Your search keyword '"Gold nanospheres"' showing total 365 results

1. Facile Synthesis and Characterization of Uniform Au Nanospheres Capped by Citrate for Biomedical Applications.

Author

Li, Kei Kwan, Hao, Min, Kinoshita, Seth, and Xia, Younan

Subjects

*NANOPARTICLES, *SODIUM, *CHLORIDES, *GOLD

Abstract

We report a simple and versatile method for effectively replacing the toxic ligands, such as cetyltrimethylammonium bromide (CTAB) and cetyltrimethylammonium chloride (CTAC), on the surface of Au nanospheres with different sizes by citrate. The method involves the deposition of an ultrathin shell of fresh Au in the presence of sodium citrate at an adequate concentration. After the ligand exchange process, multiple techniques are used to confirm that the surface of the resultant Au nanospheres is covered by citrate while there is no sign of aggregation. We also demonstrate the mitigation of cell toxicity after exchanging the surface‐bound CTAB/CTAC with citrate, opening the door to a range of biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2024

2. 金纳米球-氧化石墨烯纳米药物载体的制备及抗癌性能.

Author

郭国英, 赵墨晅, 梁文婷, 弓 韬, and 董 川

Subjects

*THERMAL imaging cameras, *ELECTRON microscope techniques, *ANTINEOPLASTIC agents, *GOLD nanoparticles, *INFRARED imaging, *PHOTOTHERMAL effect

Abstract

The present study employed a chemical reduction method to synthesize gold nanoparticles (AuNPs) decorated on graphene oxide (GO) nanomaterials. The produced GO-AuNPs were characterized using advanced analytical techniques such as transmission electron microscopy, UV-visible spectrophotometry, and laser particle size analysis. Furthermore, the photothermal properties of GO-AuNPs were investigated using an infrared thermal imaging camera. Subsequently, the GO-AuNPs were utilized for the loading of an anti-cancer drug, doxorubicin hydrochloride (DOX), to yield a nanodrug complex (GO-AuNP@DOX). The loading and release of DOX were determined by fluorescence spectrophotometry, revealing that the DOX release was more favorable under weak acidic conditions. Moreover, it was observed that at pH=5. 3, the release amount of DOX reached up to 30. 51% under the irradiation of 808 nm laser. The cellular uptake ability of GO-AuNP@DOX by cancer cells was analyzed using confocal microscopy. The in vitro cytotoxicity of GO-AuNP@DOX against tumor cells was evaluated using a CCK-8 cell viability assay, demonstrating the excellent biocompatibility of the GO-AuNP carrier. Additionally, in vivo anti-tumor experiments conducted on tumor-bearing mice revealed that the combination of chemotherapy and photothermal therapy effectively suppressed tumor growth. These results indicate that the GO-AuNP nanodrug carrier possesses outstanding photothermal conversion ability and exceptional biocompatibility, while their pH/NIR dual drug release performance makes it a promising candidate for synergistic chemo-photothermal therapy of tumors. [ABSTRACT FROM AUTHOR]

Published

2024

3. Polymer‐Protected Gold Nanoparticles for Photothermal Treatment of Ehrlich Adenocarcinoma: In Vitro and In Vivo Studies.

Author

Tatykhanova, Gulnur S., Tuleyeva, Rysgul N., Nurakhmetova, Zhanara A., Gizatullina, Nargiz N., Krasnoshtanov, Vladimir K., Kaldybekov, Daulet B., Aseyev, Vladimir O., Khutoryanskiy, Vitaliy V., and Kudaibergenov, Sarkyt E.

Abstract

Photothermal therapy (PTT) is recognized as an effective tool for the treatment of cancer and it has attracted considerable attention of scientists. In this work, gold nanospheres (AuNSs) and gold nanorods (AuNRs) stabilized using poly(N‐vinylpyrrolidone) (PVP), pristine gellan gum (PGG), and poly(2‐ethyl‐2‐oxazoline)‐grafted gellan gum (GG‐g‐PEtOx) are synthesized and evaluated as PTT agents in Ehrlich cancer cells. The physicochemical characteristics of these AuNSs and AuNRs, including their surface plasmon resonance absorption spectra, size, zeta potential, and aspect ratio are studied using UV–vis‐spectroscopy, dynamic light scattering, zeta potential, transmission electron microscopy, and optical microscopy techniques. The polymer‐protected AuNSs exhibit light‐to‐heat conversion, raising the temperature from 37 to 43 °C when irradiated using a visible light source. In the case of AuNSs, considerable damage to Ehrlich cancer cells is observed following irradiation and 40 days of examination. However, with regard to AuNSs, the damage to Ehrlich cancer cells is slightly lower than observed in AuNRs. In vivo experiments demonstrate that laser irradiation of tumors in mice after injecting AuNSs leads to a statistically significant decrease in tumor size as compared to those not irradiated and the control samples. [ABSTRACT FROM AUTHOR]

Published

2024

4. A PCF Sensor Design Using Biocompatible PDMS for Biosensing.

Author

Yang, Yanxin, Li, Jinze, Sun, Hao, Xi, Jiawei, Deng, Li, Liu, Xin, and Li, Xiang

Subjects

*REFRACTIVE index, *PHOTONIC crystal fibers, *PLASTIC optical fibers, *LATTICE constants, *DETECTORS, *GOLD nanoparticles, *PHOTONIC crystals

Abstract

A novel photonic crystal fiber (PCF) sensor for refractive index detection based on polydimethylsiloxane (PDMS) is presented in this research, as well as designs for single-channel and dual-channel structures for this PDMS-PCF sensor. The proposed structures can be used to develop sensors with biocompatible polymers. The performance of the single-channel PDMS-PCF sensor was studied, and it was found that adjusting parameters such as pore diameter, lattice constant, distance between the D-shaped structure and the fiber core, and the radius of gold nanoparticles can optimize the sensor's performance. The findings indicate that the detection range of the single-channel photonic crystal is 1.21–1.27. The maximum wavelength sensitivity is 10,000 nm/RIU with a resolution of 1 × 10 − 5 RIU, which is gained when the refractive index is set to 1.27. Based on the results of the single-channel PCF, a dual-channel PDMS-PCF sensor is designed. The refractive index detection range of the proposed sensor is 1.2–1.28. The proposed sensor has a maximum wavelength sensitivity of 13,000 nm/RIU and a maximum resolution of 7.69 × 10 − 6 RIU at a refractive index of 1.28. The designed PDMS-PCF holds tremendous potential for applications in the analysis and detection of substances in the human body in the future. [ABSTRACT FROM AUTHOR]

Published

2024

5. Au nanodyes as enhanced contrast agents in wide field near infrared fluorescence lifetime imaging

Author

Neelima Chacko, Menachem Motiei, Jadhav Suchita Suryakant, Michael Firer, and Rinat Ankri

Subjects

Fluorescence lifetime imaging, Gold nanospheres, Gold nanorods, Time-gated acquisition, Near infrared regime, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract The near-infrared (NIR) range of the electromagnetic (EM) spectrum offers a nearly transparent window for imaging tissue. Despite the significant potential of NIR fluorescence-based imaging, its establishment in basic research and clinical applications remains limited due to the scarcity of fluorescent molecules with absorption and emission properties in the NIR region, especially those suitable for biological applications. In this study, we present a novel approach by combining the widely used IRdye 800NHS fluorophore with gold nanospheres (GNSs) and gold nanorods (GNRs) to create Au nanodyes, with improved quantum yield (QY) and distinct lifetimes. These nanodyes exhibit varying photophysical properties due to the differences in the separation distance between the dye and the gold nanoparticles (GNP). Leveraging a rapid and highly sensitive wide-field fluorescence lifetime imaging (FLI) macroscopic set up, along with phasor based analysis, we introduce multiplexing capabilities for the Au nanodyes. Our approach showcases the ability to differentiate between NIR dyes with very similar, short lifetimes within a single image, using the combination of Au nanodyes and wide-field FLI. Furthermore, we demonstrate the uptake of Au nanodyes by mineral-oil induced plasmacytomas (MOPC315.bm) cells, indicating their potential for in vitro and in vivo applications. Graphical abstract

Published

2024

6. Shape-controlled Synthesis and Bulk Refractive Index Sensitivity Studies of Gold Nanoparticles for LSPR-based Sensing

Author

D, Prajna N. and Sinha, Rajeev K.

