Nanofibrous Membranes(나노섬유막)란 무엇입니까?
Nanofibrous Membranes 나노섬유막 - A series of functional nanoparticles and nanofibrous membranes was prepared using oil bath heating method, calcination method, and modified tri–axial electrospinning technology. [1] It identifies theoretical gaps related to the physical phenomena which can be responsible for the observed acoustical behaviours of nanofibrous membranes and it presents recommendations to fill these gaps. [2] In this work, a series of the organic polymer template-modulated yttria doped zirconia (YDZ) nanofibrous membranes with lightweight, superior mechanical and thermal stability are developed through a cost-effective, scalable sol-gel electrospinning and subsequent calcination method. [3] Further eye-observation, micro-morphology investigation and tensile tests were applied to evaluate the chemical resistance of nanofibrous membranes in strong acid, strong alkaline, and concentrated salt. [4] These daylight-driven rechargeable micro/nanofibrous membranes can be used in the development of reusable medical protective materials with highly efficient filtration and daylight-driven rechargeable antibacterial efficacy. [5] In the present work, hybrid polyacrylonitrile (PAN) nanofibrous membranes were developed for oily wastewater filtration. [6] As a stable chemical material, polypropylene (PP) micro-nanofibrous membranes are widely used in medical and health care. [7] Methods Different layers of VEGF-A loaded polycaprolactone (PCL) nanofibrous membranes were first synthesized by using layer-by-layer (LBL) self-assembly of electrospinning methods. [8] The surface morphology of the nanofibrous membranes was studied using field emission scanning electron microscopy. [9] In this work, flexible silica dioxide (SiO2) nanofibrous membrane (NFM) was fabricated by an electrospinning technique and MnO2 nanoparticle was successfully loaded on SiO2 ([email protected]) nanofibrous membranes (NFMs) through liquid phase synthesis. [10] In the current study, we explore the use of an eco-friendly laser-based methodology to fabricate Ag/TiO nanoparticles (NPs) with a highly controlled chemical composition, which serve to decorate the surface of Polyvinylidenefluoride (PVDF) nanofibrous membranes. [11] Micro-CT and histopathological evaluations revealed that nanofibrous membranes with CeO2 NPs further accelerated new bone formation. [12] However, endowing the nanofibrous membranes with antibacterial and angiogenesis functions needs to be explored. [13] Herein, we report a respiration monitoring triboelectric nanogenerator (RM-TENG) with nanofibrous membranes, which can be used as a smart, changeable, self-powered mask filter with high filtration efficiency for monitoring multiple respiratory indices (e. [14] Finally, the development of nanofibrous membranes was prospected with the aim of providing directional guidance for improvement of air purification field. [15] 4% after 240 min of continuous irradiation upon increasing the concentration of Au/Se nanoparticles through the nanofibrous membranes. [16] Methylene blue is degraded under visible light irradiation in the presence of the nanofibrous membranes of PCL containing modified HAP with different contents of Cu ions. [17] Herein, flexible zirconium doped strontium titanate (ZSTO) nanofibrous membranes were fabricated via combining sol-gel and electrospinning methods. [18] The functionalization of nanofibrous