Article
Chemistry, Physical
Yanqiu Zou, Li Jiang, Tengfei Zhai, Tingting You, Xufeng Jing, Rongyang Liu, Fanghao Li, Wei Zhou, Shangzhong Jin
Summary: High-performance enhancement of Raman scattering is achieved through hierarchical CuS microflowers, with enhancement sensitivity proved to be related to the number and spacing of CuS petals and illumination of the incident wavelength. CuS microflowers serve as a high-performance SERS platform to expand the application field of SERS.
JOURNAL OF ALLOYS AND COMPOUNDS
(2021)
Article
Nanoscience & Nanotechnology
Zhiyang Zhang, Janina Kneipp
Summary: SAMs on plasmonic substrates are essential for SERS applications, while LSPRs can support a variety of chemical modifications. Micropatterning using SAMs on gold nano-substrates enables rewritable SERS security labels and functionalized sensing arrays, showcasing different plasmon-catalyzed reactions.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Article
Materials Science, Multidisciplinary
Nikunjkumar R. Visaveliya, Raminta Mazetyte-Stasinskiene, Johann Michael Koehler
Summary: SERS relies on nanoscale gaps on the substrate to amplify vibrational scattering signals, while polymer-supported metal surfaces can provide larger exposure for interactions with analytes.
ADVANCED OPTICAL MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Xi Yang, Dong Su, Xie Yu, Pei Zeng, Huageng Liang, Guangzu Zhang, Boxiang Song, Shenglin Jiang
Summary: The controllable nanogap structures enable strong and adjustable localized surface plasmon resonance (LSPR). A novel hierarchical plasmonic nanostructure (HPN) is created using colloidal lithography with a rotating coordinate system. The HPN increases the density of hot spots and enhances LSPR tunability and field enhancement. The hot spot engineering strategy of HPNs is demonstrated in surface-enhanced Raman spectroscopy (SERS) applications and allows single-molecule level detection and long-range mapping, providing a platform and guidance for various LSPR applications.
Article
Chemistry, Physical
Yuqin Chen, Yameng Zhu, Huixiang Sheng, Jin Wang, Chengyu Zhang, Yaqi Chen, Wei Huang, Gang Lu
Summary: Surface plasmons have attracted attention in chemical reactions due to their high light utilization efficiency, reaction rate, and mild conditions. This study reveals that the coadsorption of p-hydroxythiophenol (PHTP) molecules significantly enhances the plasmon-mediated decarboxylation reaction of p-mercaptobenzoic acid adsorbed on silver nanoparticles. The observed boosting effect is attributed to the matched energy distribution between the plasmon-generated hot electrons and the lowest unoccupied molecular orbital (LUMO) level of the coadsorbed PHTP molecules. These findings deepen our understanding of plasmon-mediated chemical reactions and provide a convenient and cost-effective way to fabricate highly efficient plasmonic catalysts.
Review
Chemistry, Organic
Yeming Wang, Chaoqun Zhang, Shizhe Li, Lihui Liu, Xiaodong Feng, Gang Liu
Summary: In recent years, the efficiency and selectivity of silver-catalyzed and silver-promoted isocyanide reactions have drawn much attention due to their ability to form diverse new bonds. This review highlights the recent progress in the synthesis of five-membered heterocyclic compounds, six-membered heterocyclic compounds, fused cyclic compounds, and linear nitrogen-containing compounds.
EUROPEAN JOURNAL OF ORGANIC CHEMISTRY
(2023)
Article
Chemistry, Physical
Yuenan Pan, Qi Chu, Shuang Guo, Sila Jin, Eungyeong Park, Yeonju Park, Yantao Sun, Lei Chen, Young Mee Jung
Summary: The purpose of this study is to investigate the charge transfer process and SERS enhancement mechanism in the Ag/MBA/PAN system with varying thicknesses of PAN. The results show that increasing the PAN thickness leads to higher frequency and intensity of the characteristic MBA band, as well as increased intensity of the b2 mode. The degree of CT also increases with increasing PAN thickness, due to the excited SPR from Ag. The electromagnetic enhancement mechanism at the PAN/Ag interface generates hot electrons and facilitates electron transfer in the CT process.
