| 41 |
Microfluidic amperometry with two symmetric Au microelectrodes under one-way and shuttle flow conditions
Weng JH, Lai CY, Chen LC
Electrochimica Acta, 297, 118, 2019 |
| 42 |
Flow force augmented 3D suspended polymeric microfluidic (SPMF3) platform
Marzban M, Dargahi J, Packirisamy M
Electrophoresis, 40(3), 388, 2019 |
| 43 |
Flexible antenna design on PDMS substrate for implantable bioelectronics applications
Fu YS, Lei JM, Zou X, Guo JC
Electrophoresis, 40(8), 1186, 2019 |
| 44 |
Electro-osmotic surface effects generation in an electrokinetic-based transport device: A comparison of RF and MW plasma generating sources
Adekanmbi EO, Dustin J, Srivastava SK
Electrophoresis, 40(11), 1573, 2019 |
| 45 |
Rapid and inexpensive method for the simple fabrication of PDMS-based electrochemical sensors for detection in microfluidic devices
da Silva ENT, Ferreira VS, Lucca BG
Electrophoresis, 40(9), 1322, 2019 |
| 46 |
Effect of Molecular Structure on the CO2 Separation Properties of Hydrophobic Solvents Consisting of Grafted Poly Ethylene Glycol and Poly Dimethylsiloxane Units
Thompson RL, Culp J, Tiwari SP, Basha O, Shi W, Damodaran K, Resnik K, Siefert N, Hopkinson D
Energy & Fuels, 33(5), 4432, 2019 |
| 47 |
Solubility of pressurised carbon dioxide in three different polydimethylsiloxanes
Lang S, Frerich S, Pollak S
Fluid Phase Equilibria, 491, 12, 2019 |
| 48 |
Development of a method to measure the thermal conductivity of pressurised solutions containing dense gases using 11000 g/mol polydimethylsiloxane and carbon dioxide as example fluid
Lang S, Pollak S, French S
Fluid Phase Equilibria, 490, 92, 2019 |
| 49 |
Multifunctional Vitrimer-Like Polydimethylsiloxane (PDMS): Recyclable, Self-Healable, and Water-Driven Malleable Covalent Networks Based on Dynamic Imine Bond
Feng ZB, Yu B, Hu J, Zuo HL, Li JP, Sun HB, Ning NY, Tian M, Zhang LQ
Industrial & Engineering Chemistry Research, 58(3), 1212, 2019 |
| 50 |
Superhydrophobic Polydimethylsiloxane@Multiwalled Carbon Nanotubes Membrane for Effective Water-in-Oil Emulsions Separation and Quick Deicing
Wu JJ, Li HQ, Lai XJ, Chen ZH, Zeng XR
Industrial & Engineering Chemistry Research, 58(20), 8791, 2019 |
