Article
Nanoscience & Nanotechnology
Adam Kabanski, Maciej Ptak, Dagmara Stefanska
Summary: This study reports the structural and luminescence studies of a series of six heterometallic perovskite-type metal-organic frameworks. The results show that these materials have tunable structural and luminescence properties, which can be used to design a temperature sensing model and make them promising candidates for noncontact thermometers.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Optics
Rui Li, Guohui Wei, Zhijun Wang, Ye Wang, Jiehong Li, Shaoxuan He, Leipeng Li, Hao Suo, Wenge Ding, Panlai Li
Summary: A temperature measurement method based on the luminescence intensity ratio of emission line at 698 nm and emission bands at 713 and 721 nm is proposed, which has high relative sensitivity and low temperature resolution. As the temperature increases, the emission line at 698 nm increases by 84-fold while the emission bands at 713 and 721 nm show the opposite declining trend. This method provides high relative sensitivity of 13.09% K-1 and low temperature resolution of 0.032 K.
LASER & PHOTONICS REVIEWS
(2023)
Article
Chemistry, Physical
D. Stefanska, T. H. Q. Vu, P. J. Deren
Summary: This study investigates multiple non-contact temperature measurement methods based on La2MgTiO6 double perovskite doped and co-doped with transition metal ions (Mn4+ and Cr3+) for the first time. The temperature sensing performance of La2MgTiO6:Mn4+, La2MgTiO6:Cr3+, and La2MgTiO6:Mn4+, Cr3+ luminescent thermometers is examined. The optimal concentration of manganese ions is found to be 0.8%. Additionally, La2MgTiO6:Mn4+, Cr3+ shows potential for multimodal temperature detection.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Materials Science, Ceramics
Aleksandar Ciric, Zoran Ristic, Jovana Perisa, Zeljka Antic, Miroslav D. Dramicanin
Summary: Temperature sensing using photoluminescence of MgAl2O4:Cr3+ ceramic powder was investigated, showing high relative sensitivity in the physiological range. The intensity of emissions changes with temperature, allowing for temperature measurement.
CERAMICS INTERNATIONAL
(2021)
Article
Chemistry, Physical
Jiaqi Ou, Shuangqiang Fang, Qiangqiang Zhu, Yue Zhai, Hong Zhang, Le Wang
Summary: A series of SrGa12-xAlxO19:0.5%Cr3+(x = 0, 2, 4, and 6) solid-solution phosphors were successfully synthesized through Al3+ alloying strategy. The introduction of Al3+ can regulate the crystal field and symmetry, achieving the synchronous tuning of E-2 and T-4(2) energy levels and extending the temperature sensing range. Among all samples, SrGa6Al6O19:0.5%Cr3+ showed the widest temperature measuring range from 130 K to 423 K with Sa of 0.0066 K-1 and Sr of 1% K-1@130 K. This work provides a feasible way to extend the temperature sensing range for transition metal-doped LIR-mode thermometers.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
(2023)
Article
Materials Science, Ceramics
Aleksandar Ciric, Jovana Perisa, Mina Medic, Sanja Kuzman, Zoran Ristic, Zeljka Antic, Miroslav D. Dramicanin
Summary: The luminescence thermometry based on the intensity ratio of Cr3+ and host emissions in the Cr3+ activated MgTiO3 phosphor powder shows good temperature sensing properties over the 100-350 K range. The powder prepared using sol-gel and molten salt methods has a small crystallite size and exhibits strong temperature-dependent emission spectra. This method demonstrates high sensitivity, temperature resolution, and repeatability for luminescence temperature sensing applications.
CERAMICS INTERNATIONAL
(2021)
Article
Materials Science, Multidisciplinary
N. Mironova Ulmane, M. G. Brik, J. Grube, G. Krieke, M. Kemere, A. Antuzevics, E. Gabrusenoks, V. Skvortsova, E. Elsts, A. Sarakovskis, M. Piasecki, A. I. Popov
Summary: The optical spectra of a single crystal of alpha-Al2O3Cr3+ were studied, and it was found to have potential for optical thermometric applications. Three methods of measuring temperature were tested and analyzed, with the highest sensitivities achieved at cryogenic temperatures. The luminescence intensity ratio, change in half maxima width, and thermal shifts of specific lines were examined as temperature indicators.
