参考文献
[1]何启迪,黄丹萍,黄冠,等.微流控PCR芯片的研究进展[J].分析化学,2016,44(4):542-550.
[2]李慧调,潘建章,方群.数字PCR技术的发展及应用[J].化学进展,2020,32(5):581-593.
[3]CHEN A,FU G,XU Z,et al.Detection of urothelial bladder carcinoma via microfluidic immunoassay and single-cell DNA copy-number alteration analysis of captured urinary-exfoliated tumor cells[J].Cancer Research,2018,78(14):4073-4085.
[4]陈超瑜,马妍,方群.微流控器官芯片的研究进展[J].分析化学,2019,47(11):1711-1720.
[5]SOLANKI S,PANDEY C M,GUPTA R K,et al.Emerging trends in microfluidics based devices[J].Biotechnology Journal,2020,15:1900279.
[6]SUN J,WARDEN A R,DING X.Recent advances in microfluidics for drug screening[J].Biomicrofluidics,2019,13:061503.
[7]钟平,黄南平.微反应器技术在有机合成中的应用[J].化学试剂,2007,29(6):339-344.
[8]骆广生,王凯,王佩坚,等.微反应器内聚合物合成研究进展[J].化工学报,2014,65(7):2563-2573.
[9]WANG T,YU C,XIE X.Microfluidics for environmental applications[M].Berlin:Springer,2020.
[10]齐云,李晖,米佳,等.医用微流控芯片研究进展[J].微电子学,2019,49(03):366-372.
[11]KAROUIA F,PEYVAN K,POHORILLE A.Toward biotechnology in space:highthroughput instruments for in situ biological research beyond Earth[J].Biotechnology Advances,2017,35(7):905-932.
[12]郭双生,傅岚,艾为党.国际空间站生命科学实验装置研制与应用进展[J].航天医学与医学工程,2003,16(6):459-462.
[13]XU J,LV X,WEI Y,et al.Air bubble resistant and disposable microPCR chip with a portable and programmable device for forensic test[J].Sensors and Actuators B:Chemical,2015,212:472-480.
[14]YANG C,DENG Y,REN H,et al.A multi-channel polymerase chain reaction labon-a-chip and its application in spaceflight experiment for the study of gene mutation[J].Acta Astronautica,2020,166:590-598.
[15]LI Y,LV X,GENG L,et al.A chip-based scientific payload technology for visual detection of proteins and its app lication in spaceflight[J].Acta Astronautica,2020,170:601-608.