APPLIED SURFACE SCIENCE
(2022)
Article
Chemistry, Analytical
Yong Ho Kwon, Jayer Fernandes, Jae-Jun Kim, Jiangang Chen, Hongrui Jiang
Summary: Traditional commercially available biomedical wearable sensors for tensile force/strain measurement face challenges in miniaturization, whereas flexible and epidermal electronic devices have been utilized to overcome these issues. This study reports the development of flexible, passive, and biocompatible nanostructured photonic devices that can measure tensile strain in real-time by providing an optical readout instead of an electronic one. These devices exhibit a clear blue shift of over 100 nm in peak reflectance in the visible spectrum, making them applicable in various biomedical photonic sensing applications.
Article
Materials Science, Multidisciplinary
Kohei Nogami, Kanna Kishimoto, Yuki Hashimoto, Hiroya Watanabe, Yurin Hishii, Qingyuan Ma, Tomoya Niki, Tomoki Kotani, Toshihiko Kiwa, Satoru Shoji, Takahiro Ohkubo, Jun Kano, Nobuyuki Takeyasu
Summary: The geometry of silver tree-like fractal structures can be controlled by adjusting the viscosity of the solvent. The fractal dimension varies with different viscosities. The silver fractal structures exhibit optical responses in a wide wavelength range and can be observed using an optical microscope. Using these structures, surface-enhanced Raman scattering measurements can be conducted at multiple laser wavelengths, providing significant enhancement effects.
APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING
(2022)
Article
Chemistry, Inorganic & Nuclear
Minu Yadav, Raksha Singh, Anurag Kumar Singh, Manish Sharma, Ida Tiwari, Kaushal Kumar Upadhyay
Summary: We report a simple and easy to perform experimental protocol for highly selective and real time dual mode detection of hydrogen sulfide (H2S) in aqueous medium through galactose activated silver nanoresonators. The optimized silver nanosensor exhibited an excellent linear response in the concentration range of 50-130 nM with a low limit of detection (LOD) of 2.83 nM.
INORGANIC CHEMISTRY COMMUNICATIONS
(2023)
Article
Chemistry, Physical
Ming-Yu Qi, Hua-Kun Wu, Masakazu Anpo, Zi-Rong Tang, Yi-Jun Xu
Summary: Photocatalyzed organic transformations, which convert solar energy into chemical energy, have gained significant attention. This research focuses on the role of support in photoredox transformations and introduces the use of spherical SiO2 support to engineer AuPd alloy particles for efficient and selective photocatalytic Suzuki cross-coupling reactions. By utilizing near-field scattering-promoted optical absorption, the engineered AuPd/SiO2 composites demonstrate enhanced activity compared to commercial SiO2 support, highlighting the efficient utilization of scattered light.
Article
Chemistry, Multidisciplinary
Rui Yang, Yuqing Cheng, Yujun Song, Vladimir I. Belotelov, Mengtao Sun
Summary: This paper focuses on the summary of catalytic reactions driven by surface plasmons and plexciton, demonstrating the promotion effect of coupling interaction in oxidation and reduction reactions. The coupling effect of plasmons and excitons successfully improves the efficiency of catalytic reactions. It also presents the research progress in electrooptical synergic plasmon-exciton co-driven surface catalytic reactions.
Article
Chemistry, Physical
Thomas Meincke, Johannes Walter, Lukas Pflug, Thaseem Thajudeen, Andreas Voelkl, Paola Cardenas Lopez, Maximilian J. Uttinger, Michael Stingl, Satoshi Watanabe, Wolfgang Peukert, Robin N. Klupp Taylor
Summary: Anisotropic nanoparticles with tunable optical properties are synthesized through electroless deposition of silver patches onto colloidal silica particles. New methods are needed to rapidly determine patch yield, thickness, and coverage for process optimization. A novel approach based on multiwavelength analytical ultracentrifugation is presented, allowing simultaneous hydrodynamic and spectroscopic characterization of patchy particles.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2022)
Article
Chemistry, Physical
Wen Zhang, Ziqian Shi, Niu Pan, Pengfei Wu, Xiaoyang Fan, Chao Qu, Hongyan Xi, Tingting You, Yukun Gao, Penggang Yin
Summary: In this study, a metal-organic framework (MOFs; HKUST-1) /Ag NPs substrate was fabricated using electrodeposition and electrostatic adsorption methods. It was demonstrated that the HKUST-1/Ag NPs substrate exhibited efficient localized surface plasmon resonance (LSPR) effect through in-situ surface enhanced Raman spectroscopy (SERS). Compared to traditional Ag substrate, higher efficiency of plasmon catalytic reaction was observed, which was attributed to the adsorption capacity and stabilization effect of HKUST-1. Therefore, the reaction mechanism was confirmed using the high efficiency HKUST-1/Ag NPs substrate, and a novel route for monitoring plasmon catalytic reactions was proposed.