membranes (NFMs) is a prevailing and promising strategy to prepare highly efficient air filters for high-precision filtration. [19] Here we review the principles, performances, advantages and disadvantages of these techniques, with focus on catalytic oxidation, adsorption and the use of nanofibrous membranes. [20] This study explored the use of sandwich-structured antimicrobial agents, analgesics, and human epidermal growth factor (hEGF)-incorporated anti-adhesive poly(lactic-co-glycolic acid) nanofibrous membranes for surgical wounds. [21] 4 µm pore size and prepared Poly (L-lactide-co-DL-lactide) (PDLLA) nanofibrous membranes with an average pore size of 0. [22] The presented review article in detail describes novel strategies for renal failure treatment with the use of various nanomaterials (including carbon nanotubes, nanofibrous membranes), mesenchymal stem cells-derived nanovesicles, and nanomaterial-based adsorbents and membranes that are used in wearable blood purification systems and synthetic kidneys. [23] In this paper, polysulfone (PSF)/cellulose nanocrystal (CNC) nanofibrous membranes were fabricated by electrospinning as hybrid interleaves in CF/EP composites. [24] Finally, the most efficient binary nanostructures were successfully embedded in nanofibrous membranes by colloidal electrospinning and used in water remediation experiments in a flow-through reactor. [25] Based on the dimensions, nanofibrous materials can be categorized into nanofibrous membranes and nanofibrous aerogels. [26] Large porous framework provided a high surface area to effectively immobilize the cross-linked chitosan on nanofibrous membranes. [27]일련의 기능성 나노입자 및 나노섬유막은 오일배스 가열법, 소성법 및 변형된 3축 전기방사 기술을 사용하여 제조되었다. [1] 그것은 나노섬유 막의 관찰된 음향 거동에 책임이 있을 수 있는 물리적 현상과 관련된 이론적 격차를 식별하고 이러한 격차를 채우기 위한 권장 사항을 제시합니다. [2] 이 연구에서는 비용 효율적이고 확장 가능한 졸-겔 전기방사 및 후속 하소 방법을 통해 가볍고 우수한 기계적 및 열적 안정성을 가진 일련의 유기 고분자 템플릿 변조 이트리아 도핑 지르코니아(YDZ) 나노섬유 멤브레인을 개발했습니다. [3] 강산, 강알칼리 및 농축염에서 나노섬유 막의 내화학성을 평가하기 위해 추가 눈 관찰, 미세 형태 조사 및 인장 시험이 적용되었습니다. [4] 이러한 일광 구동 충전식 마이크로/나노섬유 멤브레인은 고효율 여과 및 일광 구동 충전식 항균 효능을 갖는 재사용 가능한 의료 보호 재료의 개발에 사용될 수 있습니다. [5] 현재 연구에서 하이브리드 폴리아크릴로니트릴(PAN) 나노섬유 멤브레인은 유성 폐수 여과를 위해 개발되었습니다. [6] 폴리프로필렌(PP) 미세나노섬유막은 안정적인 화학물질로서 의료 및 의료 분야에서 널리 사용됩니다. [7] 방법 VEGF-A가 로딩된 폴리카프로락톤(PCL) 나노섬유막의 다른 층은 전기방사 방법의 층별(LBL) 자가 조립을 사용하여 먼저 합성되었습니다. [8] 전계방출 주사전자현미경을 이용하여 나노섬유막의 표면 형태를 연구하였다. [9] 이 연구에서 유연한 이산화규소(SiO2) 나노섬유막(NFM)은 전기방사 기술로 제작되었으며 MnO2 나노입자는 액상 합성을 통해 SiO2([email protected]) 나노섬유막(NFM)에 성공적으로 로딩되었습니다. [10] 현재 연구에서 우리는 환경 친화적인 레이저 기반 방법론을 사용하여 폴리비닐리덴플루오라이드(PVDF) 나노섬유 멤브레인의 표면을 장식하는 역할을 하는 고도로 제어된 화학 조성으로 Ag/TiO 나노입자(NP)를 제조하는 방법을 탐구합니다. [11] Micro-CT 및 조직병리학적 평가는 CeO2 나노입자를 포함하는 나노섬유막이 새로운 뼈 형성을 더욱 가속화하는 것으로 나타났습니다. [12] 그러나 나노섬유막에 항균 및 혈관신생 기능을 부여하는 방법을 모색해야 합니다. [13] 여기에서 우리는 다중 호흡 지수(예: [14] 마지막으로 공기정화 분야의 개선 방향을 제시하기 위한 목적으로 나노섬유막의 개발이 기대되었다. [15] 나노섬유 막을 통해 Au/Se 나노입자의 농도를 증가시키면 240분의 지속적인 조사 후 4%. [16] 메틸렌 블루는 Cu 이온의 함량이 다른 변형된 HAP를 포함하는 PCL의 나노섬유 막의 존재하에 가시광선 조사 하에서 분해된다. [17] 여기서, 유연한 지르코늄 도핑된 스트론튬 티타네이트(ZSTO) 나노섬유 멤브레인은 졸-겔 및 전기방사 방법을 결합하여 제조되었습니다. [18] 나노섬유막(NFM)의 기능화는 고정밀 여과를 위한 고효율 공기 필터를 준비하기 위한 일반적이고 유망한 전략입니다. [19] 여기에서 우리는 촉매 산화, 흡착 및 나노섬유막의 사용에 중점을 두고 이러한 기술의 원리, 성능, 장점 및 단점을 검토합니다. [20] 이 연구는 샌드위치 구조의 항균제, 진통제 및 인간 표피 성장 인자(hEGF)가 포함된 접착 방지 폴리(락트산-코-글리콜산) 나노섬유막의 수술 상처에 대한 사용을 조사했습니다. [21] 4 μm 기공 크기 및 평균 기공 크기가 0인 폴리(L-락타이드-코-DL-락타이드)(PDLLA) 나노섬유 멤브레인을 준비했습니다. [22] 제시된 리뷰 기사는 웨어러블 혈액 정화 시스템에 사용되는 다양한 나노물질(탄소나노튜브, 나노섬유막 포함), 중간엽 줄기세포 유래 나노소포, 나노물질 기반 흡착제 및 멤브레인을 사용하여 신부전 치료를 위한 새로운 전략을 자세히 설명합니다. 및 합성 신장. [23] 이 논문에서, 폴리설폰(PSF)/셀룰로오스 나노결정(CNC) 나노섬유 멤브레인은 CF/EP 복합재에서 하이브리드 인터리브로서 전기방사에 의해 제조되었습니다. [24] 마지막으로, 가장 효율적인 이원 나노구조는 콜로이드 전기방사에 의해 나노섬유 막에 성공적으로 내장되었고 통과형 반응기의 수질 정화 실험에 사용되었습니다. [25] 크기에 따라 나노섬유 재료는 나노섬유 막과 나노섬유 에어로겔로 분류할 수 있습니다. [26] 큰 다공성 프레임워크는 나노섬유 막에 가교 키토산을 효과적으로 고정하기 위해 높은 표면적을 제공했습니다. [27]