Article
Materials Science, Ceramics
Wei Xu, Fengze Bai, Longjiang Zheng, Chunhai Hu, Zhiguo Zhang, Yungang Zhang, Zhen Sun
Summary: By doping Ga3+ in garnet-structured phosphors, the upconversion luminescence can be significantly enhanced, leading to color switching in response to temperature change.
CERAMICS INTERNATIONAL
(2023)
Article
Chemistry, Physical
K. Elzbieciak-Piecka, M. Sojka, F. Tian, J. Li, E. Zych, L. Marciniak
Summary: The influence of material morphology on the thermometric properties of luminescent thermometers has been investigated. It was found that optical ceramics exhibit higher relative sensitivity at cryogenic temperatures compared to microcrystals and nanocrystals. This study provides insights for designing thermometers with improved sensitivity by changing the morphology of phosphor materials.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Optics
B. Dulani Dhanapala, Hashini N. Munasinghe, Federico A. Rabuffetti
Summary: In this study, CaFCl:Yb,Er upconverting nanocrystals were synthesized through solution-phase thermolysis and their temperature-dependent luminescence was investigated in the range of 150-450 K. The nanocrystals showed potential for optical temperature sensing, with green emissions and luminescence decays from Er3+ levels analyzed for this purpose.
JOURNAL OF LUMINESCENCE
(2021)
Article
Chemistry, Physical
Lipeng Jiang, Liangliang Zhang, Xue Jiang, Guocai Lv, Yanjing Su
Summary: This paper reports a new multifunctional near infrared phosphor AlTaO4:Cr3+, which exhibits both narrow-band and broadband emissions, high relative sensitivity, and efficient broadband NIR luminescence. The NIR LED prepared with this phosphor has practical application value in NIR light sources.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Engineering, Environmental
K. Elzbieciak-Piecka, M. Suta, L. Marciniak
Summary: This study demonstrates the potential of transition metal ions, such as Cr3+, in remote temperature sensing using ratiometric luminescence thermometry. By co-doping LaScO3:Cr3+ with various lanthanide ions, the luminescence properties can be tuned, affecting the thermal quenching behavior and offering a new approach for potential future applications.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Chemistry, Physical
Huiming Liu, Long Yan, Jinshu Huang, Zhengce An, Wang Sheng, Bo Zhou
Summary: This study reports a new nanoplatform for improving the thermal sensitivity of nanothermometry through nonthermally coupled upconversion emissions. By observing the gradual decrease of Er3+ and rapid increase of Tm3+, a significant contrast in intensity ratio and emission colors can be achieved. Introducing Ce3+ further enhances the sensitivity and expands the range of thermochromic color change.
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
(2022)
Article
Materials Science, Multidisciplinary
Wenjuan Dai, Fengfeng Chi, Bibo Lou, Xiantao Wei, Jie Cheng, Shengli Liu, Min Yin
Summary: The temperature-dependent luminescent characteristic of Cr3+ doped ZnGa2O4 phosphor was investigated, showing red-shift effects on the R1 and R2 lines as the temperature increased. The analyses of X-ray diffraction and X-ray photoelectron spectroscopy confirmed the synthesis of the ZGO:Cr3+ sample. The results demonstrate potential applications of Cr3+ doped phosphors in LED lighting and temperature sensing.