SURFACES AND INTERFACES
(2023)
Article
Chemistry, Physical
Xiao-Gang Wang, Jian Wang, Zi-Jin Jiang, Dai-Wen Tao, Xu-Qiang Zhang, Cheng-Wei Wang
Summary: This study successfully fabricated SERS-active substrates with dual-bandgap photonic crystal structures, demonstrating ultra-high sensitivity and stability for trace detection of Rhodamine B, providing significant potential for applications in biomolecular detection and chemical analysis.
APPLIED SURFACE SCIENCE
(2021)
Article
Chemistry, Multidisciplinary
Binbin Zhou, Shaofei Li, Xianghu Tang, Pan Li, Xiaomin Cao, Borong Yu, Liangbao Yang, Jinhuai Liu
Article
Chemistry, Analytical
Juan Meng, Xianghu Tang, Binbin Zhou, Qiwen Xie, Liangbao Yang
Article
Chemistry, Analytical
Binbin Zhou, Mei Mao, Xiaomin Cao, Meihong Ge, Xianghu Tang, Shaofei Li, Dongyue Lin, Liangbao Yang, Jinhuai Liu
ANALYTICAL CHEMISTRY
(2018)
Article
Chemistry, Multidisciplinary
Mei Mao, Binbin Zhou, Xianghu Tang, Cheng Chen, Meihong Ge, Pan Li, Xingjiu Huang, Liangbao Yang, Jinhuai Liu
CHEMISTRY-A EUROPEAN JOURNAL
(2018)
Article
Spectroscopy
Huan He, Pan Li, Xianghu Tang, Dongyue Lin, Anjian Xie, Yuhua Shen, Liangbao Yang
SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY
(2019)
Review
Chemistry, Multidisciplinary
Meng Yang, Pei-Hua Li, Shi-Hua Chen, Xiang-Yu Xiao, Xiang-Hu Tang, Chu-Hong Lin, Xing-Jiu Huang, Wen-Qing Liu
Article
Biochemical Research Methods
Chentai Cao, Pan Li, Hongmei Liao, Junping Wang, Xianghu Tang, Liangbao Yang
ANALYTICAL AND BIOANALYTICAL CHEMISTRY
(2020)
Article
Engineering, Environmental
Binbin Zhou, Weihui Ou, Chenghao Zhao, Junda Shen, Guobin Zhang, Xianghu Tang, Zhiqin Deng, Guangyu Zhu, Yang Yang Li, Jian Lu
Summary: A novel strategy for mass fabrication of SERS sensors through electrochemical nanoetching of commercial Ag needles has been reported in this study. These sensors feature rich surface nanostructures of ultrahigh SERS sensitivity, allowing for on-site detection and depth-profile information retrieval from products such as purine, proteins, and lipids, while also exhibiting strong durability and repeatability.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Plant Sciences
Guolong Shi, Xinyi Shen, Huan Ren, Yuan Rao, Shizhuang Weng, Xianghu Tang
Summary: Surface-enhanced Raman spectroscopy (SERS) is a sensitive and fast method for pesticide residue detection, but it is susceptible to interference in complex environments. This study used gold nanoparticle (Au-NPs) solution to enhance the raw data of pesticide residues on fruit surfaces and transformed them into Raman signal data sets using IoT Raman spectroscopy principal component detection. Kernel principal component analysis (KPCA) was used to extract main features from the spectra and investigate the effect of different kernel function widths in constructing a qualitative analysis model for pesticide residues. The results showed improved dimensionality reduction, higher mean squared error for cross-validation, and reduced interference from impurity spectral peaks and unclear correlation data dimensionality compared to conventional principal component analysis (PCA) models.