high specific surface 높은 비표면적
Here, facile access to mesoporous structured silica nanofibrous membranes (MPSNMs) with superior flexibility, high specific surface area, and large mesopore volume is provided, that is, using phase separation-driven electrospinning technique and subsequent calcination processing. [1] Among various techniques for the membrane fabrication, electrospinning with advantages of ease in mass production and potential incorporation of other functional materials on the nanoscale surface has gained widespread interest for the preparation of novel nanofibrous membranes with selective wettability, rational pore structure and high specific surface area. [2] Nanofibrous membranes have a high specific surface area and large porosity, which are beneficial for being used as adsorbents to remove heavy metal ions from water. [3]여기에서 우수한 유연성, 높은 비표면적 및 큰 메조세공 부피, 즉 상 분리 구동 전기방사 기술 및 후속 하소 처리를 사용하여 메조다공성 구조화된 실리카 나노섬유막(MPSNM)에 쉽게 접근할 수 있습니다. [1] 막 제조를 위한 다양한 기술 중 대량 생산이 용이하고 나노 크기의 표면에 다른 기능성 물질을 통합할 수 있는 장점이 있는 전기방사는 선택적 습윤성, 합리적인 기공 구조 및 높은 비표면적을 갖는 새로운 나노 섬유막 제조에 널리 관심을 받고 있습니다. . [2] nan [3]
large specific surface 큰 비표면적
The chlorinated P(AN-VAPH) nanofibrous membranes showed intriguing features of unique 3D morphological structures with large specific surface area, good mechanical performance, rechargeable chlorination capacity (>5000 ppm), long-term durability, and desirable biocidal activity against both bacteria and viruses (>99. [1] Electrospun nanofibrous membranes (ENFMs) have many superior advantages, such as large specific surface area, high porosity, easy modification, good flexibility, and easy separation for recycling, which are consider as excellent adsorbents. [2] Used of electrostatic fiber character such as high porosity, large specific surface area, the nanofibrous membranes were manufactured by electrospinning technique with polyvinyl alcohol acting as substrates and bromocresol purple acting as indicator. [3]염소화된 P(AN-VAPH) 나노섬유 멤브레인은 큰 비표면적, 우수한 기계적 성능, 재충전 가능한 염소화 용량(>5000ppm), 장기간 내구성 및 박테리아와 박테리아 모두에 대한 바람직한 살생물 활성을 갖는 독특한 3D 형태학적 구조의 흥미로운 특징을 보여주었습니다. 바이러스(>99. [1] 전기방사 나노섬유막(ENFM)은 큰 비표면적, 높은 다공성, 용이한 변형, 우수한 유연성 및 재활용을 위한 용이한 분리와 같은 우수한 흡착제로 간주되는 많은 우수한 장점을 갖는다. [2] nan [3]
specific surface area 비표면적
Porous nanofibrous membranes have ultrahigh specific surface areas and could be broadly employed in protein purification, enzyme immobilization, and biosensors with enhanced selectivity, sensitivity, and efficiency. [1] After the surface coating of the PANI shell, the optimized [email protected]/PVA-PAA nanofibrous membranes exhibit a large porosity, an enhanced specific surface area, a superior tensile strength of ~54. [2]다공성 나노섬유막은 비표면적이 매우 높아 단백질 정제, 효소 고정화, 바이오센서에 선택성, 감도 및 효율성이 향상되어 광범위하게 사용될 수 있습니다. [1] nan [2]
Electrospun Nanofibrous Membranes 전기방사 나노섬유막
