Some recent advances in the design and the use of miniaturized droplet-based continuous process: Applications in chemistry and high-pressure microflows

Lorber, Nicolas; Sarrazin, Flavie; Guillot, Pierre; Panizza, Pascal; Colin, Annie; Pavageau, Bertrand; Hany, Cindy; Maestro, P.; Marre, Samuel; Delclos, Thomas; Aymonier, Cyril; Subra, P.; Prat, Laurent E.; Gourdon, Christophe; Mignard, Emmanuel

doi:10.1039/c0lc00058b

Cited by 65 publications

(39 citation statements)

References 52 publications

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“…Seed crystals might not necessarily be removed via solvent injections, which would render fluoropolymer tubing inappropriate for subsequent experiments. Gaseous diffusions through porous fluoropolymer tubing have motivated the design of high-pressure devices when supercritical conditions exist [31]. Fluoropolymers such as PFA, FEP, and PEEK™ are not ultraviolet (UV) transparent, which potentially limits their use for the study of intrinsic photocatalytic kinetics [17a].…”

Section: Resultsmentioning

confidence: 99%

When Solids Stop Flow Chemistry in Commercial Tubing

Chen¹,

Sabio²,

Hartman³

2015

J Flow Chem

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Flow chemistry has emerged as the enabling field of high-throughput, data-driven discovery, and process chemistry, yet solids handling remains its key challenge. Insoluble salt by-products can stop flow, fluctuate reagent concentrations in reactors, and cost unexpected time and materials consumptions. The clogging of perfluoroalkoxy (PFA) tubing, stainless steel (SS) tubing, and a silicon microreactor by NaCl during a Pd-catalyzed amination using XPhos ligand was each studied. Our goal of understanding the appropriate reactor design provides in-depth analyses of constriction and mechanical entrapment. Calculations of Stokes number (St)>1 revealed that NaCl particle depositions were independent of the reactor materials. Analyses of the clogging time's dependence on the residence time (τ) and particle volume fraction (ϕ) discovered commercial tubing to be inadequate for the decoupling of the kinetics. The results prescribe why fabricated microreactors with on-chip analytics, particle formations and dissolutions, and without fluidic connections are solutions to discover and develop ubiquitous reactions that form inorganic salt by-products.

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Section: Resultsmentioning

confidence: 99%

When Solids Stop Flow Chemistry in Commercial Tubing

Chen¹,

Sabio²,

Hartman³

2015

J Flow Chem

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“…For monophasic Newtonian flows, this problem has a unique solution easily derived using the analogy between fluidic networks and electric circuits mentioned above. For two-phase flows however, e.g flows in (droplet-based) digital microfluidic applications [5,6], strong nonlinearities arise and the problem becomes challenging. Indeed, the transport of discrete elements or information through networks, such as droplet traffic in single-lane microchannels having lateral dimensions comparable to the drop size, road traffic [7], blood microcirculation [8], and cell signaling [9], are all regulated by time-delayed feedback and nonlinear couplings.…”

Section: Introductionmentioning

confidence: 99%

Path selection rules for droplet trains in single-lane microfluidic networks

et al. 2013

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“…In particular, for reaction engineering purposes, the use of segmented flows has increased in popularity in recent years [1,2,3]. In addition, the fluid mechanics and hydrodynamics of such miniaturized flows have been studied for both gas−liquid applications [4,5,6] and liquid−liquid applications [7,8].…”

Section: Introductionmentioning

confidence: 99%