Litcius/Paper detail

A closed-loop catalytic nanoreactor system on a transistor

Xuejun Wang, Binbin Xia, Zhuang Hao, Kang Hua, Wentao Liu, Yiheng Chen, Qunfeng Jiang, Jing-Yuan Liu, Jian Gou, Baijun Dong, Andrew T. S. Wee, Yunqi Liu, Dacheng Wei

2023Science Advances12 citationsDOIOpen Access PDF

Abstract

Precision chemistry demands miniaturized catalytic systems for sophisticated reactions with well-defined pathways. An ideal solution is to construct a nanoreactor system functioning as a chemistry laboratory to execute a full chemical process with molecular precision. However, existing nanoscale catalytic systems fail to in situ control reaction kinetics in a closed-loop manner, lacking the precision toward ultimate reaction efficiency. We find an inter-electrochemical gating effect when operating DNA framework-constructed enzyme cascade nanoreactors on a transistor, enabling in situ closed-loop reaction monitoring and modulation electrically. Therefore, a comprehensive system is developed, encapsulating nanoreactors, analyzers, and modulators, where the gate potential modulates enzyme activity and switches cascade reaction "ON" or "OFF." Such electric field-effect property enhances catalytic efficiency of enzyme by 343.4-fold and enables sensitive sarcosine assay for prostate cancer diagnoses, with a limit of detection five orders of magnitude lower than methodologies in clinical laboratory. By coupling with solid-state electronics, this work provides a perspective to construct intelligent nano-systems for precision chemistry.

Topics & Concepts

NanoreactorNanotechnologyTransistorComputer scienceMaterials scienceChemistryVoltagePhysicsNanoparticleQuantum mechanicsAdvanced biosensing and bioanalysis techniquesElectrochemical Analysis and ApplicationsAdvanced Memory and Neural Computing