To the best of our knowledge, this is the first successful demonstration of the synergistic combination of intrinsically microporous polyimides and MOFs in the form of electrospun nanofibrous membranes and their application for VOC removal. [1] In this study, we have developed poly(lactic acid) (PLA) electrospun nanofibrous membranes (EFMs) surface coated by cellulose nanofibrils (CNF) and/or silk peptide (SP). [2] In this study, a new strategy is proposed for effective and rapid detection of fingerprints based on electrospun nanofibrous membranes and quantum dots (QDs). [3] nanoparticles, polymeric nanomaterials, 2D nanosheets, or electrospun nanofibrous membranes, nanocomposites for desalination or water-treatment applications, is an emerging concept that has rapidly grown in interest as a method for improving the water quality. [4] Three-dimensional (3D) composite polyvinylidene fluoride (PVDF)/polyacrylonitrile (PAN) electrospun nanofibrous membranes combining both thick and thin nanofibers have been fabricated by the method of multi-jet electrospinning with sheath gas to realize high-efficiency air filtration under a low pressure drop. [5] The investigation of the light scattering properties for electrospun nanofibrous membranes is paramount for color yield-regulating of colorful nanofiber mats. [6] Electrospun nanofibrous membranes (ENFMs) have many superior advantages, such as large specific surface area, high porosity, easy modification, good flexibility, and easy separation for recycling, which are consider as excellent adsorbents. [7] Among various membranes, electrospun nanofibrous membranes offer unique properties, such as high and tunable porosity, high surface area, tunability in the composition and structure, functionalization ability and good mechanical behaviour, to be used in water purification compared to conventional membranes. [8] Electrospun nanofibrous membranes (ENM) possess many advantages over commonly utilized water purification systems. [9] In line with the primary aim of high throughput production of PU electrospun nanofibrous membranes (ENMs) with different fiber sizes and proper morphologies, the needle-free electrospinning technique was employed. [10] Different Multilayer electrospun nanofibrous membranes were synthesized to study the effects of potentially important steps and parameters including hot-pressing and chitosan / poly (vinyl alcohol) (CTS/PVA) solutions on the membranes performance in Cu(II) ions removal. [11] This paper reviews the recent updates on sustainability of electrospun nanofibrous membranes, prerequisite of nanofibrous membranes, manufacturing techniques, merits and limitations of nanofibrous membrane and solutions to overcome the issue faced by electrospun nanofibrous membrane. [12] Ceramic electrospun nanofibrous membranes (ENMs) are ideal candidates for ultrafiltration applications in harsh environments. [13] This review presents a brief overview of electrospinning techniques, different structures of electrospun nanofibrous membranes, unique characteristics and functions of the fabricated membranes, and summarization of the outdoor and indoor applications in PM filtration. [14] Among several types of carbohydrate polymers blend PVA hydrogel membranes used for biomedical applications in particular wound dressings; electrospun nanofibrous membranes have gained increased interest because of their extraordinary features e. [15] Robust hydrophobic and superhydrophobic mixed matrix electrospun nanofibrous membranes (MM-ENMs) have been prepared from low- and high- molecular weight polyvinylidene fluoride with either