Laser-induced graphene (LIG) is inexpensive, fast, and easy to produce when compared to many other forms of graphene. Within the biosensing field, LIG electrodes are most often produced via infrared (IR) laser irradiation of polyimide sheets. Nevertheless, the usage of ultraviolet (UV) laser ...
关键词: MXene Laser-induced graphene Electrochemical sensor Micro-droplet detection Benomyl DOI: 10.1016/j.aca.2024.342526 年份: 2024 收藏 引用 批量引用 报错 分享 全部来源 求助全文 dx.doi.org 来源期刊 Analytica Chimica Acta 22 May 2024 站内活动 ...
Since its introduction in 2014, laser-induced graphene (LIG) from commercial polymers has been gaining interests in both academic and industrial sectors. This can be clearly seen from its mass adoption in various fields ranging from energy storage and sensing platforms to biomedical applications. LIG...
High-sensitivity 8-hydroxy-2′-deoxyguanosine micro-electrochemical sensor based on polyvinylpyrrolidone functionalized laser-induced graphene: Design, sca... Laser-induced grapheneMicro-electrochemical sensor8-Hydroxy-2′-deoxyguaninePolyvinylpyrrolidone functionalizationDNA oxidative damage biomarkersPortable micro...
Controlled, stable and uniform temperature environment with quick response are crucial needs for many lab-on-chip (LOC) applications requiring thermal management. Laser Induced Graphene (LIG) heater is one such mechanism capable of maintaining a wide ran
Here, we develop a new tool, a laser-induced graphene-based electrochemical sensor chip, to track α-synuclein aggregation and dopamine level over time. Using these sensor chips, we evaluated diet-derived catechols dihydrocaffeic acid and caffeic acid as potential inhibitors of α-synuclein ...
Laser-induced graphene Porous graphene Flexible electrodes Supercapacitor H2O2 sensor 1. Introduction The past decade has witnessed tremendous growth in graphene-based materials for various applications due to their exceptional electrical, chemical, mechanical, and optical properties [1], [2]. The majority...
Graphene, due to its unique zero-bandgap, single-layer structure, and outstanding properties, has attracted more than a decade of research interests. In th
Laser induced graphenefiber (LIGF) electrode was fabricated and it was applied for realizing a high-performance heavy-metal sensor for first time. • LIGF electrode was fabricated by a simplelaser irradiationonpolyimidefilm. • LIGF layer is porous to increase the activesurface areaand electric...
Achieving excellent quality printing of graphene oxide is highly demanded in superior performance device fabrication. Laser-induced forward transfer (LIFT) is a promising method for printing low viscosity liquids, which alleviates the restrictions regarding the rheological properties and the size of the pa...