Published

2024

7. Au nanodyes as enhanced contrast agents in wide field near infrared fluorescence lifetime imaging.

Author

Chacko, Neelima, Motiei, Menachem, Suryakant, Jadhav Suchita, Firer, Michael, and Ankri, Rinat

Subjects

CONTRAST media, FLUORESCENCE, GOLD nanoparticles, GLOBAL Positioning System, NANORODS

Abstract

The near-infrared (NIR) range of the electromagnetic (EM) spectrum offers a nearly transparent window for imaging tissue. Despite the significant potential of NIR fluorescence-based imaging, its establishment in basic research and clinical applications remains limited due to the scarcity of fluorescent molecules with absorption and emission properties in the NIR region, especially those suitable for biological applications. In this study, we present a novel approach by combining the widely used IRdye 800NHS fluorophore with gold nanospheres (GNSs) and gold nanorods (GNRs) to create Au nanodyes, with improved quantum yield (QY) and distinct lifetimes. These nanodyes exhibit varying photophysical properties due to the differences in the separation distance between the dye and the gold nanoparticles (GNP). Leveraging a rapid and highly sensitive wide-field fluorescence lifetime imaging (FLI) macroscopic set up, along with phasor based analysis, we introduce multiplexing capabilities for the Au nanodyes. Our approach showcases the ability to differentiate between NIR dyes with very similar, short lifetimes within a single image, using the combination of Au nanodyes and wide-field FLI. Furthermore, we demonstrate the uptake of Au nanodyes by mineral-oil induced plasmacytomas (MOPC315.bm) cells, indicating their potential for in vitro and in vivo applications. [ABSTRACT FROM AUTHOR]

Published

2024

8. Gold nanoparticles combined baker’s yeast as a successful approach for breast cancer treatment

Author

Amany Elwakkad, Amina A. Gamal el Din, Hisham A. Saleh, Noha E. Ibrahim, Mohamed A. Hebishy, Hagar H. Mourad, Mahitab I. El-Kassaby, Howida Sayed Abou-Seif, and Ghada M. Elqattan

Subjects

Breast cancer, Gold nanospheres, Apoptosis, Baker’s yeast, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Saccharomyces cerevisiae (S. cerevisiae) has been demonstrated in vitro to sensitize several breast cancer cell lines and to be a safe, non-toxic drug with anti-skin cancer action in mice. Furthermore, plasmonic photothermal treatment using gold nanorods has been authorized as a novel method for in vitro and in vivo cancer therapy. Results When compared to tumor-free rats, the treatment with S. cerevisiae conjugated to gold nanospheres (GNSs) lowered Bcl-2 levels while increasing FasL, Bax, cytochrome c, and caspases 8, 9, and 3 levels. Histopathological results showed changes reflecting the ability of nanogold conjugated heat-killed yeast to induce apoptosis is greater than heat-killed yeast alone as the nanogold conjugated with heat-killed yeast showed no tumor, no hyperplasia, no granulation tissue formation, no ulceration, and no suppuration. Nanogold conjugated with heat-killed yeast-treated breast cancer group displayed normal levels of ALT and AST, indicating relatively healthy hepatic cells. Conclusion Our results proved that nanogold conjugated heat-killed yeast can initiate apoptosis and can be used as a safe non-invasive method for breast cancer treatment more effectively than the yeast alone. This, in turn, gives us new insight and a future hope for the first time that breast cancer can be treated by non-invasive, simple, safe, and naturally originated method and achieves a hopeful treatment and a novel method for in vivo cancer therapy.

Published

2023

9. A PCF Sensor Design Using Biocompatible PDMS for Biosensing

Author

Yanxin Yang, Jinze Li, Hao Sun, Jiawei Xi, Li Deng, Xin Liu, and Xiang Li

Subjects

PDMS-PCF, gold nanospheres, LSPR, dual-channel detection, Organic chemistry, QD241-441

Abstract

A novel photonic crystal fiber (PCF) sensor for refractive index detection based on polydimethylsiloxane (PDMS) is presented in this research, as well as designs for single-channel and dual-channel structures for this PDMS-PCF sensor. The proposed structures can be used to develop sensors with biocompatible polymers. The performance of the single-channel PDMS-PCF sensor was studied, and it was found that adjusting parameters such as pore diameter, lattice constant, distance between the D-shaped structure and the fiber core, and the radius of gold nanoparticles can optimize the sensor’s performance. The findings indicate that the detection range of the single-channel photonic crystal is 1.21–1.27. The maximum wavelength sensitivity is 10,000 nm/RIU with a resolution of 1×10−5 RIU, which is gained when the refractive index is set to 1.27. Based on the results of the single-channel PCF, a dual-channel PDMS-PCF sensor is designed. The refractive index detection range of the proposed sensor is 1.2–1.28. The proposed sensor has a maximum wavelength sensitivity of 13,000 nm/RIU and a maximum resolution of 7.69×10−6 RIU at a refractive index of 1.28. The designed PDMS-PCF holds tremendous potential for applications in the analysis and detection of substances in the human body in the future.

Published

2024

10. Interactions between gold nanoparticles with different morphologies and human serum albumin

Author

Jiahui Dai, Chao Chen, Man Yin, Huixing Li, Wenbo Li, Zhaowei Zhang, Qian Wang, Zhongyu Du, Xiangyu Xu, and Yunfei Wang

Subjects

gold nanospheres, gold nanorods, gold nanoflowers, human serum albumin, fluorescence quenching, thermodynamic parameters, Chemistry, QD1-999

Abstract

Introduction: Three different shapes of gold nanoparticles were synthesized in this experiment. At the same time, studies compared their effects with human serum albumin (HSA).Methods: Gold nanoparticles (AuNPs) with three different morphologies, such as, nanospheres (AuNSs), nanorods (AuNRs), and nanoflowers (AuNFs) were synthesized via a seeding method and their characteristic absorption peaks were detected using ultraviolet-visible (UV-vis) absorption spectroscopy, Telectron microscopy (TEM), Dynamic Light Scattering (DLS) and Zeta potential measurements, circular dichroism (CD), and Fourier transform infrared spectroscopy (FTIR) to study the interactions between them and HSA. By comparing the thermodynamic parameters and quenching mechanism of the three materials, similarities and differences were determined in their interactions with HSA.Results: The results showed that with an increase in the concentration of the AuNPs with the three different morphologies, the UV-vis absorption peak intensity of the mixed solution increased, but its fluorescence intensity was quenched. This indicates that the three types of AuNPs interact with HSA, and that the interactions between them represent a static quenching process, which is consistent with the conclusions derived from three-dimensional fluorescence experiments. Through variable-temperature fluorescence experiments, the binding constants, number of binding sites, and thermodynamic parameters of the interactions between the three types of AuNPs and HSA were determined. The Gibbs free energy changes were

Published

2023

11. Hydrophilic gold nanospheres: influence of alendronate, memantine, and tobramycin on morphostructural features

Author

Dina M. Eissa, Mokhtar M. Mabrouk, El Zeiny M. Ebeid, and Mohamed A. Abdel Hamid

Subjects

Gold nanospheres, Alendronate, Memantine, Tobramycin, Stability, Biocompatibility, Chemistry, QD1-999

Abstract

Abstract Turkevich gold nanospheres are the original nanospheres that have been modified over time. Its combination with targeting medications such as alendronate, memantine, and tobramycin will provide additional benefits in targeting specific areas in the bone, brain, and microorganisms, respectively. Hence, The reactivity and stability of nanospheres with various drug concentrations (milli-,micro-, and nano-levels) have been studied. With alendronate, the absorbance spectra of nanospheres at $$\uplambda _{max}$$ λ max 520 nm were always stable and no redshifts occurred. In contrast, the spectra with memantine and tobramycin were stable at the nano-level and redshifts occurred at the milli- and micro-levels. HRTEM and DLS revealed that the core diameter was relatively stable in all cases, whereas the hydrodynamic diameter and zeta potential varied with varying drug concentrations. Increasing concentration increased hydrodynamic diameter slightly with memantine (from 64.99 to 98.41 nm), dramatically with tobramycin (from 135.3 to 332.16 nm), and almost negligibly with alendronate (from 52.08 to 58.94 nm ). Zeta Potential, conversely, is reduced as concentration increases. Memantine had the greatest reduction in negativity, followed by tobramycin, but alendronate had a slight increase in negativity. Benefits from this research would be in targeted drug delivery, where stability and reactivity of gold nanospheres are critical.

Published

2022

12. Sharp Branched Gold Nanostar-Based Lateral-Flow Immunoassay for Detection of Yersinia pestis.

Author

Atta, Supriya, Canning, Aidan J., Odion, Ren, Wang, Hsin-neng, Hau, Derrick, Devadhasan, Jasmine Pramila, Summers, Alexander Jarrett, Gates-Hollingsworth, Marcellene A., Pflughoeft, Kathryn J., Gu, Jian, Montgomery, Douglas C., AuCoin, David P., Zenhausern, Frederic, and Vo-Dinh, Tuan

Abstract

Over the past few decades, colorimetric paper-based lateral flow immunoassay (LFIA) has emerged as a versatile analytical tool for rapid point-of-care detection of infectious diseases with high simplicity and flexibility. The LFIA sensitivity is based on color visualization of the antibody-labeled nanoparticles bound with the target analytes at the test line. Therefore, the nanoparticle design is crucial for LFIA sensitivity. The traditional LFIA is based on spherical gold nanoparticles, which usually suffer from poor sensitivity because of very low optical contrast at the test line. To improve the LFIA sensitivity, we have developed an LFIA based on gold nanostars (GNSs) with different branch lengths and sharpness (GNS-1, GNS-2, and GNS-3), which possess higher optical contrast than conventional gold nanospheres (GNSPs). We have selected the bacterium Yersinia pestis as a model analyte system. The effective affinity of GNSPs and GNSs with the Y. pestis fraction 1 (F1) protein was quantitively investigated by colorimetric and optical density measurements of the test line. The results show that GNS-3, which has maximum spike length and branch sharpness, exhibits the highest analytical sensitivity based on the limit of detection of the LFIA readout compared to other GNSs and GNSPs. The detection limit of the Y. pestis F1 antigen was achieved up to 0.1 ng/mL for GNS-3, which is 100 times lower than that for the GNSP at a 1 pmol/L concentration and 10 times lower than that for the reported procedure based on traditional gold nanoparticles. Overall, our prototype LFIA platform based on a highly spiked GNS (GNS-3) exhibits high analytical sensitivity, indicating it to be a promising candidate for routine LFIA application to detect infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2023

13. Gold nanoparticles combined baker's yeast as a successful approach for breast cancer treatment.

Author

Elwakkad, Amany, Gamal el Din, Amina A., Saleh, Hisham A., Ibrahim, Noha E., Hebishy, Mohamed A., Mourad, Hagar H., El-Kassaby, Mahitab I., Abou-Seif, Howida Sayed, and Elqattan, Ghada M.