FRONTIERS IN PLANT SCIENCE
(2022)
Article
Materials Science, Multidisciplinary
Yingnan Quan, Xiang-Hu Tang, Wei Shen, Peihua Li, Meng Yang, Xing-Jiu Huang, Wen-Qing Liu
Summary: A highly sensitive SERS substrate based on nanostructured MoS2 with sulfur vacancies (V-S) is proposed, which improves SERS performance through vacancy density regulation. The substrate has the properties of changing bandgap structure, enhancing interaction with target species, and improving target molecule enrichment.
ADVANCED OPTICAL MATERIALS
(2022)
Article
Materials Science, Multidisciplinary
Wei Liu, Zihan Wang, Xianghu Tang, Zhongping Liu, Ying Xiong, Xin Zhou, Guoxiang Zhu, Zhiyang Zhao, Wenqian Yan, Lingyan Shi, Longjin Huang, Yu Liu, Sheng Cui, Xuan He
Summary: Recent advances in surface-enhanced Raman scattering (SERS) on semiconductor substrates have improved selectivity and cost efficiency. This study proposes a new strategy of developing semiconductor substrates based on aerogels, such as TiO2 aerogels, to generate and enhance multiresonant interband charge transfer pathways for intrinsically activated SERS. The aerogel-based SERS shows wide applicability for ultrasensitive detection of explosives and organic dyes, and provides a new approach for constructing low-cost and high-sensitivity SERS substrate materials.
ADVANCED OPTICAL MATERIALS
(2023)
Article
Materials Science, Multidisciplinary
Yingnan Quan, Xiang-Hu Tang, Wenjing Lu, Wang Huo, Zongyin Song, Wei Shen, Meng Yang, Xing-Jiu Huang, Wen-Qing Liu
Summary: This study proposes a new substrate material, CA-V-TiO2, which achieves energy level matching and charge-transfer resonance through the regulation of vacancies and amorphous state, optimizing the performance of SERS substrate. The CA-V-TiO2 substrate enables sensitive detection of chloramphenicol with low detection limit, good reproducibility, and high stability.
ADVANCED OPTICAL MATERIALS
(2023)
Article
Chemistry, Multidisciplinary
Yongfeng Tian, Lu Zhao, Yonghua Pan, Zhengfeng Li, Xiaofeng Shen, Xia Zhang, Xianghu Tang, Xin Feng, Xingjiu Huang
Summary: Surface enhanced Raman spectroscopy (SERS) was used to evaluate the volatile release of nicotine from snus products under different storage conditions. By comparing the intensities of the spectral peaks of nicotine molecules with increasing temperature and humidity, the nicotine release under different conditions could be evaluated. This study provides valuable reference for understanding the volatile release of nicotine and regulating its levels in snus products, and opens up new perspectives for further research on the impact of nicotinoids on smokers' health and cessation programs.
Article
Chemistry, Analytical
Yongfeng Tian, Xianghu Tang, Yaning Fu, Shanzhai Shang, Gaofeng Dong, Tinghua Li, Xingjiu Huang, Donglai Zhu
Summary: Surface enhanced Raman spectroscopy (SERS) provides unique chemical and structural information on target molecules and was used for simultaneous extraction and detection of nicotine released from snus products. The decrease in nicotine concentration over time was monitored, revealing a quadratic relationship between nicotine concentration and time, with most of the nicotine released in approximately 15 minutes. Such non-destructive measurements open up new perspectives for research on the impact of nicotinoids on smokers' health and cessation programs.
ANALYTICAL METHODS
(2021)
Article
Chemistry, Multidisciplinary
Xiao-An Wang, Wei Shen, Binbin Zhou, Daoyang Yu, Xianghu Tang, Jinhuai Liu, Xingjiu Huang
Summary: The study introduced a 3D hotspot matrix SERS platform in water with the assistance of glycerol, monitoring dynamic signal changes of IS and target molecules with high sensitivity and stability. The consistent variation trends of IS and target molecules in the glycerol-assisted liquid film protection system enable reliable calibration of signal fluctuations.
Article
Chemistry, Multidisciplinary
Laetitia Bardet, Herve Roussel, Stefano Saroglia, Masoud Akbari, David Munoz-Rojas, Carmen Jimenez, Aurore Denneulin, Daniel Bellet
Summary: The thermal instability of silver nanowires leads to increased electrical resistance in AgNW networks. Understanding the relationship between structural and electrical properties of AgNW networks is crucial for their integration as transparent electrodes in flexible optoelectronics. In situ X-ray diffraction measurements were used to study the crystallographic evolution of Ag-specific Bragg peaks during thermal ramping, revealing differences in thermal and structural transitions between bare and SnO2-coated AgNW networks.