Article
Materials Science, Coatings & Films
Cassandra Remple, Lauren M. Barmore, Jani Jesenovec, John S. McCloy, Matthew D. McCluskey
Summary: Alloying beta-Ga2O3 with Al2O3 creates ultra-wide bandgap material (AlxGa1-x)(2)O-3, suitable for deep ultraviolet applications. This study investigates the photoluminescence (PL) spectra of Cr3+ in monoclinic single crystal beta-Ga2O3 and beta-Ga2O3 alloyed with 10 mol.% Al2O3 (denoted as beta-(Al0.1Ga0.9)(2)O-3 or AGO). Temperature-dependent PL properties of Cr3+ in AGO and beta-Ga2O3 from 295 to 16 K were studied. Both materials exhibit red-line emission doublet R-1 and R-2 at 696 nm (1.78 eV) and 690 nm (1.80 eV) at room temperature, with a broad emission band at 709 nm (1.75 eV). The linewidths of AGO are larger at all temperatures due to alloy broadening. The R-lines blue-shift with decreasing temperature, and the dominance of R-1 line at low temperatures is attributed to thermal population of levels. Above approximately 50 K, the ratio of R-2 to R-1 peak areas is dominated by nonradiative combination.
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A
(2023)
Article
Materials Science, Ceramics
Fengfeng Chi, Liangliang Pan, Bin Jiang, Zhangchao Ji, Jie Cheng, Bing Wang, Xiantao Wei, Shengli Liu
Summary: Tb3+ and Eu3+ doped La4GeO8 phosphors with multicolor emission were synthesized and their photoluminescence properties were investigated. The energy transfer from Tb3+ to Eu3+ in La4GeO8 is attributed to quadrupole-quadrupole interaction. The La4GeO8:0.07Tb3+,0.01Eu3+ phosphor exhibits good thermal stability with activation energies of 0.186 eV and 0.187 eV for Tb3+ and Eu3+ ions, respectively. By adjusting the content ratio of Eu3+ to Tb3+, the La4GeO8:Tb3+,Eu3+ phosphors can achieve multicolor luminescence and tunable chromaticity. These findings suggest that La4GeO8:Tb3+,Eu3+ phosphors are promising for solid-state lighting applications.
CERAMICS INTERNATIONAL
(2023)
Article
Optics
Fengfeng Chi, Wenjuan Dai, Liting Qiu, Shengli Liu, Xiantao Wei, Yonghu Chen, Min Yin
Summary: In this study, a Cr3+-activated Lu2CaAl4GeO12 phosphor with far-red emitting was prepared, and its thermally stable luminescence was observed.
JOURNAL OF LUMINESCENCE
(2022)
Article
Physics, Multidisciplinary
Yue Fu, Wenquan Liu, Xiangyu Ye, Ya Wang, Chengjie Zhang, Chang-Kui Duan, Xing Rong, Jiangfeng Du
Summary: This experimental investigation demonstrates the existence of quantum correlations in a two-qutrit spin system at room temperature using a single nitrogen-vacancy center in diamond. The study reveals the presence of quantum entanglement and nonclassical correlations beyond entanglement in the qutrit case. These findings highlight the potential of NV centers as a multiqutrit system for quantum information tasks and offer a powerful experimental platform for studying high-dimensional quantum systems in the future.
PHYSICAL REVIEW LETTERS
(2022)
Article
Chemistry, Inorganic & Nuclear
Fengfeng Chi, Zhangchao Ji, Qian Liu, Bin Jiang, Bing Wang, Jie Cheng, Bin Li, Shengli Liu, Xiantao Wei
DALTON TRANSACTIONS
(2023)
Article
Chemistry, Physical
Liang Li, Qianwen Cao, Jing Xie, Wenming Wang, Jiajia Wang, Yan Pan, Xiantao Wei, Yong Li
Summary: Researchers successfully prepared a far-red emitting phosphor doped with Mn4+ ions, which can be efficiently excited and emit intense far-red light. The crystalline properties and luminescence performance were studied in detail, and the crystalline field effect and concentration quenching mechanism of Mn4+ ions in the matrix were explored. The phosphor exhibited high internal quantum efficiency, color purity, and activation energy, making it suitable for the preparation of LED devices for plant cultivation.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Materials Science, Multidisciplinary
Wenming Wang, Liang Li, Hongmei Chen, Xiantao Wei, Juanying Jia, Yan Pan, Yong Li
Summary: In this study, Yb3+/Er3+ co-doped YOF glass ceramics were prepared and their luminescence and temperature sensing properties were investigated under 980 nm excitation. The fluorescence intensity ratio (FIR) of the thermal couple energy level (TCEL) and non-thermal couple energy level (NTCEL) was used to evaluate the temperature sensing sensitivity. The increase in pump power resulted in a decrease in relative sensitivity (SR) due to the thermal effect and increased rate of energy transfer and non-radiative relaxation process between dopants and host. The maximum relative sensitivity of this sample reached 1.59 x 10-2 K-1 at 310 K with a pump power of 0.2 W, indicating the prospective application of this glass ceramic in optical thermometry.