Subjects

PHOTOTHERMAL effect, SACCHAROMYCES cerevisiae, GOLD nanoparticles, BREAST cancer, CANCER treatment, LIVER cells

Abstract

Background: Saccharomyces cerevisiae (S. cerevisiae) has been demonstrated in vitro to sensitize several breast cancer cell lines and to be a safe, non-toxic drug with anti-skin cancer action in mice. Furthermore, plasmonic photothermal treatment using gold nanorods has been authorized as a novel method for in vitro and in vivo cancer therapy. Results: When compared to tumor-free rats, the treatment with S. cerevisiae conjugated to gold nanospheres (GNSs) lowered Bcl-2 levels while increasing FasL, Bax, cytochrome c, and caspases 8, 9, and 3 levels. Histopathological results showed changes reflecting the ability of nanogold conjugated heat-killed yeast to induce apoptosis is greater than heat-killed yeast alone as the nanogold conjugated with heat-killed yeast showed no tumor, no hyperplasia, no granulation tissue formation, no ulceration, and no suppuration. Nanogold conjugated with heat-killed yeast-treated breast cancer group displayed normal levels of ALT and AST, indicating relatively healthy hepatic cells. Conclusion: Our results proved that nanogold conjugated heat-killed yeast can initiate apoptosis and can be used as a safe non-invasive method for breast cancer treatment more effectively than the yeast alone. This, in turn, gives us new insight and a future hope for the first time that breast cancer can be treated by non-invasive, simple, safe, and naturally originated method and achieves a hopeful treatment and a novel method for in vivo cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2023

14. Quantifiable Effect of Interparticle Plasmonic Coupling on Sensitivity and Tuning Range for Wavelength-Mode LSPR Fiber Sensor Fabricated by Simple Immobilization Method.

Author

Jia, Shuo, Ma, Aiwen, Dong, Hanpeng, and Xia, Shanhong

Subjects

*REFRACTIVE index, *SURFACE plasmon resonance, *THERAPEUTIC immobilization, *FIBERS, *PLASTIC optical fibers, *PLASMONICS, *PLASMA resonance

Abstract

Herein a gold nanosphere (AuNS)-coated wavelength-mode localized surface plasmon resonance (LSPR) fiber sensor was fabricated by a simple and time-saving electrostatic self-assembly method using poly(allylamine hydrochloride). Based on the localized enhanced coupling effect between AuNSs, the LSPR spectrums of the AuNS monolayer with good dispersity and high density exhibited a favourable capability for refractive index (RI) measurement. Based on the results obtained from the optimization for AuNS distribution, sensing length, and RI range, the best RI sensitivity of the fiber modified by 100 nm AuNS reached up to about 2975 nm/RIU, with the surrounding RI range from 1.3322 to 1.3664. Using an 80 nm AuNS-modified fiber sensor, the RI sensitivity of 3953 nm/RIU was achieved, with the RI range increased from 1.3744 to 1.3911. The effect of sensing length to RI sensitivity was proven to be negligible. Furthermore, the linear relationship between the RI sensitivity and plasma resonance frequency of the bulk metal, which was dependent on the interparticle plasmon coupling effect, was quantified. Additionally, the resonance peak was tuned from 539.18 nm to 820.48 nm by different sizes of AuNSs-coated fiber sensors at a RI of 1.3322, which means the spectrum was extended from VIS to NIR. It has enormous potential in hypersensitive biochemistry detection at VIS and NIR ranges. [ABSTRACT FROM AUTHOR]

Published

2022

15. Effect of gold nanoparticles shape and dose on immunological, hematological, inflammatory, and antioxidants parameters in male rabbit

Author

Eman T. Mehanna, Basma S. A. Kamel, Dina M. Abo-Elmatty, Sameh M. Elnabtity, Manal B. Mahmoud, Mostafa M. Abdelhafeez, and Ahmed Sabry S. Abdoon

Subjects

antioxidant's activity, dose, gold nanorods, gold nanospheres, hematological, immunological parameters, rabbit, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Background and Aim: Gold nanorods (AuNRs) have gained much attention in recent years due to their promising optical and chemical properties and are hence used in applied research and industrial nanotechnology. This study was designed to investigate the effect of gold nanoparticle shape (Gold nanorods vs. gold nanosphere) on immune response in rabbit. Materials and Methods: Thirty New Zealand white rabbits were divided into six groups (n=5 rabbits). The first group is the control negative received an intravenous (IV) injection of normal saline 0.9%; the second group (vaccinated) is the control positive, and the other four groups were vaccinated and received a single-dose or repeated five consecutive IV doses of 300 μg/kg body weight 50 nm AuNRs or 50 nm gold nanosphere (50 nm AuNSs) dissolved in ultrapure water. Blood and serum were collected for the hematological and biochemical analysis. Results: White blood cells (WBCs) count, lymphocytes, monocytes, eosinophils, and basophils showed significantly (p

Published

2022

16. RGD Peptide and PAD4 Inhibitor-Loaded Gold Nanorods for Chemo-Photothermal Combined Therapy to Inhibit Tumor Growth, Prevent Lung Metastasis and Improve Biosafety

Author

Lu Y, Peng Z, Zhu D, Jia Y, Taledaohan A, Li Y, Liu J, and Wang Y

Subjects

gold nanospheres, gold nanorods, pad4 inhibitor, chemo-photothermal combined therapy, biosafety, Medicine (General), R5-920

Abstract

Yu Lu,1,2 Zidong Peng,1,2 Di Zhu,1,2 Yijiang Jia,1,2 Ayijiang Taledaohan,1,2 Yuanming Li,3 Jiawang Liu,4 Yanming Wang,5 Yuji Wang1,2 1Department of Medicinal Chemistry, College of Pharmaceutical Sciences of Capital Medical University, Beijing, 100069, People’s Republic of China; 2Beijing Area Major Laboratory of Peptide and Small Molecular Drugs, Engineering Research Center of Endogenous Prophylactic of Ministry of Education of China, Beijing Laboratory of Biomedical Materials, Beijing Laboratory of Oral Health, Beijing, 100069, People’s Republic of China; 3Invasive Tumor Therapies Center, Beijing Hospital, National Center of Gerontology, Beijing, 100730, People’s Republic of China; 4Medicinal Chemistry Core, The University of Tennessee Health Science Center, 579 College of Pharmacy Building, Memphis, TN, 38163, USA; 5School of Life Sciences, Henan University, Kaifeng, 475004, People’s Republic of ChinaCorrespondence: Yuji Wang 10 Xi Tou Tiao, You An Men, Beijing, 100069, People’s Republic of ChinaTel +86-10-8391-1530Fax +86-10-8391-1533Email wangyuji@ccmu.edu.cnPurpose: A targeted drug delivery system that combines protein-arginine deiminase type-4 (PAD4) inhibitors YW3-56 (356) with PTT of NPs is constructed to both decrease the accumulation of gold in metabolic organs and reduce the dose of chemotherapeutic agents.Patients and Methods: In vitro cytotoxicity test and in vivo S180 tumor-bearing mice model were used to compare antitumor activity of 356-modified gold nanospheres and nanorods. The A549 tumor-bearing mice model was also exploited in antitumor assessment. In addition, ICP-MS, blood cell analyzer and blood biochemistry analyzer are applied for assessing the biosafety of NPs.Results: Both 356-modified gold nanospheres and nanorods showed antitumor activity. However, 356-loaded gold nanorods are found to have better tumor inhibitory activity than 356-loaded gold nanospheres in the presence of laser and without laser irradiation. Thus, 356-loaded gold nanorods are selected to be applied for chemo-photothermal combined therapy on in vivo. We find that combination therapy could inhibit tumor growth and reduce lung tumor metastasis and inflammatory infiltration compared with individual therapy. It triggers apoptosis in tumor tissue observed by TUNEL assay and TEM pictures.Conclusion: Thus, an RGD targeting and PAD4 inhibitor-loaded system are established based on chemo-photothermal combined therapy. It could inhibit tumor growth, prevent lung metastasis and improve biosafety.Keywords: gold nanospheres, gold nanorods, PAD4 inhibitor, chemo-photothermal combined therapy, biosafety

Published

2021

17. Triple-color fluorescence co-localization of PD-L1-overexpressing cancer exosomes.

Author

Wei, Jinxiu, Zhu, Kai, Chen, Zengwei, Yang, Zhaoyan, Yang, Kuo, Wang, Zhuyuan, Zong, Shenfei, and Cui, Yiping

Subjects

*EXOSOMES, *FLUORESCENCE, *APTAMERS, *DETECTION limit, *CELL death, *PROGRAMMED death-ligand 1, *TUMOR diagnosis