Article
Chemistry, Multidisciplinary
Nathalia Cancino-Fuentes, Arnau Manasanch, Joana Covelo, Alex Suarez-Perez, Enrique Fernandez, Stratis Matsoukis, Christoph Guger, Xavi Illa, Anton Guimera-Brunet, Maria V. Sanchez-Vives
Summary: This study provides a comprehensive characterization of graphene-based solution-gated field-effect transistors (gSGFETs) for brain recordings, highlighting their potential clinical applications.
Article
Chemistry, Multidisciplinary
Sikandar Aftab, Hailiang Liu, Dhanasekaran Vikraman, Sajjad Hussain, Jungwon Kang, Abdullah A. Al-Kahtani
Summary: This study examines the effects of hybrid nanoparticles made of NiO@rGO and NiO@CNT on the active layers of polymer solar cells and X-ray photodetectors. The findings show that these hybrid nanoparticles can enhance the charge carrier capacities and exciton dissociation properties of the active layers. Among the tested configurations, the NiO@CNT device demonstrates superior performance in converting sunlight into electricity, and achieves the best sensitivity for X-ray detection.
Article
Chemistry, Multidisciplinary
Hyo Jung Shin, Seung Gyu Choi, Fengrui Qu, Min-Hee Yi, Choong-Hyun Lee, Sang Ryong Kim, Hyeong-Geug Kim, Jaewon Beom, Yoonyoung Yi, Do Kyung Kim, Eun-Hye Joe, Hee-Jung Song, Yonghyun Kim, Dong Woon Kim
Summary: This study investigates the role of SOX9 in reactive astrocytes following ischemic brain damage using a PLGA nanoparticle plasmid delivery system. The results demonstrate that PLGA nanoparticles can reduce ischemia-induced neurological deficits and infarct volume, providing a potential opportunity for stroke treatment.
Article
Chemistry, Multidisciplinary
Anurag Chaudhury, Koushik Debnath, Nikhil R. Jana, Jaydeep K. Basu
Summary: The study investigates the interaction between nanoparticles and cell membranes, and identifies key parameters, including charge, crowding, and membrane fluidity, that determine the adsorbed concentration and unbinding transition of nanoparticles.
Article
Chemistry, Multidisciplinary
Sina Sadeghi, Fazel Bateni, Taekhoon Kim, Dae Yong Son, Jeffrey A. Bennett, Negin Orouji, Venkat S. Punati, Christine Stark, Teagan D. Cerra, Rami Awad, Fernando Delgado-Licona, Jinge Xu, Nikolai Mukhin, Hannah Dickerson, Kristofer G. Reyes, Milad Abolhasani
Summary: In this study, an autonomous approach for the development of lead-free metal halide perovskite nanocrystals is presented, which integrates a modular microfluidic platform with machine learning-assisted synthesis modeling. This approach enables rapid and optimized synthesis of copper-based lead-free nanocrystals.
Article
Chemistry, Multidisciplinary
Zahir Abbas, Nissar Hussain, Surender Kumar, Shaikh M. Mobin
Summary: The rational construction of free-standing and flexible electrodes for electrochemical energy storage devices is an emerging research focus. In this study, a redox-active metal-organic framework (MOF) was prepared on carbon nanofibers using an in situ approach, resulting in a flexible electrode with high redox-active behavior and unique properties such as high flexibility and lightweight. The prepared electrode showed excellent cyclic retention and rate capability in supercapacitor applications. Additionally, it could be used as a freestanding electrode in flexible devices at different bending angles.
Article
Chemistry, Multidisciplinary
Lishan Zhang, Xiaoting Zhang, Hui Ran, Ze Chen, Yicheng Ye, Jiamiao Jiang, Ziwei Hu, Miral Azechi, Fei Peng, Hao Tian, Zhili Xu, Yingfeng Tu
Summary: Photodynamic therapy (PDT) is a promising local treatment modality in cancer therapy, but its therapeutic efficacy is restricted by ineffective delivery of photosensitizers and tumor hypoxia. In this study, a phototactic Chlorella-based near-infrared (NIR) driven green affording-oxygen microrobot system was developed for enhanced PDT. The system exhibited desirable phototaxis and continuous oxygen generation, leading to the inhibition of tumor growth in mice. This study demonstrates the potential of using a light-driven green affording-oxygen microrobot to enhance photodynamic therapy.