Article
Physics, Applied
Zhi Cheng, Xiangyu Ye, Jiandong Wu, Pei Yu, Cheng-Jie Wang, Mengqi Wang, Changkui Duan, Ya Wang, Fazhan Shi, Changlin Tian, Hongwei Chen, Pengfei Wang, Jiangfen Du
Summary: Nanoscale sensing and imaging of electromagnetic field can be achieved by utilizing the forbidden magnetic dipole transition of a single shallow nitrogen-vacancy center in diamond. The detection of rf electric fields at frequencies ranging from 13.85 MHz to 2.02 GHz is successfully demonstrated, with a sensitivity of 265 V cm-1 Hz-1/2 for amplitude measurement and a standard deviation of 0.2 degrees for phase measurement. The potential applications of such nanoscale sensor in science and technology are discussed.
PHYSICAL REVIEW APPLIED
(2023)
Article
Chemistry, Physical
Mingzhe Liu, Hei-Yui Kai, Anjun Huang, Chang-Kui Duan, Ka-Leung Wong, Peter A. Tanner
Summary: First-principles calculations were conducted to investigate the doping of bismuth and iron in the lattices of BaAl12O19 (BAO) and CaAl12O19 (CAO). Experimental data for the optical spectra of CAO were provided to support the calculation results. The presence of trace impurities in undoped CAO samples, such as Mn4+, was observed to contribute to luminescence bands. The emission wavelengths of around 810 nm in CAO were found to be associated with Fe3+ and Bi3+ dopants.
CHEMISTRY OF MATERIALS
(2023)
Article
Chemistry, Physical
Zhicheng Liao, Liting Qiu, Xiantao Wei, Yonghu Chen
Summary: A novel heat-quenching resistant phosphor Ba2YAlO5 doped with Bi3+ was successfully synthesized using the traditional high temperature solid-state method. The crystal structure and luminescence properties were characterized by XRD, SEM, DR spectra, and PL spectra. The phosphor exhibited a broad-band yellow light with a peak at 571 nm and a FWHM of 125 nm under 324 nm excitation. The integrated emission intensity at 560 K was still close to that at room temperature, indicating its excellent thermal stability. Ba2YAlO5: Bi3+ also showed yellowish white light with high color temperature, making it a promising fluorescent powder for high-power devices.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Optics
Jun Wen, Jing Gao, Guisheng Jiang, Xiaoxiao Huang, Qiang Wang, Chenlong Wei, Lixin Ning, Chang-Kui Duan
Summary: Theoretical studies were conducted to investigate the thermodynamic stabilities and luminescent properties of defects and lanthanide ions in BaZrSi3O9, aiming to gain a better understanding of the luminescence mechanisms in undoped and lanthanide-doped BaZrSi3O9.
JOURNAL OF LUMINESCENCE
(2023)
Article
Chemistry, Physical
Mingzhe Liu, Chang-Kui Duan, Ruijie Hao, Min Yin
Summary: A variety of halide perovskites doped with ns2 ions have been studied. First-principles calculations were performed on Cs2SnCl6 and Cs2HfCl6 to explore self-trapped excitons, defects, and luminescent centers. The results provide a consistent understanding of the experimental phenomena and reveal differences between Cs2SnCl6 and Cs2(Hf/Zr)Cl6, which can benefit the design and optimization of metal halide perovskites.