multi-walled carbon nanotubes or graphene oxide nanofillers (0. [16] These compositions were incorporated into electrospun nanofibrous membranes of polycaprolactone (PCL). [17] This study aimed to fabricate core-shell electrospun nanofibrous membranes displaying simultaneous cell proliferation and antibacterial activity. [18] In this work, fish oil-gelatin core-shell electrospun nanofibrous membranes (ENMs) were explored as edible films for the encapsulation of hydrophobic fish oil and hydrophilic vitamin C (VC). [19] To address the challenge of the airborne transmission of SARS-CoV-2, photosensitized electrospun nanofibrous membranes were fabricated to effectively capture and inactivate coronavirus aerosols. [20] Electrospun nanofibrous membranes (NFMs) have attracted considerable attention as a potential physical barrier for reducing postoperative adhesion. [21] This paper reports the synthesis and characterization of novel ultrafiltration (UF) electrospun nanofibrous membranes (ENMs) incorporated with iron oxide (Fe3O4) nanoparticles (NPs) for effective oily solution treatment. [22] Electrospun nanofibrous membranes (ENMs) are cutting edge membrane technology that offer substantial high flux and high rejection rates compared to conventional membranes. [23] Here, we present a strategy to create a Pb2+ removal and contamination degree detecting system by combining electrospun nanofibrous membranes (NMs) with a flow-through system. [24] Research related to electrospun nanofibrous membranes and their archetypical variants, templated nanoengineered scaffolds, and self-assembling systems are discussed. [25] The efficiency of the proposed model is assessed using experimental data of PVDF electrospun nanofibrous membranes. [26] Electrospun nanofibrous membranes enjoy numerous factors which benefit them to be used as potential candidates in biosensing platforms. [27] In this work, green electrospun nanofibrous membranes based on chitosan (Cs)/polyvinyl alcohol (PVA) composite with a very high carbon monoxide adsorption capacity (much higher than the values one may expect from activated carbon and zeolite adsorbents, and also higher than that of the metal-organic framework) are developed. [28] Among them, electrospun nanofibrous membranes due to their intrinsic properties like high surface area‐to‐volume ratio, porosity and structural similarity with the skin extracellular matrix have been regarded as highly promising for wound dressings applications. [29]우리가 아는 한, 이것은 본질적으로 미세다공성 폴리이미드와 전기방사 나노섬유막 형태의 MOF의 상승적 조합과 VOC 제거를 위한 적용에 대한 첫 번째 성공적인 시연입니다. [1] 이 연구에서 우리는 셀룰로스 나노피브릴(CNF) 및/또는 실크 펩타이드(SP)로 코팅된 폴리(락트산)(PLA) 전기방사 나노섬유막(EFM) 표면을 개발했습니다. [2] nan [3] nan [4] nan [5] nan [6] 전기방사 나노섬유막(ENFM)은 큰 비표면적, 높은 다공성, 용이한 변형, 우수한 유연성 및 재활용을 위한 용이한 분리와 같은 우수한 흡착제로 간주되는 많은 우수한 장점을 갖는다. [7] nan [8] nan [9] nan [10] nan [11] nan [12] nan [13] nan [14] nan [15] nan [16] nan [17] nan [18] nan [19] nan [20] nan [21] nan [22] nan [23] nan [24] nan [25] nan [26] nan [27] nan [28] nan [29]
Composite Nanofibrous Membranes 복합 나노섬유막