Abstract

Programed cell death ligand 1 (PD-L1) is a protein biomarker overexpressed on exosomes derived from tumor cells. It plays an important role in tumor diagnosis, screening, evaluation of therapeutic efficacy, and prognosis. In this study, a facile method is presented to detect PD-L1-overexpressing cancer exosomes with high specificity and sensitivity. First, gold nanospheres (GNSs) were attached to the bottom of an eight-well chambered slide by electrostatic adsorption, forming the detection substrate. Then, Cy5-labeled CD63 aptamers (i.e., the capture probes) were modified on the GNSs by Au–S bond. After adding samples containing target exosomes which were stained by membrane dyes DiI in advance, FAM-labeled PD-L1 aptamers (i.e., the immunoprobes) were added to recognize PD-L1 on the target exosomes. By triple-color fluorescence co-localization (TFC) of the Cy5, DiI, and FAM channels, highly sensitive and reliable detection of the PD-L1-overexpressing exosomes was achieved in the concentration range 7.78 × 101 to 7.78 × 104 particles/mL with a detection limit down to 6 particles/mL. The advantages of the proposed detection method include the following; first, the detection substrate is easy to prepare and convenient to clean. Second, the TFC strategy can completely exclude nonspecific reaction sites and thus significantly improves the accuracy. Such a facile and reliable detection method holds a great potential in exosome-based cancer theranostics. In this paper, we proposed a triple-color fluorescence co-localization (TFC) strategy to significantly improve the reliability of exosome detection and the detection substrate is easy to prepare and convenient to clean. In addition, the LOD is down to 6 particles/mL, which is quite low compared with other detection methods [ABSTRACT FROM AUTHOR]

Published

2022

18. Luminescent Self-Assembled Monolayer on Gold Nanoparticles: Tuning of Emission According to the Surface Curvature.

Author

Candreva, Angela, Di Maio, Giuseppe, Parisi, Francesco, Scarpelli, Francesca, Crispini, Alessandra, Godbert, Nicolas, Ricciardi, Loredana, Nucera, Antonello, Rizzuto, Carmen, Barberi, Riccardo C., Castriota, Marco, and La Deda, Massimo

Subjects

CURVATURE, MONOMOLECULAR films, GOLD nanoparticles, BIPYRIDINE, EMISSION spectroscopy

Abstract

Until now, the ability to form a self-assembled monolayer (SAM) on a surface has been investigated according to deposition techniques, which in turn depend on surface-coater interactions. In this paper, we pursued two goals: to form a SAM on a gold nanosurface and to correlate its formation to the nanosurface curvature. To achieve these objectives, gold nanoparticles of different shapes (spheres, rods, and triangles) were functionalized with a luminescent thiolated bipyridine (Bpy-SH), and the SAM formation was studied by investigating the photo-physics of Bpy-SH. We have shown that emission wavelength and excited-state lifetime of Bpy-SH are strongly correlated to the formation of specific aggregates within SAMs, the nature of these aggregates being in close correlation to the shape of the nanoparticles. Micro-Raman spectroscopy investigation was used to test the SERS effect of gold nanoparticles on thiolated bipyridine forming SAMs. [ABSTRACT FROM AUTHOR]

Published

2022

19. Hysteresis Nanoarchitectonics with Chiral Gel Fibers and Achiral Gold Nanospheres for Reversible Chiral Inversion.

Author

Xu, Hui, Zhang, Qi, Gan, Jia‐An, Wang, Zhuo, Chen, Meng, Shan, Yahan, Chen, Shaoyu, Tong, Fei, and Qu, Da‐Hui

Subjects

*SMALL-angle X-ray scattering, *HYSTERESIS, *GOLD nanoparticles, *INTELLIGENT control systems, *FIBERS, *HOLLOW fibers

Abstract

Intelligent control over the handedness of circular dichroism (CD) is of special significance in self‐organized biological and artificial systems. Herein, we report a chiral organic molecule (R1) containing a disulfide unit self‐assembles into M‐type helical fibers gels, which undergoes chirality inversion by incorporating gold nanospheres due to the formation of Au−S bonds between R1 and gold nanospheres. Upon heating at 80 °C, the aggregation of gold nanospheres results in a disappearance of the Au−S bond, allowing the reversible switching back to M‐type helical fibers. The original chirality of M‐type fibers could also be retained by adding anisotropic gold nanorods. A series of characterization methods, involving CD, Raman, Infrared spectroscopy, electric microscopy, and small‐angle X‐ray scattering (SAXS) measurements were used to investigate the mechanism of chiral evolutions. Our results provide a facile way of fabricating hysteresis nanoarchitectonics to achieve dynamic supramolecular chirality using inorganic metallic nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2022

20. In vitro and in vivo applications of Euphorbia wallichii shoot extract-mediated gold nanospheres

Author

Ullah Rehman, Shah Sumaira, Muhammad Zahir, Shah Sajjad Ali, Faisal Shah, Khattak Umbreen, Haq Tauheed ul, and Taj Akbar Muhammad

Subjects

euphorbia wallichii, gold nanospheres, characterization, in vitro, in vivo applications, Chemistry, QD1-999

Abstract

The current study was designed to investigate the potential of Euphorbia wallichii shoot extract for reducting Au3+ and stabilizing gold nanoparticles. UV-visible spectra of gold nanoparticles showed obvious surface plasmon resonance peak at 548 nm. Microscopy (SEM and TEM) showed spherical dimensions, and the energy dispersive X-ray spectra displayed the strongest optical absorption peak for gold (Au) at 2.1 keV. Dynamic light scattering spectra represent polydispersed mixture with particulate diameter of 2.5–103.2 nm. The IR spectra confirm the potential functional groups of shoot extract responsible for the reduction of Au3+ to gold nanoparticles which exhibit tremendous antibacterial potential of 76.31%, 68.47%, 79.85%, 48.10%, and 65.53% against Escherichia coli, Staphylococcus aureus, Bacillus pumilus, Pseudomonas aeruginosa, and Klebsiella pneumoniae, respectively. Gold nanoparticles showed markedly elevated fungicidal potency compared to the shoot extract alone against the tested fungal strains. IC50 for 2,2-diphenyl-1-picrylhydrazyl scavenging was 31.52, 18.29, and 15.32 µg/mL at 30, 60, and 90 min of reaction time, respectively. Both shoot extract and nanoparticles revealed 71% mortality at 100 µg/mL, with LD90 values of 310.56 µg/mL. Experimental mice acquired dose-dependent analgesia of 54.21%, 82.60%, and 86.53% when treated with gold nanoparticles at 50, 100, and 200 mg/kg bw. Inhibition of gastrointestinal muscular contraction was 21.16%, 30.49%, and 40.19% in mice feed with 50, 100, and 200 mg/kg bw, respectively.

Published

2021

21. Effect of gold nanoparticles shape and dose on immunological, hematological, inflammatory, and antioxidants parameters in male rabbit.

Author

Mehanna, Eman T., Kamel, Basma S. A., Abo-Elmatty, Dina M., Elnabtity, Sameh M., Mahmoud, Manal B., Abdelhafeez, Mostafa M., and Abdoon, Ahmed Sabry S.

Subjects

*GOLD nanoparticles, *LYMPHOCYTE count, *BLOOD cell count, *LEUCOCYTES, *ERYTHROCYTES, *EOSINOPHILIA, *TUMOR necrosis factors

Abstract

Background and Aim: Gold nanorods (AuNRs) have gained much attention in recent years due to their promising optical and chemical properties and are hence used in applied research and industrial nanotechnology. This study was designed to investigate the effect of gold nanoparticle shape (Gold nanorods vs. gold nanosphere) on immune response in rabbit. Materials and Methods: Thirty New Zealand white rabbits were divided into six groups (n=5 rabbits). The first group is the control negative received an intravenous (IV) injection of normal saline 0.9%; the second group (vaccinated) is the control positive, and the other four groups were vaccinated and received a single-dose or repeated five consecutive IV doses of 300 βg/kg body weight 50 nm AuNRs or 50 nm gold nanosphere (50 nm AuNSs) dissolved in ultrapure water. Blood and serum were collected for the hematological and biochemical analysis. Results: White blood cells (WBCs) count, lymphocytes, monocytes, eosinophils, and basophils showed significantly (p<0.05) higher values with the repeated-dose AuNRs. β-globulin levels showed a significant difference after 15 days in the single-dose AuNSs. Single-dose AuNSs significantly (p<0.05) increased the immunoglobulin G (IgG) and significantly (p<0.05) decreased the tumor necrosis factor-alpha. In addition, it elicited a significant (p<0.05) decrease in the malondialdehyde levels and a significant (p<0.05) increase of the superoxide dismutase, glutathione peroxidase, and catalase levels. Moreover, evoked red blood cells count, mean corpuscular volume, and mean corpuscular hemoglobin were significantly (p<0.05) lower than the control group. The platelet count, lysozymes, and nitric oxide were significantly (p<0.05) higher in repeated-dose AuNRs. Conclusion: The effect of AuNPs is shape and dose-dependent. The repeated 5 days IV 50 nm AuNRs doses over 15 days showed a significant antioxidant effect, with no considerable toxicity or vascular reactions. [ABSTRACT FROM AUTHOR]

Published

2022

22. Quantifiable Effect of Interparticle Plasmonic Coupling on Sensitivity and Tuning Range for Wavelength-Mode LSPR Fiber Sensor Fabricated by Simple Immobilization Method

Author

Shuo Jia, Aiwen Ma, Hanpeng Dong, and Shanhong Xia

Subjects

fiber sensor, gold nanospheres, localized surface plasmon resonance, interparticles plasmonic coupling effect, refractive index test, Chemical technology, TP1-1185

Abstract

Herein a gold nanosphere (AuNS)-coated wavelength-mode localized surface plasmon resonance (LSPR) fiber sensor was fabricated by a simple and time-saving electrostatic self-assembly method using poly(allylamine hydrochloride). Based on the localized enhanced coupling effect between AuNSs, the LSPR spectrums of the AuNS monolayer with good dispersity and high density exhibited a favourable capability for refractive index (RI) measurement. Based on the results obtained from the optimization for AuNS distribution, sensing length, and RI range, the best RI sensitivity of the fiber modified by 100 nm AuNS reached up to about 2975 nm/RIU, with the surrounding RI range from 1.3322 to 1.3664. Using an 80 nm AuNS-modified fiber sensor, the RI sensitivity of 3953 nm/RIU was achieved, with the RI range increased from 1.3744 to 1.3911. The effect of sensing length to RI sensitivity was proven to be negligible. Furthermore, the linear relationship between the RI sensitivity and plasma resonance frequency of the bulk metal, which was dependent on the interparticle plasmon coupling effect, was quantified. Additionally, the resonance peak was tuned from 539.18 nm to 820.48 nm by different sizes of AuNSs-coated fiber sensors at a RI of 1.3322, which means the spectrum was extended from VIS to NIR. It has enormous potential in hypersensitive biochemistry detection at VIS and NIR ranges.