JOURNAL OF PHYSICAL CHEMISTRY C
(2023)
Article
Physics, Multidisciplinary
Han Xie, Yanan Li, Rui Li, Yinchun Leng, Yiming Chen, Lei Wang, Dingjiang Long, Xiang Bian, Chang-Kui Duan, Peiran Yin, Pu Huang, Jiangfeng Du
Summary: By utilizing an engineering conductive geometry scheme, we effectively reduce the mechanical dissipation of a diamagnetically levitated oscillator made of pyrolytic graphite, improving its levitation capability. Through experimental demonstration, we show that the specially designed conductive geometry significantly reduces eddy current damping, with a higher reduction factor for denser engraving patterns. Under high vacuum and room temperature conditions, we reduce eddy current damping by a factor of 50. This work presents a new approach to achieve ultralow mechanical dissipation and strong levitation capability in diamagnetically levitated oscillators, providing a candidate platform for studying a broad range of fundamental physics.
PHYSICAL REVIEW RESEARCH
(2023)
Article
Materials Science, Multidisciplinary
Haoming Xu, Weiguo Jing, Mingzhe Liu, Min Yin, Chang-Kui Duan
Summary: The abnormal self-reduction of trivalent lanthanides in borates, particularly in SrB4O7, has been reported for many years, but only an explanatory description has been provided. Through calculations of formation energies in SrB4O7, we offer an explanation for the mechanisms behind the self-reduction phenomenon. Additionally, we present the trends of the binding energies of divalent lanthanides, which align well with and support the results obtained by extrapolating experimental data using the semiempirical chemical shift model. Our findings demonstrate that calculations conducted using the supercell method and projector augmented wave pseudopotentials can effectively interpret reduction and charge-transfer phenomena, and serve as a basis for the design of lanthanide-doped optical materials.
Article
Materials Science, Multidisciplinary
Zhaoyang Feng, Chang-Kui Duan
Summary: In this study, first-principles calculations were used to investigate the luminescence properties of four different ternary oxide materials, namely (Sr/Ca)Sb2O6, (Sr/Ca)2Sb2O7, (Sr/Ca)SnO3, and (Sr/Ca)Ga2O4, doped with bismuth ions. The effects of bismuth doping on the materials' luminescence properties were analyzed by studying intrinsic defects and self-trapped holes. The transitions associated with bismuth ions in different materials were also identified. The insights gained from this study are important for understanding the luminescence mechanisms of insulating bismuth-doped ternary oxides.
Article
Chemistry, Inorganic & Nuclear
Liting Qiu, Peng Wang, Jiashan Mao, Zhicheng Liao, Fengfeng Chi, Yonghu Chen, Xiantao Wei, Min Yin
Summary: With the increasing demand for non-contact temperature sensing, the development of an excellent optical thermometer has become more compelling. In this study, a Cr3+-doped InTaO4 phosphor was prepared and investigated for its temperature-dependent fluorescence intensity and fluorescence lifetime, achieving high-sensitivity temperature sensing in two different modes. Additionally, a time-resolved technique was also presented, which showed improved temperature sensitivity and resolution. The results demonstrate the promising potential of InTaO4:Cr3+ phosphor in multi-mode high-sensitivity optical thermometry and temperature imaging.
