BeNanoシリーズ

Name: BeNanoシリーズ
Brand: Bettersize
SKU: BeNanoシリーズ
Rating: 4.5 (4 reviews)

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BeNano シリーズは、光散乱技術と透過測定技術を組み合わせた、次世代型ナノ粒子解析装置です。本装置1台で、粒子径・濃度・ゼータ電位・分子量・屈折率・レオロジー特性といった各種物性を高精度かつ効率的に測定でき、日々の研究開発や品質管理を力強くサポートいたします。また、コンパクトな設計により、限られた設置スペースにも柔軟に対応いたします。多機能でありながら、扱いやすさと信頼性を兼ね備えた設計となっており、研究機関から産業用途まで幅広くご活用いただけます。

機能と利点

● 粒子径測定範囲: 0.3nm - 15μm

● 必要な最小サンプル量: 3μL

● 高感度のAPD検出器を搭載

● レーザー強度の自動最適調整機能を搭載

● インテリジェントな結果評価アルゴリズム

● DLS後方光散乱検出技術(173°)

● 検出位置調整機能による広範な濃度対応力

● 位相解析光散乱法 (PALS)による高精度ゼータ電位測定を実現

● 温度制御範囲：-15℃～120℃

● 21 CFR Part 11、ISO 22412、ISO 13099に準拠

Nanoparticle Size and Zeta Potential Analyzer

BeNano 180 Zeta Pro and its accessory BAT 1 Autotitrator

Video

Overview

Citations

Curated Resources

Testimonials

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ビデオ

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Fundamentals of BeNano 180 Zeta Pro

概要

Citations

BeNano 180

Wetting and deposition behaviors of pesticide droplets with different dilution ratios on wheat leaves infected by pathogens

DOI: 10.1016/j.molliq.2022.120977 Read Article

Chinese Academy of Agricultural Sciences | 2023

The pesticide formulations should be diluted to different concentrations according to selected application methods. The structure and properties of crop leaf surfaces can undergo severe changes after infestation with pests or diseases. Previous studies have mostly focused on the interfacial behaviors of pesticide droplets on healthy plant leaves. Here, we prepared 25 % pyraclostrobin microemulsion and diluted it according to different dilution ratios corresponding to low volume and conventional volume spray methods. The dynamic wetting and deposition behaviors of pesticide solution on wheat leaves infected with powdery mildew were investigated. The surface structure and properties of wheat leaves covered by the fungus Blumeria graminis will be changed. Conidia produce more non-polar components. The droplets with low dilution were more likely to deposit and reach the Wenzel state on wheat powdery mildew leaves. However, the droplets with high dilution were difficult to wet and easy to break and rebound from leaf surfaces. This research guides the control of wheat powdery mildew with pesticides under different application methods and the interface interaction between pesticide droplets and hydrophobic leaf surfaces infected by pathogens.

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BeNano 180 Zeta

Gallium-doped MXene/cellulose nanofiber composite membranes with electro/photo thermal conversion property for high performance electromagnetic interference shielding

DOI: 10.1016/j.cej.2023.142565 Read Article

Huazhong University of Science and Technology | 2023

With the rapid development of science and technology, information security and multiscenario applications of electronic equipment have received increasing attention in recent years. Therefore, the design and development of multifunctional electromagnetic interference shielding materials are key to solving the current development needs of electronic equipment. Based on the above topics, multifunctional liquid metal gallium (Ga)-doped transition metal carbides/nitrides (MXenes)/cellulose nanofiber (CNF/MXene@Ga, CMG) composite membranes with a nacre-like “brick–mortar” layered structure were synthesized using an ultrasonic probe and vacuum-assisted filtration. By optimizing the design, the CMG composite membranes could achieve a tensile strength of 36.12 MPa with good flexibility and could achieve a maximum thermal conductivity of approximately 9.11 W/m·K. The heterogeneous interface between MXenes and Ga nanoparticles and the intercalation of Ga nanoparticles significantly influenced the composite membranes for the absorption of electromagnetic waves, which yielded a specific shielding effectiveness per unit volume (SSE/t) of 6444.1 dB·cm2·g−1; this value is over the vast majority reported in the current literature. Further studies confirmed that the CMG composite membranes possessed excellent electrothermal and photothermal conversion functions. The electrothermal conversion agreed with Joule's law. Moreover, the phase transition behavior of Ga also imparts the membranes with the ability to store heat. The photothermal conversion ability was attributed to the surface plasmon resonance effect of Ga. Therefore, this work provides material support for the information security and multi-scenario applications of electronic equipment.