Published

2022

23. Enhancement of Absorption and Effectiveness of a Perovskite Thin-Film Solar Cell Embedded with Gold Nanospheres.

Author

Tabrizi, Afsaneh Asgariyan, Saghaei, Hamed, Mehranpour, Mohammad Amin, and Jahangiri, Mehdi

Subjects

*SOLAR cells, *SURFACE plasmon resonance, *POISSON'S equation, *MAXWELL equations, *FINITE difference time domain method, *GOLD films

Abstract

This paper proposes a novel design of plasmonic perovskite solar cell (PSC). It consists of an anti-reflective glass of fluorine-doped tin oxide (FTO), a compact buffer layer of n-type titanium dioxide (TiO2), an absorbing thin-film layer of perovskite (MAPbI3) integrated with gold (Au) nanospheres, a layer of p-type doped spiro-OMeTAD, and a layer of the cathode on aluminum (Al). This multilayer design's primary purpose is to allow the light to enter the PSC with the minimum reflection and trap it in the active layer due to the presence of Au nanospheres. In this layer, the higher efficiency of PSC is achieved by localized surface plasmon resonances (LSPRs) in the wavelength range from 300 to 1100 nm. A reflective Al layer is used at the bottom of the device to reflect the light into the upper layers to considerably enhance the PSC absorption. The three-dimensional finite-difference time-domain method was conducted to find the best solution to Maxwell's equations so that the best thickness and radius can be selected for each layer and Au nanospheres, respectively. Proper physical dimensions and Au nanospheres played a significant role in numerically indicating that the proposed structures are 60% more absorbent than the other conventional PSCs. In-house simulation software is used to approximate the solar cell by applying the finite element method to develop solutions for the drift–diffusion and Poisson's equations. The examinations of the previous studies revealed that the current study is the first study that has simulated the real model of Auger recombination in perovskite. The results indicated that the proposed PSC embedded with Au nanospheres has the following properties: the built-in potential of 3.16 V, short-circuit current of 27.97 mA/cm2, the open-circuit voltage of 1 V, maximum power of 24.84 mW/cm2, fill-factor of 0.88, the conduction band of 3 eV, electron quasi-Fermi level of 2.5 eV, the hole quasi-Fermi level of 0.6 eV, and efficiency of 24.84%. Finally, the suggested PSC has performed 62% more efficient than conventional PSCs. [ABSTRACT FROM AUTHOR]

Published

2021

24. Luminescent Self-Assembled Monolayer on Gold Nanoparticles: Tuning of Emission According to the Surface Curvature

Author

Angela Candreva, Giuseppe Di Maio, Francesco Parisi, Francesca Scarpelli, Alessandra Crispini, Nicolas Godbert, Loredana Ricciardi, Antonello Nucera, Carmen Rizzuto, Riccardo C. Barberi, Marco Castriota, and Massimo La Deda

Subjects

self-assembled monolayer, gold nanorods, gold nanotriangles, gold nanospheres, emission spectroscopy, the curvature of nanosurface, Biochemistry, QD415-436

Abstract

Until now, the ability to form a self-assembled monolayer (SAM) on a surface has been investigated according to deposition techniques, which in turn depend on surface-coater interactions. In this paper, we pursued two goals: to form a SAM on a gold nanosurface and to correlate its formation to the nanosurface curvature. To achieve these objectives, gold nanoparticles of different shapes (spheres, rods, and triangles) were functionalized with a luminescent thiolated bipyridine (Bpy-SH), and the SAM formation was studied by investigating the photo-physics of Bpy-SH. We have shown that emission wavelength and excited-state lifetime of Bpy-SH are strongly correlated to the formation of specific aggregates within SAMs, the nature of these aggregates being in close correlation to the shape of the nanoparticles. Micro-Raman spectroscopy investigation was used to test the SERS effect of gold nanoparticles on thiolated bipyridine forming SAMs.

Published

2022

25. Quats stabilized gold nanospheres for efficient ligand exchange procedure

Author

Muniba, Gul Naz, Muhammad Naeem Anjum, Muhammad Irfan, Masooma Irfan, Muhammad Arshad, Sadia Z. Bajwa, and Waheed S. Khan

Subjects

Didecyldimethylammonium chloride (DDAC), Gold nanospheres, Ligand exchange, Visible luminescence and single molecular tracking, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

In present work, fine spherical shaped gold nanoparticles are prepared by using a new type of quaternary ammonium cationic surfactant (quats) i.e. didecyldimethylammonium chloride (DDAC) following one step room temperature method. Optical characterization and crystal symmetry has been observed through UV–Vis spectroscopy and XRD analysis, respectively. DDAC coated gold nanospheres (GNSs) are also analysed by using FTIR technique in order to observe binding of the ligand onto the surface of gold. Ligand weight loss has been determined by using TGA technique. Particle size has been examined by using TEM and DLS techniques both. Stability of DDAC coated gold nanoparticles are also examined by using Zeta-potential. A comparison of stabilities of different quats stabilized gold nanoparticles (GNPs) has also been discussed in the present work. Unlike usual CTAB and CTAC ligands, the low binding affinity of DDAC to the gold surface may be more efficient for ligand-exchange procedure. A sharp and fine peak of PL spectrum at around 600 ​nm has been noticed for these GNSs. These luminescent, monodispersed and fine spherical shaped GNPs of size less than 40 ​nm can be valuable in plasmonics and single molecular tracking for further characterizations.

Published

2020

26. Retarded Charge–Carrier Recombination in Photoelectrochemical Cells from Plasmon‐Induced Resonance Energy Transfer.

Author

Choi, Young Moon, Lee, Byoung Wan, Jung, Myung Sun, Han, Hyun Soo, Kim, Suk Hyun, Chen, Kaifeng, Kim, Dong Ha, Heinz, Tony F., Fan, Shanhui, Lee, Jihye, Yi, Gi‐Ra, Kim, Jung Kyu, and Park, Jong Hyeok

Subjects

*FLUORESCENCE resonance energy transfer, *PHOTOELECTROCHEMICAL cells, *PHOTOELECTROCHEMISTRY, *METALLIC films, *CHARGE carrier lifetime, *METALLIC oxides

Abstract

N‐type metal oxides such as hematite (α‐Fe2O3) and bismuth vanadate (BiVO4) are promising candidate materials for efficient photoelectrochemical water splitting; however, their short minority carrier diffusion length and restricted carrier lifetime result in undesired rapid charge recombination. Herein, a 2D arranged globular Au nanosphere (NS) monolayer array with a highly ordered hexagonal hole pattern (hereafter, Au array) is introduced onto the surface of photoanodes comprised of metal oxide films via a facile drying and transfer‐printing process. Through plasmon‐induced resonance energy transfer, the Au array provides a strong electromagnetic field in the near‐surface area of the metal oxide film. The near‐field coupling interaction and amplification of the electromagnetic field suppress the charge recombination with long‐lived photogenerated holes and simultaneously enhance the light harvesting and charge transfer efficiencies. Consequently, an over 3.3‐fold higher photocurrent density at 1.23 V versus reversible hydrogen electrode (RHE) is achieved for the Au array/α‐Fe2O3. Furthermore, the high versatility of this transfer printing of Au arrays is demonstrated by introducing it on the molybdenum‐doped BiVO4 film, resulting in 1.5‐fold higher photocurrent density at 1.23 V versus RHE. The tailored metal film design can provide a potential strategy for the versatile application in various light‐mediated energy conversion and optoelectronic devices. [ABSTRACT FROM AUTHOR]

Published

2020

27. Differing Affinities of Gold Nanostars and Nanospheres toward HeLa and HepG2 Cells: Implications for Cancer Therapy.

Author

Sohrabi Kashani, Ahmad, Badilescu, Simona, Piekny, Alisa, and Packirisamy, Muthukumaran

Abstract

Gold nanoparticles have potential applications for the diagnosis and treatment of diseases due to their optical, sensing, and biological properties. Gold nanoparticles can be used as nanocarriers for the delivery of therapeutic agents or as nanoprobes to detect and monitor intracellular events. Studying their localization and properties in cells is an essential step toward developing nanoparticle products for in vivo use. Raman spectroscopy is a powerful and noninvasive method that we used to investigate how two different morphologies of gold particles, namely, nanostars and nanospheres, interact with cervical cancer cells (HeLa) and liver cancer cells (HepG2). Gold nanoparticles with branched structures are more effective in enhancing the Raman spectra for cell-relevant bands compared to nanospheres. Moreover, we observed a higher level of Raman enhancement of nanostars and nanospheres in HeLa cells compared to HepG2 cells, suggesting HeLa could uptake a higher level of both types under the same condition. We also used scanning electron microscopy and light microscopy to study the distribution of both types of nanoparticles in cells. Our results highlight the importance of nanomorphology in mediating changes in affinity of gold nanoparticles to different chemical structures in cells, which is important for developing nanomedicines for cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2020

28. Hydrophilic gold nanospheres: influence of alendronate, memantine, and tobramycin on morphostructural features

Author

Eissa, Dina M., Mabrouk, Mokhtar M., Ebeid, El Zeiny M., and Abdel Hamid, Mohamed A.

