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1 nanocrystal quantum dots can be tuned by an electrochemical potential.
2 are classically controlled by differences in electrochemical potential.
3 eoretical specific capacity and low negative electrochemical potential.
4 deficient ATP synthases from dissipating the electrochemical potential.
5 on phases under varying conditions of pH and electrochemical potential.
6 ing of the redox state was achieved with the electrochemical potential.
7 to the intermembrane space, it builds up an electrochemical potential.
8 nsition pore partially prevented the loss of electrochemical potential.
9 duced and oxidized via the application of an electrochemical potential.
10 dependence of the bias for switching on the electrochemical potential.
11 an be turned on and off as a function of the electrochemical potential.
12 MS) do not require ATP or the inner membrane electrochemical potential.
13 V enabled direct compensation of the applied electrochemical potential.
14 arge state-dependent fluorescence sensing of electrochemical potentials.
15 l optical detection of biologically relevant electrochemical potentials.
16 ble [2]rotaxanes can be switched by altering electrochemical potentials.
17 hotonic energy to chemical and transmembrane electrochemical potentials.
19 nged from +0.6 to -2.0 V vs FeCp(2)(+/o) for electrochemical potentials, 5 to 31 for pK(a) values, 43
22 of NADH oxidation and H(+) movement down the electrochemical potential across the inner mitochondrial
23 but ill defined interplay between the proton electrochemical potential across the thylakoid membrane
24 duction of H2 at an energy-storing, positive electrochemical potential and an essentially quantitativ
25 oss ion exchange membranes, creating both an electrochemical potential and an osmotic pressure differ
26 model that is able to accurately predict the electrochemical potential and catalytic activity of a wi
27 due to its favorable combination of negative electrochemical potential and high theoretical capacity.
28 rochemical potentials with explicit constant electrochemical potential and pH effects using implicit
29 at protein in bacteria requires the membrane electrochemical potential and the integral membrane prot
31 protein import defects, lower mitochondrial electrochemical potential, and nuclear transcriptional r
32 potentials (V(TH)s) for electric conduction, electrochemical potentials, and computed lowest unoccupi
33 esent for the first time the construction of electrochemical potential- and pH-responsive nanofluidic
34 ic capacity (3,860 mA/g) and lowest negative electrochemical potential ( approximately 3.040 V vs. th
35 relates the transport of the promoter by the electrochemical potential associated with the tumor and
36 DNB) and the drugs for the GST enzyme in the electrochemical potential at 0.1V vs. Ag/AgCl by square
39 he stripped protons contribute to a membrane electrochemical potential before combining with the stri
40 al K(+) in a manner consistent with the K(+) electrochemical potential being its determinant, where d
42 rotons into the thylakoid lumen, creating an electrochemical potential called the protonmotive force
43 Here, we show that an externally applied electrochemical potential can reversibly activate the co
45 ak in the single molecule conductance versus electrochemical potential data is obtained in ionic liqu
48 power generation technology that produces an electrochemical potential difference from a salinity gra
49 enters convert sunlight into a transmembrane electrochemical potential difference, providing chemical
50 ws to model passive ion fluxes driven by the electrochemical potential differences, but also primary
52 However, this protein functions now as an electrochemical potential driven importer of a new set o
53 These results support a model of PfCRT as an electrochemical potential-driven transporter in the drug
54 n makes it possible to define a quantifiable electrochemical potential (E( plus sign in circle)) for
55 accumulation is dependent on membrane proton electrochemical potential effectively stained the mitoch
56 it regulatory disulfide modulates the proton electrochemical potential energy requirement for activat
57 the "chemical" contribution to the real and electrochemical potentials for ion transport through the
59 text]pH, but no longer respond to either an electrochemical potential ([Formula: see text]) or could
60 The dependence of the reaction rate on the electrochemical potential generally agrees with the Nern
61 y selectivity of an ion is determined by its electrochemical potential gradient and local chemical in
62 lic acid (AA) in the presence of an in-plane electrochemical potential gradient applied to Au working
63 ponsible for generation of the transmembrane electrochemical potential gradient in oxygenic photosynt
64 he vacuoles and shown to be dependent on the electrochemical potential gradient of H+ generated by th