INORGANIC CHEMISTRY FRONTIERS
(2022)
Article
Chemistry, Analytical
Mengmeng Guo, Na Luo, Yueling Bai, Zhenggang Xue, Qingmin Hu, Jiaqiang Xu
Summary: A porous heterostructure WO3-C/In2O3 was designed and prepared for a miniature H2 sensor, which showed higher response value, lower operating temperature, fast response-recovery speed, and low limit of detection.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Feng Hu, Hui Hu, Yuting Li, Xiaohui Wang, Xiaowen Shi
Summary: Arsenic contamination in water bodies is a significant health risk. This study developed a chitosan-catechol modified electrode for rapid and accurate detection of trace amounts of arsenic. The modified electrode demonstrated good detection capability and resistance to ionic interference, making it suitable for in situ detection.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Yantao Zhang, Qian Liu, Tao Tian, Chunhua Xu, Pengli Yang, Lianju Ma, Yi Hou, Hui Zhou, Yongjun Gan
Summary: In this study, a lysosome-targeting buffering fluorogenic probe (Lyso-BFP) was designed and synthesized, demonstrating excellent photostability, pH specificity, and responsiveness to lysosomal acidification in living cells. The performance of Lyso-BFP in pH sensing was attributed to the inhibition of the photo-induced electron transfer process. Lyso-BFP allowed for wash-free imaging and long-term real-time monitoring of lysosome pH changes based on its off-on fluorescence behavior and buffer strategy.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Wei Cai, Wenbo Sun, Jiayue Wang, Xiaokui Huo, Xudong Cao, Xiangge Tian, Xiaochi Ma, Lei Feng
Summary: In this study, a near-infrared fluorescent probe HCBG was developed for imaging of alpha-GLC. HCBG exhibited excellent selectivity and sensitivity towards alpha-GLC in complex bio-samples, and showed good cell permeability for in situ real-time imaging. Through the high-throughput screening system established by HCBG, a natural alpha-GLC inhibitor was successfully isolated and identified. This study provides a novel fluorescence visualization tool for discovering and exploring the biological functions of diabetes-related gut microbiota, and a high-throughput screening approach for alpha-GLC inhibitor.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Trey W. Pittman, Xi Zhang, Chamindie Punyadeera, Charles S. Henry
Summary: Heart failure is a growing epidemic and a significant clinical and public health problem. Researchers have developed a portable and affordable diagnostic device for heart failure that can be used at the point-of-care, providing a valid alternative to current diagnostics approaches.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Anders O. Tjell, Barbara Jud, Roland Schaller-Ammann, Torsten Mayr
Summary: An optical hydrogen peroxide sensor based on catalytic degradation and the detection of produced oxygen is presented. The sensor offers higher resolution and better sensitivity at lower H2O2 concentrations. By removing O2 from the sample solution, a more sensitive O2 sensor can be used for measurement. The sensor has been successfully applied in a flow-through cell to measure H2O2 concentration in different flow rates.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Seong Jae Kim, Ji-hun Jeong, Gaabhin Ryu, Yoon Sick Eom, Sanha Kim
Summary: Surface-enhanced Raman spectroscopy (SERS) is a high-sensitivity, label-free detection method with various analytical applications. Researchers have developed a hydrophobic SERS substrate based on engineered carbon nanotube arrays (CNT-SERS) and studied the role of structural design at both micro and nanoscales. The substrate demonstrated controlled self-enrichment capability and enhanced sensitivity, with a significant increase in the SERS signal. The study also proposed a theoretical model and a concentration strategy inspired by plants for analyte deposition on microarrays.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Dan Zhao, Renjun Jiang, Xiaoqiang Liu, Subbiah Alwarappan
Summary: In this study, a novel ternary composite material was constructed by assembling cerium vanadate nanorods on reduced graphene oxide-microcrystalline cellulose nanosheets, and it was used for real-time monitoring of the concentration of superoxide anions in vivo. The ternary composite showed excellent conductivity, large surface area, and abundant active sites, leading to a wider linear range, high sensitivity, low detection limit, and fast response time for superoxide anion detection.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Tengfei Wang, Liwen Wang, Guang Wu, Dating Tian