Published

2022

29. Photoacoustic Imaging: Development of Imaging Systems and Molecular Agents

Author

de la Zerda, Adam and Cai, Weibo, editor

Published

2014

30. Plasmonic Nanobubbles for Cancer Theranostics

Author

Lukianova-Hleb, Ekaterina Y., Lapotko, Dmitri O., and Cai, Weibo, editor

Published

2014

31. ESTUDIO TEÓRICO DEL PLASMÓN EN NANOESFERAS DE ORO.

Author

Osorio Anaya, Ana María, Manrique Fajardo, Joaquín J., and Cornejo Sánchez, Óscar

Subjects

DIAMETER, BEHAVIOR, SIZE

Abstract

Copyright of Revista de la Sociedad Química del Perú is the property of Sociedad Quimica del Peru and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

32. Gold nanoparticles in melting gels.

Author

Kallontzi, S., Fabris, L., Jitianu, M., Hernandez, A., Jitianu, A., and Klein, L. C.

Abstract

Melting gels were prepared by the sol–gel process from methyltriethoxysilane (MTES) and dimethyldiethoxysilane (DMDES). Two compositions, 75 mol% MTES-25 mol% DMDES and 65 mol% MTES–35 mol% DMDES, were compared. Citrate-capped gold nanospheres were added to the melting gels during the synthesis process in five concentrations 8, 10, 12, 14, and 18 nM. The doped melting gels were studied both before and after their consolidation into hybrid glasses. Oscillatory rheometry and differential scanning calorimetry were employed to determine glass transition temperatures of the gels. According to oscillatory rheometry performed at constant frequency, the gels initially behave as viscous fluids and this continues as temperature is decreased, while recording the evolution of both storage G'(t,ω0) and loss G" (t,ω0) moduli with temperature. Glass transition temperature was determined as the moduli crossover point. Viscosity was dependent on temperature, but showed little variation with stress. As a general trend, viscosity decreased in the doped gels when compared to the undoped gel. UV–Vis spectra were collected to verify the presence of the gold nanospheres and to monitor their size. For the consolidated samples the position of the plasmon peak reflected the interaction between the gold nanospheres and the hybrid glass matrix. Highlights: Gold nanospheres about 16 nm in diameter were dispersed in melting gels. Melting gels with gold nanoparticles were consolidated to form hybrid glasses. Gold nanoparticles maintained their plasmon resonance in hybrid organic–inorganic glasses derived from a sol–gel process. Largely monodisperse gold nanoparticles were observed in transmission electron microscope (TEM) images of microtomed hybrid glasses. [ABSTRACT FROM AUTHOR]

Published

2019

33. Silver Nanoplates and Gold Nanospheres as Probesfor Revealing an "Interference" Phenomenon in a Simultaneous Quantitative Immunochromatographic Assay.

Author

Zhang, Ganggang, Huang, Youju, Peng, Juan, Han, Jiaojiao, Guo, Ping, Zhang, Lei, Zhang, Jiawei, Lai, Weihua, and Chen, Tao

Abstract

Escherichia coli O157:H7 and Salmonella choleraesuis are two important foodborne pathogens that cause illnesses and even deaths. Rapid and convenient methods, such as immunochromatographic assays (ICAs), are useful for detecting these two pathogens. Herein, we developed a highly sensitive ICA for the simultaneous quantitative analysis of these two foodborne pathogens. Silver nanoplates (AgNPs) and gold nanospheres (AuNSs) were synthesized as two probes for simultaneous detection. In this method, Escherichia coli O157:H7 (E. coli O157:H7) and Salmonella choleraesuis (S. choleraesuis) were specifically detected at concentrations as low as 2.16 × 104 and 1.18 × 105 colony-forming units (CFU)/mL, respectively, in 30 min. Subsequently, a method for separately detecting these two targets with the same test strips was developed. The tests achieved specific detections of E. coli O157:H7 and S. choleraesuis, with detection limits of 1.07 × 104 and 9.85 × 104 CFU/mL, respectively. By comparing the intensity of the test lines (T) in the two methods, we found an interesting phenomenon in which the intensity of T in the simultaneous detection method was lower than that in the separate detection method. RGB analysis of the test lines demonstrated that the two probe–target compounds influenced each other. We believe that this phenomenon is an important factor to consider when building a simultaneous quantitative ICA. [ABSTRACT FROM AUTHOR]

Published

2019

34. Fabrication and characterization of gold nanospheres‐cored pH‐sensitive thiol‐ended triblock copolymer: A smart drug delivery system for cancer therapy.

Author

Mahmoodzadeh, Farideh, Hosseinzadeh, Mehdi, Jannat, Behrooz, and Ghorbani, Marjan

Subjects

TARGETED drug delivery, DRUG delivery systems, CANCER treatment, PROTON magnetic resonance, DRUG solubility, THIOLS

Abstract

Conventional chemotherapy suffers lack of multidrug resistance (MDR), lack of bioavailability, and selectivity. Nano‐sized drug delivery systems (DDS) are developing aimed to solve several limitations of conventional DDS. These systems have been offered for targeting tumor tissue owing to enhanced long circulation time, drug solubility, their retention effect, and improved permeability. As a result, the aim of this project was the design and development of DDS for biomedical applications. For this purpose, gold nanospheres (GNSs) covered by pH‐sensitive thiol‐ended triblock copolymer [poly(methacrylic acid) ‐b‐poly(acrylamide) ‐b‐poly(ε‐caprolactone)‐SH; PMAA‐b‐PAM‐b‐PCL‐SH] for delivery of anticancer drug doxorubicin (DOX). The chemical structures of triblock copolymer were investigated by proton nuclear magnetic resonance (1H NMR) and Fourier transform infrared (FTIR) spectroscopies. 1H NMR spectroscopy and gel permeation chromatography (GPC) were used for calculating the molecular weights of each part in the nanocarrier. The success of coating, GNSs with triblock copolymer was considered by means of dynamic light scattering (DLS), FTIR, ultraviolet‐visible (UV‐Vis), and transmission electron microscopy (TEM) measurement. The pH‐responsive drug release ability, (DOX)‐loading capacity, biocompatibility, and in vitro cytotoxicity effects of the nanocarriers were also studied. As a result, it is expected that the synthesized GNSs@polymer‐DOX considered as a potential application in nanomedicine demand like smart drug delivery, imaging, and chemo‐photothermal therapy. [ABSTRACT FROM AUTHOR]

Published

2019

35. ENGINEERED PAPER PLATFORM LOADED WITH GOLD NANOSPHERES TO IMPROVE SERS PERFORMANCE FOR ANALYTE DETECTION.

Author

ORZAN, F., CAMPU, A., SUARASAN, S., ASTILEAN, S., and FOCSAN, M.

Subjects

PLASMONICS, SERS spectroscopy, GOLD

Abstract

In this paper, we report a flexible surface enhanced Raman scattering (SERS) nanoplatform based on a Whatman paper loaded with gold nanospheres via a direct immersion approach. After the fabrication and optical/morphological characterization, the SERS performance of our plasmonic nanoplatforms was tested using the non-resonant Raman paminothiophenol (p-ATP) analyte. Finally, the plasmonic nanoplatform developed here has demonstrated to have excellent reproducibility, the SERS efficiency being highly dependent on the AuNPs concentration loaded on the 3D flexible scaffold paper. [ABSTRACT FROM AUTHOR]

Published

2018

36. Improved Surface Enhanced Raman Scattering Based on Hybrid Au Nanostructures for Biomolecule Detection

Author

Yang Li, Long Zhou, Longhua Tang, Mingyu Li, and Jian-Jun He

Subjects

Finite-difference time-domain (FDTD) simulation, gold nanospheres, surface enhanced Raman scattering (SERS), substrate, silicon nanowires array., Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

We report the use of highly ordered, dense, and regular arrays of in-plane silicon nanowires as building blocks to produce highly sensitive and well-reproducible surface-enhanced Raman scattering (SERS). A combination of Au nanospheres (AuNPs) and Au coated silicon nanowires (AuSiNWs) was found to exhibit one order higher enhancement of SERS signal compared with that of the normal AuSiNWs substrate. The experimental results were further evidenced by simulating the electrical field distributions using 3-D finite-difference time-domain (3-D-FDTD). The prominence and potential applications of biosensors using AuNPs/AuSiNWs arrays were demonstrated by the improved sensitivity in detecting SERS signal of 4, 4'-Bipyridine.