69 e energy stored in the form of transmembrane electrochemical potential gradients to sustain their act
70 two peptides, prepared by coupling in-plane electrochemical potential gradients with the electrosorp
71 igh theoretical specific capacity and lowest electrochemical potential, has been recognized as the ul
72 probes rates as a continuous function of the electrochemical potential (i.e., in the "potential domai
73 mbrane is dependent upon SecA, SecB, and the electrochemical potential in the absence of a signal pep
74 brane unit, F(o), converts the transmembrane electrochemical potential into mechanical rotation of a
76 like Cahn-Hilliard equation, while the local electrochemical potential is based on nonlinear Poisson-
78 mical coupling between mechanical stress and electrochemical potential is explored in the context of
82 This leakage, or 'uncoupling' of the proton electrochemical potential, is mediated primarily by unco
83 urrent through the PANI as a function of its electrochemical potential measured versus a reference el
84 due to their higher mobility dictated by the electrochemical potential, multivalent lipids such as PI
86 r to, the Taylor cone, thereby affecting the electrochemical potential near the ES capillary exit, as
88 miquinone form (NrdIsq) with a difference in electrochemical potential of approximately 110 mV betwee
89 ement in molecular junction formation as the electrochemical potential of both junction electrodes ap
91 red by a motor that converts a transmembrane electrochemical potential of either H(+) or Na(+) into m
92 protonmotive force (p.m.f.)--an imbalance in electrochemical potential of protons across the membrane
94 es, the model predicts that gradients in the electrochemical potential of the compressed layer cause
95 mic membrane protein TonB couples the proton electrochemical potential of the cytoplasmic membrane to
96 s are energy transducers that couple the ion electrochemical potential of the cytoplasmic membrane to
97 both the Fermi level of the graphene and the electrochemical potential of the electrolyte solution, i
98 a coli cells, forms a pore that depletes the electrochemical potential of the membrane and ultimately
99 to enable strain recovery also recovers the electrochemical potential of the metal oxide, providing
100 ction and it is manifested as changes in the electrochemical potential of the polymer with remarkable
102 between two Au electrodes by modulating the electrochemical potential of the wires in various electr
103 because of its adaptable conductance to the electrochemical potentials of both sides of the QDs laye
104 cal strain as an input parameter to modulate electrochemical potentials of metal oxides opens new opp
105 in both Yss and t1/2 are observed at similar electrochemical potentials of the medium, 380 and 340 mV
106 chemical potential to a proton transmembrane electrochemical potential or a signal are the great ques
108 lusters (MPCs) occur at measurably different electrochemical potentials owing to the extremely small
109 ymer catalyst, we show that use of different electrochemical potentials permits continuous adjustment
112 structure of existing catalysts over a wide electrochemical potential range can also offer a new dir
114 These SAMs are extremely stable on repeated electrochemical potential scans and can selectively reco
115 d the process can be monitored following the electrochemical potential shift of the surface-confined
116 icient conversion of chemical energy into an electrochemical potential should prove relevant also for
117 tand the fundamental limits and interplay of electrochemical potential, stability, and solubility in
118 show that these clusters can be oxidized at electrochemical potentials that are accessible to anoxyg
120 We present a model based on spin dependent electrochemical potentials to directly derive the sign e
121 etic resonance (EPR) spectroscopy at defined electrochemical potentials to gain insights into the rol
123 ing monolithic nanoporous gold as a function electrochemical potential using high-speed photography a
124 d proton transfer that generates part of the electrochemical potential utilized for ATP synthesis.
125 chemistry through electronically controlled electrochemical potentials, we were able to achieve sing
126 asurements and the determinations of various electrochemical potentials were used to determine 11 of
127 isplayed by mitomycins is dependent on their electrochemical potential which, in turn, is governed in
128 s or non-aqueous electrolyte enables widened electrochemical potential window thus may provide much g
129 theory calculations to obtain accurate onset electrochemical potentials with explicit constant electr
130 e (oxidize) analytes with different standard electrochemical potentials within mixtures to different
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