Article
Chemistry, Multidisciplinary
Yujin Li, Jing Xu, Xinqi Luo, Futing Wang, Zhong Dong, Ke-Jing Huang, Chengjie Hu, Mengyi Hou, Ren Cai
Summary: In this study, hollow heterostructured materials were constructed using an innovative template-engaged method as cathodes for zinc-ion batteries. The materials exhibited fast Zn2+ transport channels, improved electrical conductivity, and controlled volume expansion during cycling. The designed structure allowed for an admirable reversible capacity and high coulombic efficiency.
Article
Chemistry, Multidisciplinary
Paritosh Mahato, Shashi Shekhar, Rahul Yadav, Saptarshi Mukherjee
Summary: This study comprehensively elucidates the role of the core and electrostatic surface of metal nanoclusters in catalytic reduction reactions. The electrostatic surface dramatically modulates the reactivity of metal nanoclusters.
Article
Chemistry, Multidisciplinary
Pei Liu, Mengdi Liang, Zhengwei Liu, Haiyu Long, Han Cheng, Jiahe Su, Zhongbiao Tan, Xuewen He, Min Sun, Xiangqian Li, Shuai He
Summary: This study demonstrates a simple and environmentally-friendly method for the synthesis of zinc oxide nanozymes (ZnO NZs) using wasted hop extract (WHE). The WHE-ZnO NZs exhibit exceptional peroxidase-like activity and serve as effective catalysts for the oxidation of 3,3,5,5-tetramethylbenzidine (TMB) in the presence of hydrogen peroxide (H2O2). In addition, a straightforward colorimetric technique for detecting both H2O2 and glucose was developed using the WHE-ZnO NZs as peroxidase-like catalysts.
Article
Chemistry, Multidisciplinary
Hyunkyu Oh, Young Jun Lee, Eun Ji Kim, Jinseok Park, Hee-Eun Kim, Hyunsoo Lee, Hyunjoo Lee, Bumjoon J. Kim
Summary: Mesoporous carbon particles have unique structural properties that make them suitable as support materials for catalytic applications. This study investigates the impact of channel nanostructures on the catalytic activity of porous carbon particles (PCPs) by fabricating PCPs with controlled channel exposure on the carbon surface. The results show that PCPs with highly open channel nanostructures exhibit significantly higher catalytic activity compared to those with closed channel nanostructures.
Article
Chemistry, Multidisciplinary
Yunjie Lu, Zhaohui Li, Zewei Li, Shihao Zhou, Ning Zhang, Jianming Zhang, Lu Zong
Summary: A tough, long-lasting adhesive and highly conductive nanocomposite hydrogel (PACPH) was fabricated via the synergy of interfacial entanglement and adhesion group densification. PACPH possesses excellent mechanical properties, interfacial adhesion strength, and conductivity, making it a promising material for long-term monitoring of human activities and electrocardiogram signals.
Article
Chemistry, Multidisciplinary
Zichao Wei, Audrey Vandergriff, Chung-Hao Liu, Maham Liaqat, Mu-Ping Nieh, Yu Lei, Jie He
Summary: We have developed a simple method to prepare polymer-grafted plasmonic metal nanoparticles with pH-responsive surface-enhanced Raman scattering. By using pH-responsive polymers as ligands, the aggregation of nanoparticles can be controlled, leading to enhanced SERS. The pH-responsive polymer-grafted nanoparticles show high reproducibility and sensitivity in solution, providing a novel approach for SERS without the need for sample pre-concentration.
Article
Chemistry, Multidisciplinary
Melis Ozge Alas Colak, Ahmet Gungor, Merve Buldu Akturk, Emre Erdem, Rukan Genc
Summary: This research investigates the effect of functionalizing carbon dots with hydroxyl polymers on their performance as electrode materials in a supercapacitor. The results show that the functionalized carbon dots exhibit excellent electrochemical performance and improved stability.
