We introduce a new model to describe the multiple printing procedure implemented by the inkjet printing approach. This non-contact and sequential picoliter droplet printing technology is named as sequential inkjet printing.Please check this proof carefully. Our staff will not read it in detail after you have returned it.Translation errors between word-processor files and typesetting systems can occur so the whole proof needs to be read. Please pay particular attention to: tabulated material; equations; numerical data; figures and graphics; and references. If you have not already indicated the corresponding author(s) please mark their name(s) with an asterisk. Please e-mail a list of corrections or the PDF with electronic notes attached -do not change the text within the PDF file or send a revised manuscript. Corrections at this stage should be minor and not involve extensive changes. All corrections must be sent at the same time.Please bear in mind that minor layout improvements, e.g. in line breaking, table widths and graphic placement, are routinely applied to the final version.Please note that, in the typefaces we use, an italic vee looks like this: n, and a Greek nu looks like this: ν.We will publish articles on the web as soon as possible after receiving your corrections; no late corrections will be made.Please return your final corrections, where possible within 48 hours of receipt, by e-mail to: loc@rsc.org Queries for the attention of the authors Journal: Lab on a Chip
Paper: c5lc00356cTitle: Droplet-in-oil array for picoliter-scale analysis based on sequential inkjet printing Editor's queries are marked on your proof like this Q1 , Q2 , etc. and for your convenience line numbers are indicated like this 5, 10, 15, ... Please ensure that all queries are answered when returning your proof corrections so that publication of your article is not delayed. In recent years, inkjet printing, as a new method to fabricate microdroplet microarrays, has been increasingly applied in the field of biochemical diagnostics. To further improve the general applicability of the inkjet printing technology in fabricating biochemical chips, in this work, we introduce a model to describe the multiple injection procedure implemented by the inkjet printing approach, with experimental verification. The multiple injection model demonstrates a new sequential inkjet printing method that generates picoliter-scale multicomponent droplet-in-oil arrays via multistep printing on uniform planarsubstrates. Based on our previous work on double-inkjet printing, this technique adapts the piezoelectric inkjet printing technology to fabricate an oil droplet array, into which multiple precise injections of secondary droplets with different compositions and volumes can be automatically printed in the required sequence, simultaneously addressing the evaporation issues associated with printing picoliter droplets without external assistance. In this paper, we first describe the theory and characterize the model, which account for the basic principles ...