The composite nanofibrous membranes were employed as a low-cost adsorbent for efficient removal of organic dye (employed as a model) from water in batch and fixed bed adsorption. [1] In this work, the polyacrylonitrile monolayer/composite nanofibrous membranes were successfully fabricated at different processing parameters. [2] Using the electrospinning technique, composite nanofibrous membranes were developed on a dense PVA layer from a solution of poly(vinyl alcohol) (PVA)/chitosan (CS)/zeolite-A. [3] To maximize the merits of each component, PMIA/PSA composite nanofibrous membranes with different mass blending ratios are prepared to determine the optimal balance. [4] In this study, polyacrylonitrile/polyurethane (PAN/PU) composite nanofibrous membranes with an antibacterial agent AgTiO2 were prepared by an electrospinning method. [5] Phenolphthalein polyethersulfone (PES-C)/silica (SiO2) composite nanofibrous membranes were prepared via solution blowing. [6]복합 나노섬유막은 물에서 유기 염료(모델로 사용)를 일괄적으로 효율적으로 제거하고 고정층 흡착을 위한 저비용 흡착제로 사용되었습니다. [1] 이 작업에서 폴리아크릴로니트릴 단층/복합 나노섬유 멤브레인은 다양한 공정 매개변수에서 성공적으로 제작되었습니다. [2] nan [3] nan [4] nan [5] nan [6]
Chitosan Nanofibrous Membranes 키토산 나노섬유막
Chitosan nanofibrous membranes are quite popular in the field of tissue regeneration because of their structural and chemical similarity to the natural ECM. [1] The chitosan nanofibrous membranes were fabricated on an aluminum foil-covered collector of the electrospinning system. [2] The as-crosslinked electrospun chitosan nanofibrous membranes possess enhanced wet stability, improved mechanical property and good biocompatibility, which are necessary for wound healing application. [3] Chitosan nanofibrous membranes are prepared via an electrospinning technique and explored as potential wound healing patches. [4]키토산 나노섬유막은 천연 ECM과 구조 및 화학적 유사성으로 인해 조직 재생 분야에서 매우 인기가 있습니다. [1] 키토산 나노섬유 멤브레인은 전기방사 시스템의 알루미늄 호일로 덮인 수집기에서 제작되었습니다. [2] nan [3] nan [4]
Resultant Nanofibrous Membranes
The resultant nanofibrous membranes showed a proportional increase in antibacterial efficacy with the rise in AgNPs loading against both Gram-positive S. [1] Our approach can endow the resultant nanofibrous membranes with powerful biocidal activity (6 log CFU reduction against E. [2]생성된 나노섬유 막은 그람 양성 S. [1] nan [2]
Pva Nanofibrous Membranes
We report a simple routine where the zirconium-based UiO-66-NH2 metal-organic frameworks (MOFs) are nucleated as a layer on the surface of PVA nanofibrous membranes ([email protected] NFMs). [1] In the present work, PVA nanofibrous membranes were fabricated using roller electrospinning techniques. [2]우리는 지르코늄 기반 UiO-66-NH2 금속-유기 프레임워크(MOFs)가 PVA 나노섬유 멤브레인([email protected] NFMs) 표면의 층으로 핵 생성되는 간단한 루틴을 보고합니다. [1] nan [2]
Loaded Nanofibrous Membranes
The paclitaxel-loaded nanofibrous membranes provided sustained drug release and site-specific treatment by directly targeting and changing the tumor microenvironment, resulting in low systemic toxicity and a significant improvement in the therapeutic effect and safety compared with conventional chemotherapy. [1] In this work, emulsion electrospinning was used for the preparation of tramadol-loaded nanofibrous membranes based on poly(ε-caprolactone). [2]파클리탁셀이 탑재된 나노섬유막은 종양 미세환경을 직접 표적화하고 변화시켜 지속적인 약물 방출과 부위 특이적 치료를 제공함으로써 기존의 화학요법에 비해 전신 독성이 낮고 치료 효과와 안전성이 크게 개선됐다. [1] nan [2]
Pvdf Nanofibrous Membranes
Here we report a one-step approach to simultaneously manipulate both the surface roughness and surface chemistry of PVDF nanofibrous membranes for enhanced direct-contact membrane distillation (DCMD) performances. [1] By tailoring the parameters for electrospinning, PAA-g-PVDF nanofibrous membranes with interpenetrated nanofibers and microsphere structure were formed, and the membrane surface was endowed with high roughness on the micrometer scale. [2]Fabricated Nanofibrous Membranes 제조된 나노섬유막
