Research Articles
The Sensor Revolution: How Graphene and Polymers are Creating a New Generation of Detectors
Explore how 3D graphene networks combined with sulfonate-terminated polymers are revolutionizing electrochemical sensors for dopamine and heavy metal detection.
The Double-Edged Sword of Graphene: How a Wonder Material Can Hinder Environmental Detection
Discover how graphene's surfactant production process inhibits cadmium detection and the innovative solutions being developed for environmental monitoring.
The Sponge That Could Revolutionize Sensors: Freestanding 3D Graphene Foam
Explore how freestanding 3D graphene foam is transforming electrochemical sensing with its incredible surface area, conductivity, and flexibility.
The Nano-Detective: How Graphene and a Century-Old Chemical Are Revolutionizing Heavy Metal Detection
Explore how graphene-based sensors combined with cupferron are transforming heavy metal detection in water through advanced voltammetric analysis.
The Rise of 3D-Printed Graphene Sensors: A New Era of Electroanalysis
Exploring how 3D-printed graphene/PLA electrodes are revolutionizing electroanalysis with high sensitivity and customizability
The Vitamin C Spark: How Super-Materials are Revolutionizing Medical Sensors
Discover how PVP-stabilized graphene electrodes are revolutionizing medical sensors through the electro-oxidation of Ascorbic Acid (Vitamin C).
Iron-Meets-Graphene: How a Hybrid Material is Revolutionizing Sensors and Clean Energy
Explore how the fusion of iron tetrasulfophthalocyanine and graphene creates powerful hybrid nanomaterials for advanced electrocatalysis and electroanalysis applications.
Catching a Killer: How Graphene Helps Detect Nicotine
Discover how graphene-based electrodes are revolutionizing nicotine detection with unprecedented sensitivity and speed.
The Graphene Spark: A Simple Shock That Revolutionized Chemical Detection
Discover how electrochemical polarization of 3D graphene enables simultaneous detection of catechol and hydroquinone with unprecedented accuracy.
The Graphene Revolution: How Nanomaterial Engineering is Revolutionizing DNA Detection
Exploring how different reduction methods create unique versions of reduced graphene oxide with varying abilities to catalyze nucleic acid reactions for advanced biosensors.