Published

2016

37. Improved molecular fingerprint analysis employing multi-branched gold nanoparticles in conjunction with surface-enhanced Raman scattering

Author

Johnston J, Taylor EN, Gilbert RJ, and Webster TJ

Subjects

Surface Enhanced Raman spectroscopy (SERS), Multi-branched gold nanoparticles, gold nanospheres, Raman tags, IR820, Medicine (General), R5-920

Abstract

Jencilin Johnston,1 Erik N Taylor,1,2 Richard J Gilbert,2 Thomas J Webster1,3 1Department of Chemical Engineering, 2Department of Chemistry and Chemical Biology, Northeastern University, Boston, MA, USA; 3Center of Excellence for Advanced Materials Research, King Abdulaziz University, Jeddah, Saudi Arabia Abstract: Vibrational spectroscopy is a powerful analytical tool that assesses molecular properties based on spectroscopic signatures. In this study, the effect of gold nanoparticle morphology (spherical vs multi-branched) was assessed for the characterization of a Raman signal (ie, molecular fingerprint) that may be helpful for numerous medical applications. Multi-branched gold nanoparticles (MBAuNPs) were fabricated using a green chemistry method which employed the reduction of gold ion solute by 2-[4-(2-hydroxyethyl)-1-piperazyl] ethane sulfonic acid. Two types of reporter dyes, indocyanine (IR820 and IR792) and carbocyanine (DTTC [3,3'-diethylthiatricarbocyanine iodide] and DTDC [3,3'-diethylthiadicarbocyanine iodide]), were functionalized to the surface of the MBAuNPs and stabilized with denatured bovine serum albumin, thus forming the surface-enhanced Raman spectroscopy tag. Fluorescein isothiocyanate-conjugated anti-epidermal growth factor receptor to the surface-enhanced Raman spectroscopy tags and the properties of the resulting conjugates were assessed through determination of the Raman signal. Using the MBAuNP Raman probes synthesized in this manner, we demonstrated that MBAuNP provided significantly more surface-enhanced Raman scattering signal when compared with the associated spherical gold nanoparticle of similar size and concentration. MBAuNP enhancements were retained in the surface-enhanced Raman spectroscopy tags complexed to anti-epidermal growth factor receptor, providing evidence that this could be a useful biological probe for enhanced Raman molecular fingerprinting. Furthermore, while utilizing IR820 as a novel reporter dye linked with MBAuNP, superior Raman signal fingerprint results were obtained. Such results provide significant promise for the use of MBAuNP in the detection of numerous diseases for which biologically specific surface markers exist. Keywords: gold nanostars, IR820, SERS

Published

2015

38. Versatile Polypeptide-Functionalized Plasmonic Paper as Synergistic Biocompatible and Antimicrobial Nanoplatform

Author

Leopold Tie, Mina Răileanu, Mihaela Bacalum, Irina Codita, Ștefania Mădălina Negrea, Costin Ștefan Caracoti, Elena-Carmina Drăgulescu, Andreea Campu, Simion Astilean, and Monica Focsan

Subjects

gold nanospheres, paper platform, antimicrobial peptides, biocompatibility, antimicrobial activity, Staphylococcus aureus, Organic chemistry, QD241-441

Abstract

Nowadays, thanks to nanotechnological progress, which itself guides us more and more closely toward not only the efficient design of innovative nanomaterials or nanostructures, but to the improvement of their functionality, we benefit from an important asset in the battle against pathogenic illnesses. Herein, we report a versatile biocompatible plasmonic nanoplatform based on a Whatman paper incorporating positively-charged gold nanospherical particles via the immersion approach. The morphological characterization of the as-engineered-plasmonic paper was examined by SEM (scanning electron microscopy) and HRTEM (high-resolution transmission electron microscopy) investigations, while its surface chemical modification with a synthetic polypeptide, specifically RRWHRWWRR-NH2 (P2), was proved by monitoring the plasmonic response of loaded gold nanospheres and the emission signal of P2 via fluorescence spectroscopy. The as-functionalized plasmonic paper is non-cytotoxic towards BJ fibroblast human cells at bactericidal concentrations. Finally, the antimicrobial activity of the P2-functionalized plasmonic paper on both planktonic bacteria and biofilms was tested against two reference strains: Gram-positive Bacteria, i.e., Staphylococcus aureus and the Gram-negative Bacteria, i.e., Escherichia coli, determining microbial inhibition of up to 100% for planktonic bacteria. In line with the above presented nanoplatform’s proper design, followed by their functionalization with active antimicrobial peptides, new roads can be open for determining antibiotic-free treatments against different relevant pathogens.

Published

2020

39. Nanoparticle-Mediated Photothermal Therapy of Brain Tumors

Author

Makkouk, Amani R., Madsen, Steen J., and Madsen, Steen J., editor

Published

2013

40. Amorphous Metamaterials and Potential Nanophotonics Applications

Author

Bilotti, Filiberto, Tretyakov, Sergei, Rockstuhl, Carsten, editor, and Scharf, Toralf, editor

Published

2013

41. Optics and Plasmonics: Fundamental Studies and Applications

Author

Hernández, Florencio Eloy and Geddes, Chris D., editor

Published

2012

42. Interactions between gold nanoparticles with different morphologies and human serum albumin.

Author

Dai J, Chen C, Yin M, Li H, Li W, Zhang Z, Wang Q, Du Z, Xu X, and Wang Y

Abstract

Introduction: Three different shapes of gold nanoparticles were synthesized in this experiment. At the same time, studies compared their effects with human serum albumin (HSA). Methods: Gold nanoparticles (AuNPs) with three different morphologies, such as, nanospheres (AuNSs), nanorods (AuNRs), and nanoflowers (AuNFs) were synthesized via a seeding method and their characteristic absorption peaks were detected using ultraviolet-visible (UV-vis) absorption spectroscopy, Telectron microscopy (TEM), Dynamic Light Scattering (DLS) and Zeta potential measurements, circular dichroism (CD), and Fourier transform infrared spectroscopy (FTIR) to study the interactions between them and HSA. By comparing the thermodynamic parameters and quenching mechanism of the three materials, similarities and differences were determined in their interactions with HSA. Results: The results showed that with an increase in the concentration of the AuNPs with the three different morphologies, the UV-vis absorption peak intensity of the mixed solution increased, but its fluorescence intensity was quenched. This indicates that the three types of AuNPs interact with HSA, and that the interactions between them represent a static quenching process, which is consistent with the conclusions derived from three-dimensional fluorescence experiments. Through variable-temperature fluorescence experiments, the binding constants, number of binding sites, and thermodynamic parameters of the interactions between the three types of AuNPs and HSA were determined. The Gibbs free energy changes were <0, indicating that the reactions of the three types of AuNPs with HSA are spontaneous, resulting in associated matter. Binding constant measurements indicated that the strongest binding took place between the AuNFs and HSA. In addition, the results of fluorescence, CD spectroscopy, and FTIR showed that three different shapes of AuNPs can induce conformational changes in HSA and reduce the α-helix content. Among them, AuNFs have the smallest ability to induce conformational changes. Discussion: According to studies, AuNFs interact more favorably with HSA. This can be used as a reference for the administration of drugs containing AuNPs., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Dai, Chen, Yin, Li, Li, Zhang, Wang, Du, Xu and Wang.)

Published

2023

43. Close-Packed Colloidal Monolayers of Ultra-Smooth Gold Nanospheres by Controlled Trapping onto Polymer Thin Films.

Author

Kim, Jun-Min, Jung, Dae-Woong, Lee, Gaehang, and Yi, Gi-Ra

Abstract

Ultra-smooth and highly-spherical gold nanoparticles can form uniform colloidal film from evaporating sessile droplets on substrates at relatively high temperature, in which gold nanospheres are assembled at the air-liquid interface due to fast evaporation and further form multilayers on polystyrene-coated silicon wafer. Then, gold nanospheres at bottom layer are wetted by polystyrene upon thermal annealing around 80 °C and securely trapped in polymer solid film during cooling step. Finally, additionally stacked nanospheres in multilayer film are washed out by simple sonication leaving high-quality colloidal monolayers of gold nanospheres. [ABSTRACT FROM AUTHOR]

Published

2018

44. Synthesis and characterization of hollow gold nanoparticles by recovery of gold from secondary resources.

Author

Loghman Nia, Z. and Naderi, M.

