ライフサイエンスコーパス: dielectrophoretic force

1 local pinning points for DNA segments due to dielectrophoretic force.

2 iDEP and could be easily misinterpreted as a dielectrophoretic force.

3 s within a photopolymerizable hydrogel using dielectrophoretic forces.

4 er the periodic action of electrokinetic and dielectrophoretic forces.

5 the electric field and, therefore, different dielectrophoretic forces acting on exosomes suspended in

6 malous frequency effects, not explainable by dielectrophoretic forces alone, were also encountered an

7 rochemical impedance measurement followed by dielectrophoretic force and antibody-antigen interaction

8 The applied dielectrophoretic force and the corresponding increase i

9 onfine single PC-3 cells in microwells using dielectrophoretic forces and perform the impedance measu

10 d in which cell mixtures are fractionated by dielectrophoretic forces and simultaneously collected in

11 to confined oil droplet concentration under dielectrophoretic forces, and (3) increased collision ef

12 nce between controllable acoustophoretic and dielectrophoretic forces applied on cells through surfac

13 Label-free dielectrophoretic force-based surface charge detection h

14 report, we demonstrate and characterize this dielectrophoretic force-based surface charge detection m

15 rticularly, the balanced acoustophoretic and dielectrophoretic forces can trap cells at equilibrium p

16 Dielectrophoretic forces, caused by the interaction of n

17 suspension and a field direction-independent dielectrophoretic force for particle/cell focusing in a

18 ncy of aqueous droplets and highly localized dielectrophoretic force generated by interdigitated elec

19 The highly localized and enhanced dielectrophoretic force generated by the IDEs on the cha

20 This not only validates our ability to model dielectrophoretic forces in these traps but also gives i

21 o experience different strengths of positive dielectrophoretic forces, in response to the 3D nonunifo

22 ing (DL) architectures to precisely quantify dielectrophoretic force invoked on microparticles in a t

23 Dielectrophoretic force is employed to enrich the bacter

24 The balancing of surface, hydrodynamic and dielectrophoretic forces makes the self-assembly process

25 Dielectrophoretic force microscopy (DEPFM) and spectrosc

26 Dielectrophoretic force microscopy is shown to allow for

27 erences in magnitude and/or direction of the dielectrophoretic force on different populations of part

28 The periodic optical field modulates the dielectrophoretic force on the membrane at the overtones

29 The magnitude and direction of the dielectrophoretic force on the particle depends on its d

30 Dielectrophoretic force spectra were obtained in situ in

31 e tips are structurally modified to create a dielectrophoretic force that attracts mRNA molecules wit

32 The dielectrophoretic force that results from the electric f

33 DEP-based microconcentrators use the dielectrophoretic force to collect particles on electrod

34 ory or orientation using electrophoretic and dielectrophoretic forces to a specific location with sub

35 ned the contributions of electrophoretic and dielectrophoretic forces to the trapping and concentrati

36 expression of the stress-related gene c-fos, dielectrophoretic forces were shown to have little effec

37 parallel sidewall 3D electrodes to produce a dielectrophoretic force which traps cells inside the cap

38 processor then utilizes electrophoretic and dielectrophoretic forces, which are effective in short r

39 In an array of posts, dielectrophoretic forcing within repeated rows adds cohe