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BeNano 180 Zeta Pro

Applying dynamic light scattering to investigate the self-assembly process of DNA nanostructures

DOI: 10.1016/j.cclet.2023.108384 Read Article

University of Chinese Academy of Sciences | 2023

Understanding the dynamic assembly process of DNA nanostructures is important for developing novel strategy to design and construct functional devices. In this work, temperature-controlled dynamic light scattering (DLS) strategy has been applied to study the global assembly process of DNA origami and DNA bricks. Through the temperature dependent size and intensity profiles, the self-assembly process of various DNA nanostructures with different morphologies have been well-studied and the temperature transition ranges could be observed. Taking advantage of the DLS information, rapid preparation of the DNA origami and the brick assembly has been realized through a constant temperature annealing. Our results demonstrate that the DLS-based strategy provides a convenient and robust tool to study the dynamic process of forming hieratical DNA structures, which will benefit understanding the mechanism of self-assembly of DNA nanostructures.

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BeNano 180 Zeta Pro

Enhanced Sludge Dewatering by Fenton-Like Reaction Initiated by Fe-Rich Sludge Biochar with In-Situ Generation of H₂O₂: Fe/C Structure as an Electron Shuttle

DOI: 10.1016/j.resconrec.2023.107184 Read Article

Huazhong University of Science and Technology | 2023

Fenton-like reaction has been used to enhance sludge dewaterability effectively. However, the unstable characteristic, ignitability, and corrosivity of H₂O₂ make it difficult for application. To address this challenge, a novel process of in-situ H₂O₂ generation by Fe-rich sludge biochar under aeration condition combined with poly-diallyldimethylammonium chloride (PDMDAAC) was proposed to enhance sludge dewaterability. Under optimized conditions, the capillary suction time and specific resistance to filterability of the conditioned sludge were reduced significantly compared with raw sludge (54.2 vs. 351 s, 0.249×1013 vs. 2.68×1013 m/kg, respectively). The carbon skeleton in Fe-rich sludge biochar can reduce the charge transfer impedance between Fe and O2, promoting in-situ generation of H₂O₂. The degradation of hydrophilic organics in extracellular polymeric substances of sludge floc and the PDMDAAC coagulation effect promoted the release of bound water. This study provides a strategy to enhance sludge dewaterability by Fenton-like reaction initiated by Fe-rich biochar with no H2O2 addition.

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厳選されたリソース

Application Note

2024-06-03

化学品産業向け応用事例集：化学品解析精度の向上

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Application Note

2024-03-11

バッテリー業界のイノベーションを支えるアプリケーションノート集

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Application Note

2024-02-09

動的光散乱法による粒子径測定-色濃いサンプルを希釈させる重要性

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その他の資料

お客様のお声

It is ideal for applications in pharmaceuticals, biotechnology, and materials science

The BeNano 180 Zeta Pro is an advanced nanoparticle characterization instrument designed for precise measurement of particle size, zeta potential, and molecular weight using dynamic light scattering (DLS) and electrophoretic light scattering (ELS) techniques. Its key features include a wide measurement range, integrated temperature control, a highly sensitive detector, and user-friendly software, making it ideal for applications in pharmaceuticals, biotechnology, and materials science. The compact design and robust performance offer excellent value, though its accuracy relies on proper sample preparation and concentration adjustments. Overall, the BeNano 180 Zeta Pro is a versatile and reliable tool, delivering high-quality results for both research and industrial applications.

Pradeep Giri

Easy to use and accurate results

Despite BeNano 90 Zeta is a multifunction analytical machine, yet easy to use compared to other particle sizers even for new students. Having this machine is a great benefit to our research projects because its aid in generating accurate results with ease.

Li Min

I highly recommend this device for anyone working with nanoparticles or conducting research in this field.

The equipment is easy to be operated and the instrument's ability to accurately measure the size and charge of nanoparticles is outstanding.

Shenghua Zhou

Excellent outcome

BeNano 90 Zeta delivers incredible outcomes for the analysis of nanoparticles such as particle size and zeta potential of our drug samples. This is the most utilized and valued analyzer in our laboratory.

Paul Varghese