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1 rentiates between metabolites based on their electric charge.
2 most famously explaining the quantization of electric charge.
3 ction of DNA hybridization via its intrinsic electric charge.
4 ark changes its flavour without altering its electric charge.
5 y, low volatility, and possessing a negative electric charge.
6 le, stretching the nanofibers and generating electric charges.
7 o fluid flow was impaired by the presence of electric charges.
8 xample, show that defects direct the flow of electric charges.
9 nsurmountable energetic penalty to burial of electric charges.
10 s seen in numerous eruptions, and groups the electric charges about the plume to form the 'lightning
11                    Even minute quantities of electric charge accumulating on polymer surfaces can cau
12              Because this activity separates electric charge and generates a transmembrane voltage, a
13 rinos are elementary particles that carry no electric charge and have little mass.
14 tic mobility, mu(e), is sensitive to the net electric charge and hydrodynamic size of a molecule in s
15 n; spin current is a flux of spin without an electric charge and its transport reflects spin excitati
16 ct that free charge carriers in solids carry electric charge and spin.
17 stics, consisting of the bound states of the electric charge and the image magnetic monopole charge.
18  Importantly, a neutron carries spin without electric charge, and therefore it can bring spin into a
19 nner analogous to the way a condenser stores electric charge, and, upon phosphorylation, release a la
20                               The changes in electric charge appear to occur mainly on the S1 moietie
21                                              Electric charges are conserved.
22 ertainty, suggesting that for S1 x MgATP the electric charge at the actin binding site is abolished.
23 ctions of myosin and actin by modulating the electric charge at the actin binding site.
24 te value of the product of the net effective electric charges at the actin-myosin interface, /ZMZA/.
25 e modification approach targeted the surface electric charges borne by its additive particles, and wa
26 y topological defects named disclinations to electric charges by associating a charge to a disclinati
27 of both hairs and antennae increase with the electric charge carried by the bumblebee.
28 ple hydroxyl groups, nonlinear molecule, and electric charge could physically modify secondary struct
29 rostatic influence on activation mediated by electric charge density on the extracellular and intrace
30 crystals that release up to three times more electric charge density than that produced by PbZr0.52Ti
31 oped a-Si layer contributed to the extracted electric charges due to the suppressed electron-hole rec
32  quasiparticles are the ones with fractional electric charge e/3 in quantum Hall physics.
33 trol antibody (MBIso) and MB with a negative electric charge for targeting of leukocytes (MBLc) were
34 ophobic core micelle coupled with a positive electric charge forms an organic complex with DCF that i
35               We also find that removing the electric charges from key basic residues located between
36 orrosion rate which, in turn, depends on the electric charge immobilized on the surface of the GaAs/A
37 e storage and diffusion of ionic species and electric charge in batteries and supercapacitors.
38 ly unfavorable situation of an uncompensated electric charge in the apolar, low-dielectric protein in
39 y to reversibly change optical properties by electric charge insertion/extraction.
40  environment, the Coulomb attraction between electric charges is decreased, leading, for example, to
41 nucleotide-dependent changes in cross-bridge electric charge might have in the contractile cycle in m
42                We show theoretically that an electric charge near a topological surface state induces
43                                          The electric charge of bacteria binding to the glycosylated
44                                     When the electric charges of residues 85 and 96, the two aspartic
45  molecular dynamics simulations suggest that electric charge on graphene can force a DNA homopolymer
46 sual physical properties, such as fractional electric charge or a quantized magnetic field flux, orig
47 tic pulses to control the magnetic flux, the electric charge or the phase difference across a Josephs
48 tely transformed on this anode at a specific electric charge Q = 0.03 Ah/L.
49                                              Electric charge screening is a fundamental principle gov
50                                              Electric charge (the gauge coupling constant) is energy
51 n out of equilibrium by light or the flow of electric charge, the vibrational and electronic degrees
52 on, and electric charge; the pore's size and electric charge; the electric field intensity; and the b
53 ctions of the particle's size, location, and electric charge; the pore's size and electric charge; th
54 veal the frequency and voltage dependence of electric charge transfer by prestin.
55 in which the flow of spin waves, rather than electric charges, transmits and processes information.
56 adratic energy dependence that result in the electric charge vanishing at high energies, a result kno
57 sociated with phonons (which carry heat) and electric charges (which carry current).
58         The spin orientation is converted to electric charge, which we measure as a change in the sou

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