Litcius/Paper detail

Integrated Microsystem Toward High‐Throughput Automated Green Synthesis and Raman Enhancement Performance Screening of Noble‐Metal@Cu‐MOF

Chuan Fan, Yong Luo, Meng Tian, Mengyun Zhou, Lirong Wang, Tailin Xu, Xueji Zhang

2023Advanced Functional Materials15 citationsDOI

Abstract

Abstract “Green Synthesis” has been broadly applied in drug synthesis and nanomaterial preparation. The integration of automated micro‐synthesis and high‐throughput screening systems is a key way to achieve the goal of green manufacturing. Here, a one‐click green synthesis platform is designed that integrates droplets arrays‐based micro‐synthesis for Raman enhancement performance high‐throughput screening of MNPs@Cu‐MOF (AuNPs@, AgNPs@, PtNPs@Cu‐MOF) under room temperature and normal pressure. The fully integrated ultrasound units can achieve rapid multi‐component mixing in the droplet array systems, and significantly accelerate materials growth as well as enhance encapsulation of noble metal nanoparticles into Cu‐MOF structures. Based on such integrated systems, structures with high Raman enhancement performance can be high‐throughput evaluation and easily screened out. The results indicated that the AgNPs@Cu‐MOF exhibited the best Raman enhancement performance, which is ≈8 times higher than pure AgNPs. Such a green and integrated platform provides a way for automated multi‐type composites fabrication, which can be expanded to multiple fields in the future via combined robotic platforms and artificial intelligence technology.

Topics & Concepts

Materials scienceMicrosystemNanotechnologyNoble metalRaman spectroscopyNanomaterialsThroughputNanoparticleFabricationComputer scienceMetalMedicineAlternative medicineTelecommunicationsPhysicsPathologyMetallurgyWirelessOpticsInnovative Microfluidic and Catalytic Techniques InnovationNanomaterials for catalytic reactionsElectrohydrodynamics and Fluid Dynamics