of safe and sustainable packaging solutions, silver nanoparticles emerge as a compelling choice for combating microbial contamination and preserving food freshness in the region.
As consumers increasingly prioritize food safety and longevity, manufacturers seek innovative solutions to extend shelf life and ensure product integrity, Europe region is estimated to gain considerable growth over the prognosis period. In this region, silver nanoparticles offer a potent solution, as their small size provides a large surface area for contact with pathogens, effectively inhibiting their growth and proliferation. Silver nanoparticles exhibit low toxicity to humans when used within regulatory limits, making them an attractive option for enhancing food packaging materials. These elements are boosting the regional growth.
Key players in the market
Some of the key players in Silver Nanoparticle market include Advanced Nano Products, Ames Goldsmith Corporation, Cima NanoTech Inc, Meliorumtechnologies, INC, Nanogap Sub-Nm-Powder, S.A, Nanografi Co. Inc, Nanoshel LLC, Prime Nanotechnology Co.,Ltd and Solaris Nanosciences Corporation.
In August 2022, Advanced Nano Products (ANP), a Korean supplier of carbon battery nanomaterials used in electric vehicle battery production, will locate in Hardin County with a $49.6 million investment creating 93 high-wage jobs to supply battery producers including BlueOvalSK Battery Park. To encourage investment and job growth in the community, the Kentucky Economic Development Finance Authority (KEDFA) preliminarily approved a 10-year incentive agreement with the company under the Kentucky Business Investment program. The performance-based agreement can provide up to $2.6 million in tax incentives based on the company's investment of $49.6 million
In May 2020, US-based company nanoComposix, which provides silver nanoparticles, has signed a deal to expand product distribution to customers across India. nanoComposix deals with multiple nanoparticle products which are used in anti-microbials, optical displays, drug delivery, among other applications, and through this agreement, more silver nanoparticles will be incorporated.
10.1 Advanced Nano Products
10.2 Ames Goldsmith Corporation
10.3 Cima NanoTech Inc
10.4 Meliorumtechnologies, INC
10.5 Nanogap Sub-Nm-Powder, S.A
10.6 Nanografi Co. Inc
10.7 Nanoshel LLC
10.8 Prime Nanotechnology Co.,Ltd
10.9 Solaris Nanosciences Corporation