Subjects

*GOLD nanoparticle synthesis, *COPPER, *ANODES, *THIOUREA, *CHEMICAL templates, *METAL complexes

Abstract

Hollow gold nanoparticles were prepared by using cationic gold-thiourea complex obtained from copper anode slime as a secondary gold resource. Silica nanoparticles of less than 100 nm were firstly prepared by Stober method to be used as a hard template on which gold nanoparticles are decomposed; silica-gold core-shell nanostructures were synthesized as per this method. The silica nanotemplates were removed through chemical etching of silica nanoparticles by hydrofluoric acid. Finally, hollow gold nanospheres with a thickness of 10 nm and diameter of 100 nm were synthesized. TEM and FESEM results demonstrate that the obtained hollow spheres are pure gold and there is no impurity after etching by HF solution. The BET analysis showed the active surface area and porosity of silica-gold and hollow gold nanospheres increased from 38.11 to 190.7 m/g. Graphical Abstract: [ABSTRACT FROM AUTHOR]

Published

2018

45. Enhancing Mo:BiVO4 Solar Water Splitting with Patterned Au Nanospheres by Plasmon‐Induced Energy Transfer.

Author

Kim, Jung Kyu, Shi, Xinjian, Jeong, Myung Jin, Park, Joonsuk, Han, Hyun Soo, Kim, Suk Hyun, Guo, Yu, Heinz, Tony F., Fan, Shanhui, Lee, Chang‐Lyoul, Park, Jong Hyeok, and Zheng, Xiaolin

Subjects

*PHOTOELECTROCHEMICAL cells, *SOLAR cells, *ENERGY transfer, *BISMUTH, *DOPING agents (Chemistry)

Abstract

Abstract: Plasmonic metal nanostructures have been extensively investigated to improve the performance of metal oxide photoanodes for photoelectrochemical (PEC) solar water splitting cells. Most of these studies have focused on the effects of those metal nanostructures on enhancing light absorption and enabling direct energy transfer via hot electrons. However, several recent studies have shown that plasmonic metal nanostructures can improve the PEC performance of metal oxide photoanodes via another mechanism known as plasmon‐induced resonant energy transfer (PIRET). However, this PIRET effect has not yet been tested for the molybdenum‐doped bismuth vanadium oxide (Mo:BiVO4), regarded as one of the best metal oxide photoanode candidates. Here, this study constructs a hybrid Au nanosphere/Mo:BiVO4 photoanode interwoven in a hexagonal pattern to investigate the PIRET effect on the PEC performance of Mo:BiVO4. This study finds that the Au nanosphere array not only increases light absorption of the photoanode as expected, but also improves both its charge transport and charge transfer efficiencies via PIRET, as confirmed by time‐correlated single photon counting and transient absorption studies. As a result, incorporating the Au nanosphere array increases the photocurrent density of Mo:BiVO4 at 1.23 V versus RHE by ≈2.2‐fold (2.83 mA cm−2). [ABSTRACT FROM AUTHOR]

Published

2018

46. Gold Nanospheres Dispersed Light Responsive Epoxy Vitrimers.

Author

Wang, Zhenhua, Li, Zhen, Wei, Yen, and Ji, Yan

Subjects

*SMART materials, *CROSSLINKING (Polymerization), *CHEMICAL bonds, *GOLD nanoparticles, *PHOTOTHERMAL effect

Abstract

Vitrimers represent a new class of smart materials. They are covalently crosslinked like thermosets, yet they can be reprocessed like thermoplastics. The underlying mechanism is the rapid exchange reactions which form new bonds while breaking the old ones. So far, heating is the most widely used stimulus to activate the exchange reaction. Compared to heating, light not only is much more convenient to achieve remote and regional control, but can also offer fast healing. Gold nanospheres are excellent photothermal agents, but they are difficult to disperse into vitrimers as they easily aggregate. In this paper, we use polydopamine to prepare gold nanospheres. The resultant polydopamine-coated gold nanospheres (GNS) can be well dispersed into epoxy vitrimers, endowing epoxy vitrimers with light responsivity. The composites can be reshaped permanently and temporarily with light at different intensity. Efficient surface patterning and healing are also demonstrated. [ABSTRACT FROM AUTHOR]

Published

2018

47. Hybrid Nanoparticles for Cellular Applications

Author

Calabi, Franco, Lockwood, David J., editor, Offenhäusser, Andreas, editor, and Rinaldi, Ross, editor

Published

2009

48. RGD Peptide and PAD4 Inhibitor-Loaded Gold Nanorods for Chemo-Photothermal Combined Therapy to Inhibit Tumor Growth, Prevent Lung Metastasis and Improve Biosafety

Author

Yanming Wang, Peng Zidong, Jia Yijiang, Di Zhu, Jiawang Liu, Ayijiang Taledaohan, Li Yuanming, Yuji Wang, and Yu Lu

Subjects

Lung Neoplasms, PAD4 inhibitor, Combination therapy, Biophysics, Pharmaceutical Science, Bioengineering, chemo-photothermal combined therapy, Metastasis, Biomaterials, Blood cell, Mice, International Journal of Nanomedicine, In vivo, Drug Discovery, medicine, Animals, Original Research, Nanotubes, TUNEL assay, Chemistry, Organic Chemistry, biosafety, General Medicine, Containment of Biohazards, Photothermal therapy, medicine.disease, gold nanorods, gold nanospheres, medicine.anatomical_structure, Targeted drug delivery, Apoptosis, Cancer research, Gold, Oligopeptides

Abstract

Purpose A targeted drug delivery system that combines protein-arginine deiminase type-4 (PAD4) inhibitors YW3-56 (356) with PTT of NPs is constructed to both decrease the accumulation of gold in metabolic organs and reduce the dose of chemotherapeutic agents. Patients and Methods In vitro cytotoxicity test and in vivo S180 tumor-bearing mice model were used to compare antitumor activity of 356-modified gold nanospheres and nanorods. The A549 tumor-bearing mice model was also exploited in antitumor assessment. In addition, ICP-MS, blood cell analyzer and blood biochemistry analyzer are applied for assessing the biosafety of NPs. Results Both 356-modified gold nanospheres and nanorods showed antitumor activity. However, 356-loaded gold nanorods are found to have better tumor inhibitory activity than 356-loaded gold nanospheres in the presence of laser and without laser irradiation. Thus, 356-loaded gold nanorods are selected to be applied for chemo-photothermal combined therapy on in vivo. We find that combination therapy could inhibit tumor growth and reduce lung tumor metastasis and inflammatory infiltration compared with individual therapy. It triggers apoptosis in tumor tissue observed by TUNEL assay and TEM pictures. Conclusion Thus, an RGD targeting and PAD4 inhibitor-loaded system are established based on chemo-photothermal combined therapy. It could inhibit tumor growth, prevent lung metastasis and improve biosafety., Graphical Abstract

Published

2021

49. Morphologic design of nanogold carriers for a carbonic anhydrase inhibitor: Effect on ocular retention and intraocular pressure.

Author

Eissa, Noura G., Eldehna, Wagdy M., Abdelazim, Esraa B., Eissa, Rana A., Mohamed, Hend H., Diab, Nadeen H., El Hassab, Mahmoud A., Elkaeed, Eslam B., Elsayed, Zainab M., Sabet, Marwa A., Bakr, Marwa H., Aboelela, Ashraf, Abdelshafi, Nahla A., Kamoun, Elbadawy A., Supuran, Claudiu T., Elsabahy, Mahmoud, and Allam, Ayat A.

Subjects

*CARBONIC anhydrase inhibitors, *INTRAOCULAR pressure, *PHOTOTHERMAL effect, *GOLD nanoparticles, *EYE drops, *TRANSMISSION electron microscopy, *ZETA potential

Abstract

Incorporation of a carbonic anhydrase inhibitor into nanogold of tailored morphology may provide a promising strategy for management of glaucoma. Created in BioRender.com. [Display omitted] • Morphologic design of nanogold for management of glaucoma. • Nanogold of spherical and elongated morphologies have been synthesized and loaded with carbonic anhydrase inhibitor. • Spherical nanogolds exhibited a superior therapeutic efficacy compared to the elongated counterparts. Morphologic design of nanomaterials for a diversity of biomedical applications is of increasing interest. The aim of the current study is to construct therapeutic gold nanoparticles of different morphologies and investigate their effect on ocular retention and intraocular pressure in a glaucoma rabbit model. Poly(lactic- co -glycolic acid) (PLGA)-coated nanorods and nanospheres have been synthesized and loaded with carbonic anhydrase inhibitor (CAI), and characterized in vitro for their size, zeta potential and encapsulation efficiency. Nanosized PLGA-coated gold nanoparticles of both morphologies demonstrated high entrapment efficiency (˃ 98%) for the synthesized CAI and the encapsulation of the drug into the developed nanoparticles was confirmed via Fourier transform-infrared spectroscopy. In vivo studies revealed a significant reduction in intraocular pressure upon instillation of drug-loaded nanogold formulations compared to the marketed eye drops. Spherical nanogolds exhibited a superior efficacy compared to the rod-shaped counterparts, probably due to the enhanced ocular retention of spherical nanogolds within collagen fibers of the stroma, as illustrated by transmission electron microscopy imaging. Normal histological appearance was observed for the cornea and retina of the eyes treated with spherical drug-loaded nanogolds. Hence, incorporation of a molecularly-designed CAI into nanogold of tailored morphology may provide a promising strategy for management of glaucoma. [ABSTRACT FROM AUTHOR]

Published

2023

50. The nanotoxicity investigation of optical nanoparticles to cultured cells in vitro

Author

Qinghui Zeng, Dan Shao, Wenyu Ji, Jing Li, Li Chen, and Jie Song

Subjects

Nanotoxicity, Gold nanospheres, Gold nanorods, Silver nanospheres, Silver triangular nanoplates, CdTe/CdS quantum dots, Hela cells, HepG2 cells, SRB, Toxicology. Poisons, RA1190-1270

Abstract

Optical nanoparticles (NPs) have the potential to provide new tools for diagnosis and treatment of human diseases, however, their nanotoxicity and biological characteristics are still unclear. Here, we prepared a series of typical NPs (including gold nanospheres, gold nanorods, silver nanopheres, silver triangular nanoplates and quantum dots) with different material and surface chemical modification for nanotoxicity test. Cell proliferation was investigated by SRB assay where the NPs were co-cultured with cancer cells. It was found that NPs’ toxicity was highly correlated to different factors—material selection, physical size/surface area, shape, and surface chemical property, etc. This work has the potential to provide a uniform and systematic information when they are applied as probes in biological and medical fields.

Published

2014