An Elucidation of Substrate Effects in Graphene-Based Sensing Characteristics─Interfaces between Organic Solvent and Graphene [0.03%]
基于石墨烯传感特性中衬底影响的解析──有机溶剂与石墨烯界面
Yu-Xuan Lu,Guan-Ying Chen,Fang-Min Lin et al.
Yu-Xuan Lu et al.
Most graphene-sensor researches have focused on direct graphene modifications to enhance performance. However, supporting-substrate effects on graphene sensing mechanisms remain underexplored. Because of graphene 2D architecture, substrates...
Correction to "The Cross-Sensitivity of Chemiresistive Gas Sensors: Nature, Methods, and Peculiarities: A Systematic Review" [0.03%]
对“化学电阻型气体传感器的交叉敏感性:性质、方法及特殊性:系统综述”的更正
Amanzhol Turlybekuly,Yernar Shynybekov,Baktiyar Soltabayev et al.
Amanzhol Turlybekuly et al.
Published Erratum
ACS sensors. 2025 Jun 16. DOI:10.1021/acssensors.5c01638 2025
Humidity-Resistant Pt/CrVN2 Fuel Cell Sensor for H2S Biomarker Detection [0.03%]
一种耐湿型铂/铬钒氮二元化合物燃料电池式H2S生物标志物检测传感器
Zhaorui Zhang,Chonghui Zhu,Yu Liang et al.
Zhaorui Zhang et al.
Real-time, remote monitoring of human biomarkers is essential for personalized medical diagnostics. Hydrogen sulfide (H2S), a key endogenous gas, serves as a crucial biomarker for conditions such as oral diseases. However, accurately detect...
Direct Single-Impact Electrochemistry Using Silver Nanoparticles as a "Digital" Readout for Biosensing Applications [0.03%]
用于生物传感器的直接单次电化学测量及其银纳米颗粒“数字”读出方法
Sebastian Freko,Lennart J K Weiß,Friedrich C Simmel et al.
Sebastian Freko et al.
Direct single-impact electrochemistry is a rapidly evolving analytical method based on the collision of redox-active species, such as silver nanoparticles (AgNPs), with a biased microelectrode. The collision results in distinct current spik...
Tuning the Aggregation of Plasmonic Probes to Shed Light on Diagnostic Strategies [0.03%]
调节等离子体探针的聚集以阐明诊断策略
Sungjae Park,Sojeong Lee,Jungwoo Park et al.
Sungjae Park et al.
Gold nanoparticle (GNP)-based aggregation assays were tuned by systematically varying the length and concentration of the plasmonic probes, which are two critical factors that influence the detection range and sensitivity. Plasmonic probes ...
Real-Time Single-Particle Tracking of Intracellular pH Dynamics during Ferroptosis Using Plasmonic Core-Satellite Nanostructures [0.03%]
基于等离激元核壳纳米结构的铁死亡实时单颗粒pH动态追踪技术
Hua Liu,Xiulin Fan,Lin Wei et al.
Hua Liu et al.
Ferroptosis, an iron-dependent regulated cell death process, is characterized by lysosomal membrane permeabilization and pH dysregulation. Here, we report a DNA-programmed plasmonic nanoprobe based on i-motif-mediated gold core-satellite na...
Integrated Intelligent Material Recognition and Information Exchange Platform Based on a Highly Sensitive Flexible Pressure Sensor and Electroluminescent Display [0.03%]
一种基于高灵敏度柔性压力传感器和电致发光显示器的智能材料识别与信息交换平台
Chunyan Huang,Peng Wang,Hongsen Niu et al.
Chunyan Huang et al.
Flexible pressure sensors have become a research hotspot in human-computer interaction and material recognition due to their flexibility and high sensitivity. However, the identified information relies on traditional displays and cannot be ...
Machine Learning-Enhanced Chemiresistive Sensors for Ultra-Sensitive Detection of Methanol Adulteration in Alcoholic Beverages [0.03%]
基于机器学习的乙醇饮品中甲醇掺伪超灵敏化学电阻式传感器检测体系研究
Kamrul Hassan,Anh Tuan Trong Tran,M A Jalil et al.
Kamrul Hassan et al.
Methanol poisoning poses significant health risks, particularly in less developed countries, where adulterated alcoholic beverages often lead to severe morbidity and mortality. Current diagnostic methods, such as gas-liquid chromatography a...
Microfabricated Onsite Analyzer for Biomarkers (MOAB) for Automated Crew Health Monitoring [0.03%]
微型现场生物标志物分析仪(MOAB),用于自动化船员健康监测
Zachary Estlack,Andrew Pack,Matin Golozar et al.
Zachary Estlack et al.
Crewed missions to the Moon, Mars, and beyond necessitate advanced health monitoring techniques due to risks such as musculoskeletal degradation, cancer, and kidney issues from prolonged exposure to radiation and microgravity. This paper pr...
Real-Time Standoff Detection of Trace Levels of PFAS in Water Using Photothermal Nanomechanical Spectroscopy [0.03%]
基于光热纳米力学光谱学的水中共辄低浓度PFAS的远程实时检测
Yaoli Zhao,Kyle Leatt,K Prabakar et al.
Yaoli Zhao et al.
Real-time detection of hazardous chemicals in water that appear at parts-per-trillion level concentrations with high sensitivity and selectivity is challenging. Achieving ultrahigh sensitivity using techniques based on immobilized receptors...