These fabricated nanofibrous membranes’ attached inserts have advantages such as low cost, ready availability, easy fabrication, tunable porosity, autoclavability, and biomaterial-based nanofibrous membranes. [1] Additionally, the contact angles of the fabricated nanofibrous membranes showed marked decrease from 86. [2]이러한 제조된 나노섬유 멤브레인의 부착된 인서트는 저렴한 비용, 준비된 가용성, 쉬운 제조, 조정 가능한 다공성, 오토클레이브 가능성 및 생체 재료 기반 나노섬유 멤브레인과 같은 장점을 가지고 있습니다. [1] 또한, 제작된 나노섬유막의 접촉각은 86°에서 현저히 감소하였다. [2]
Pan Nanofibrous Membranes 팬 나노섬유막
These excellent properties endow the ZnO/PANI/PAN nanofibrous membranes with great potential in treating oily wastewater. [1] This finding was consistent with predictions derived from a Weibull analysis for the mechanical reliability of PAN nanofibrous membranes. [2]이러한 우수한 특성은 ZnO/PANI/PAN 나노섬유 멤브레인에 유성 폐수를 처리하는 데 큰 잠재력을 부여합니다. [1] 이 발견은 PAN 나노섬유 멤브레인의 기계적 신뢰성에 대한 Weibull 분석에서 파생된 예측과 일치했습니다. [2]
Porou Nanofibrous Membranes 다공성 나노섬유막
673 in a cyclohexane–water–solid system) onto porous nanofibrous membranes, which were able to achieve continuous separation of oil–water mixtures. [1] Porous nanofibrous membranes have ultrahigh specific surface areas and could be broadly employed in protein purification, enzyme immobilization, and biosensors with enhanced selectivity, sensitivity, and efficiency. [2]사이클로헥산-물-고체 시스템에서 673)을 다공성 나노섬유막 위에 올려 기름-물 혼합물을 연속적으로 분리할 수 있었습니다. [1] 다공성 나노섬유막은 비표면적이 매우 높아 단백질 정제, 효소 고정화, 바이오센서에 선택성, 감도 및 효율성이 향상되어 광범위하게 사용될 수 있습니다. [2]
Novel Nanofibrous Membranes 새로운 나노섬유막
Therefore, it is crucial to develop novel nanofibrous membranes with enhanced mechanical strength and thermal stability. [1] Among various techniques for the membrane fabrication, electrospinning with advantages of ease in mass production and potential incorporation of other functional materials on the nanoscale surface has gained widespread interest for the preparation of novel nanofibrous membranes with selective wettability, rational pore structure and high specific surface area. [2]따라서 기계적 강도와 열적 안정성이 향상된 새로운 나노섬유막을 개발하는 것이 중요합니다. [1] 막 제조를 위한 다양한 기술 중 대량 생산이 용이하고 나노 크기의 표면에 다른 기능성 물질을 통합할 수 있는 장점이 있는 전기방사는 선택적 습윤성, 합리적인 기공 구조 및 높은 비표면적을 갖는 새로운 나노 섬유막 제조에 널리 관심을 받고 있습니다. . [2]
Polymeric Nanofibrous Membranes 고분자 나노섬유막
Electrospinning is an economy and highly reproducible procedure for the fabrication of polymeric nanofibrous membranes. [1] Polymeric nanofibrous membranes (NFMs) with both high whiteness and high thermal and ultraviolet (UV) stability are highly desired as reflectors for ultraviolet light-emitting diodes (UV-LEDs) devices. [2]전기방사는 고분자 나노섬유막의 제조를 위한 경제성과 재현성이 높은 절차입니다. [1] 높은 백색도와 높은 열 및 자외선(UV) 안정성을 모두 갖는 고분자 나노섬유막(NFM)은 자외선 발광 다이오드(UV-LED) 장치용 반사체로 매우 요구됩니다. [2]
nanofibrous membranes containing
The highest and fastest dye removal occurs for the nanofibrous membranes containing 2 wt % nanofiller, where about 80% of the cationic dye is removed after 15 min. [1] In this study, polyvinyl alcohol (PVA) nanofibrous membranes containing silver nanoparticles (Ag NPs) were successfully fabricated by the combination of electrospinning and a green reduction approach. [2] In this study, mineralized electrospun polylactic acid (PLLA) nanofibrous membranes containing different amounts of strontium (Sr) were fabricated by an electrodeposition method for potential use in bone regeneration applications. [3]가장 빠르고 가장 빠른 염료 제거는 2wt% 나노충전제를 포함하는 나노섬유 멤브레인에서 발생하며, 여기서 양이온 염료의 약 80%는 15분 후에 제거됩니다. [1] nan [2] nan [3]