Summary: In this study, a covalent organic framework material TaTp-COF with porous and uniform spheres was successfully prepared via hydrothermal reaction, and it was found to significantly enhance the aggregation-induced emission (AIE) of berberine. The unique emission properties of berberine on TaTp-COF were studied and utilized for the sensitive detection of berberine.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Lin Li, Yilei Ding, Lei Xu, Shuoran Chen, Guoliang Dai, Pengju Han, Lixin Lu, Changqing Ye, Yanlin Song
Summary: In this study, a novel TTI based on a ratiometric fluorescent nanosensor is designed, which has the advantages of high accuracy and low cost. Experimental and theoretical investigations confirm its pH responsiveness and demonstrate its good sensitivity and reliability. By monitoring the total volatile basic nitrogen, this TTI can accurately predict food spoilage and can be adaptively modified for different types of food. The TTI based on this nanosensor enables visual monitoring of food quality.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Fangju Chen, Xueting Wang, Wei Chen, Chenwen Shao, Yong Qian
Summary: Lung cancer is the second most common malignant tumor worldwide. Drug resistance in lung cancer leads to treatment failure and recurrence in majority of patients. This study developed a fluorescent prodrug that can be activated in cancer cells to release drugs, and its signal can be tracked by imaging. It shows a unique autophagy-driven ferroptosis effect, indicating its potential for targeting drug-resistant cancer cells.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Weichao Li, Qiming Yuan, Zhangcheng Xia, Xiaoxue Ma, Lifang He, Ling Jin, Xiangfeng Chu, Kui Zhang
Summary: This study developed a high-performance gas sensor for formaldehyde detection by modifying ZnSnO3 with ZnO QDs and SnO2 QDs. The modified sensor showed improved sensing response and lower working temperature. The presence of ZnO QDs formed rich heterojunctions, increased surface area, and provided oxygen deficiency for formaldehyde sensing reaction, thus enhancing the sensor performance. This research provides an alternative method to enhance the sensing properties of MOS by QDs modification.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Joung-Il Moon, Eun Jung Choi, Younju Joung, Jin-Woo Oh, Sang-Woo Joo, Jaebum Choo
Summary: A novel nanoplasmonic substrate was developed for biomedical applications, which showed strong hot spots for detecting biomarkers at low concentrations. The substrate, called AuNPs@M13, was made by immobilizing 60 nm gold nanoparticles onto the surface of an M13 bacteriophage scaffold. It demonstrated higher sensitivity and lower limit of detection compared to commercially available assays.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Ning Li, Ya Zhang, Ying Xu, Xiaofang Liu, Jian Chen, Mei Yang, Changjun Hou, Danqun Huo
Summary: The molecular subtype of breast cancer guides treatment and drug selection. Invasive tests can promote cancer cell metastasis, so the development of high-performance, low-cost diagnostic tools for cancer prognosis is crucial. Liquid biopsy techniques enable noninvasive, real-time, dynamic, multicomponent, quantitative, and long-term observations at the cellular, genetic, and molecular levels. A Cu-Zr metal-organic framework (MOF) nanoenzyme with monatomic Cu attachment has been synthesized and proven to have high catalytic performance. The sensor constructed using this nanoenzyme shows potential for accurate classification of breast cancer serum samples.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
Article
Chemistry, Analytical
Jeongmin Kim, Hyemin Kim, Seunghyun Park, Hyeonaug Hong, Yong Jae Kim, Jiyong Lee, Jaeho Kim, Seung-Woo Cho, Wonhyoung Ryu
Summary: This study presents a method to fabricate independently functioning microneedle (MN) electrodes with narrow intervals for high precision electrochemical sensing. The optimized mixture of photocurable polymer and single-wall carbon nanotubes was used to mold single composite MNs, which were then attached to pre-patterned electrodes. Plasma etching and electropolymerization were performed to enhance the electrochemical activity, and Prussian blue and glucose oxidase were electrodeposited on the MNs for glucose detection. The MN electrodes showed good sensitivity and linearity, and the feasibility of glucose detection was demonstrated in an in vivo mouse study.
SENSORS AND ACTUATORS B-CHEMICAL
(2024)