nanofibrous membranes showed 나노섬유막 표시
The chlorinated P(AN-VAPH) nanofibrous membranes showed intriguing features of unique 3D morphological structures with large specific surface area, good mechanical performance, rechargeable chlorination capacity (>5000 ppm), long-term durability, and desirable biocidal activity against both bacteria and viruses (>99. [1] Additionally, the contact angles of the fabricated nanofibrous membranes showed marked decrease from 86. [2] The resultant nanofibrous membranes showed a proportional increase in antibacterial efficacy with the rise in AgNPs loading against both Gram-positive S. [3]염소화된 P(AN-VAPH) 나노섬유 멤브레인은 큰 비표면적, 우수한 기계적 성능, 재충전 가능한 염소화 용량(>5000ppm), 장기간 내구성 및 박테리아와 박테리아 모두에 대한 바람직한 살생물 활성을 갖는 독특한 3D 형태학적 구조의 흥미로운 특징을 보여주었습니다. 바이러스(>99. [1] 또한, 제작된 나노섬유막의 접촉각은 86°에서 현저히 감소하였다. [2] 생성된 나노섬유 막은 그람 양성 S. [3]
nanofibrous membranes vium
Herein, a poly(methacrylatoethyl trimethyl ammonium chloride-co-methyl methacrylate) copolymer was synthesized, and then blended with polyethersulfone for the fabrication of nanofibrous membranes via electrospinning for the use of fast and massive removal of dyes and bacteria. [1] We prepared polyacrylonitrile (PAN) nanofibrous membranes via electrospinning and investigated the effects of the oven-drying and thermal-pressing conditions on their porosity and tensile strength. [2]여기서, 폴리(메타크릴레이트에틸 트리메틸 암모늄 클로라이드-코-메틸 메타크릴레이트) 공중합체를 합성한 다음, 폴리에테르설폰과 블렌딩하여 염료 및 박테리아를 빠르고 대량으로 제거하기 위한 전기방사를 통한 나노섬유막 제조를 위해 사용하였다. [1] nan [2]
nanofibrous membranes exhibit
As a result, the nanofibrous membranes exhibits enhanced electrolyte uptake performance (~870%, with an electrolyte contact angel of 0°) and robust thermal dimensional stability (stable at 160°C for 1. [1] After the surface coating of the PANI shell, the optimized [email protected]/PVA-PAA nanofibrous membranes exhibit a large porosity, an enhanced specific surface area, a superior tensile strength of ~54. [2]그 결과, 나노섬유 멤브레인은 향상된 전해질 흡수 성능(~870%, 전해질 접촉 각도 0°)과 강력한 열 치수 안정성(160°C에서 1시간 동안 안정)을 나타냅니다. [1] nan [2]
nanofibrous membranes modified
In this work, the silk fibroin/cellulose blend nanofibrous membranes modified with sodium-3-sulfobenzoate (S-SCBNM) were fabricated by electrospinning technique for lysozyme adsorption. [1] In this work, we fabricate the silk-derived nanofibrous membranes modified with 3,3′,4,4′-benzophenone tetracarboxylic dianhydride (BDSNM) that could yield reactive oxygen species (ROS) driven under UV light irradiation. [2]이 연구에서, 소듐-3-설포벤조에이트(S-SCBNM)로 변형된 실크 피브로인/셀룰로오스 블렌드 나노섬유 멤브레인은 리소자임 흡착을 위한 전기방사 기술에 의해 제작되었습니다. [1] nan [2]
nanofibrous membranes provided 나노섬유막 제공
The paclitaxel-loaded nanofibrous membranes provided sustained drug release and site-specific treatment by directly targeting and changing the tumor microenvironment, resulting in low systemic toxicity and a significant improvement in the therapeutic effect and safety compared with conventional chemotherapy. [1] Hybrid PCL meshes/PLGA nanofibrous membranes provided a sustainable release of metronidazole, lidocaine, and estradiol for 4, 25, and 30 days, respectively, in vitro. [2]파클리탁셀이 탑재된 나노섬유막은 종양 미세환경을 직접 표적화하고 변화시켜 지속적인 약물 방출과 부위 특이적 치료를 제공함으로써 기존의 화학요법에 비해 전신 독성이 낮고 치료 효과와 안전성이 크게 개선됐다. [1] 하이브리드 PCL 메쉬/PLGA 나노섬유 멤브레인은 시험관 내에서 각각 4일, 25일 및 30일 동안 메트로니다졸, 리도카인 및 에스트라디올의 지속 가능한 방출을 제공했습니다. [2]