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1 e compounds without resorting to excessively high voltage.
2 ation requires low-ionic strength medium and high voltage.
3 h a potentiostat floated at the electrospray high voltage.
4 ion of exposed cells after several pulses of high voltage.
5 ological neovessels generate extraordinarily high voltage.
6 retical transition-metal redox-capacity at a high voltage.
7 erial exhibits a negative Poisson's ratio at high voltage.
8 nerated by pulsing a flow carrying needle to high voltage.
9 h the electrodes are exposed to corrosion by high voltages.
10 d the peak of Ca2+ release at low but not at high voltages.
11  materials with electrolytes that operate at high voltages.
12 na reactor energized by +dc, -dc, or +pulsed high voltage..
13 uents, electrophoresis could be performed at high voltages (20-25 V/cm), reducing run times by up to
14 monstrate that this material is suitable for high-voltage (3.5 V) operation in non-aqueous organic el
15  tube in which pure helium gas is ionized by high voltage (4 kV) and high frequency (6 kHz).
16  of ionized helium gas that is produced by a high-voltage (8 kV) and high-frequency (6 kHz) power sup
17 ss spectrometry (MS) eliminates the need for high voltage, a heat source, lasers, and compressed gase
18  new ionization method that does not require high voltages, a laser beam, or applied heat and depends
19                                              High voltage activated (HVA) Ca2+ channels are composed
20                                              High voltage activated (HVA) Ca2+ channels are composed
21                                Rem2 inhibits high voltage activated calcium channels, is involved in
22 rrent-voltage relationship characteristic of high-voltage activated (HVA) Ca2+ channels.
23 ral lobe epilepsy (TLE) patients displayed a high-voltage activated (HVA) Ca2+ conductance with a pro
24 ionally and pharmacologically similar, i.e., high-voltage activated and highly sensitive to dihydropy
25                                              High-voltage activated Ca channels participate in multip
26                                 We show that high-voltage activated Ca(2+) channels are regulated by
27 cluding Rem2, mediate profound inhibition of high-voltage activated Ca(2+) channels containing intrac
28 zation rearing depressed multiple classes of high-voltage activated Ca(2+) current.
29  receptor agonist DAGO reversibly suppressed high-voltage activated calcium currents and slowed their
30 e than for activation of co-expressed BK and high-voltage activated CaV2.2 channels.
31    Thus, endogenous membrane PIP(2) supports high-voltage activated L-, N-, and P/Q-type Ca(2+) chann
32 harmacologically, revealing all of the major high-voltage activated subtypes: L-, N-, P/Q-, and R-typ
33 f VRG neurons consisted of two components: a high voltage-activated (HVA) and a low voltage-activated
34                                         Both high voltage-activated (HVA) and low voltage-activated (
35 small GTP-binding proteins potently inhibits high voltage-activated (HVA) Ca(2+) channels, providing
36                                              High voltage-activated (HVA) Ca2+ current (ICa) was reco
37 age- and non-voltage-dependent inhibition of high voltage-activated (HVA) Ca2+ currents in Xenopus la
38 0-42) larvae, two forms of inhibition of the high voltage-activated (HVA) Ca2+ currents were produced
39                       Effects of riluzole on high voltage-activated (HVA) calcium channels of rat dor
40 ivation between -60 mV and -70 mV as well as high voltage-activated (HVA) current with an activation
41 ists were examined on specific components of high voltage-activated (HVA) IBa, pharmacologically isol
42 nactivating Kv3.4 channels underlie a robust high voltage-activated A-type K(+) current (I(AHV)) in n
43                          The beta subunit of high voltage-activated Ca(2+) (Ca(v)) channels targets t
44 he transport and physiological properties of high voltage-activated Ca(2+) channel complexes.
45 nd several of its analogs directly stimulate high voltage-activated Ca(2+) channels (HVACCs) in acute
46 GTPase Rem is a potent negative regulator of high voltage-activated Ca(2+) channels and a known inter
47 g the role of Ca(v)beta in RGK inhibition of high voltage-activated Ca(2+) channels and prompt a para
48 ry effects of L-arginine on evoked EPSCs and high voltage-activated Ca(2+) channels expressed in HEK2
49    We have shown previously that NO inhibits high voltage-activated Ca(2+) channels in primary sensor
50            Therefore, Ca(v)3.3 is similar to high voltage-activated Ca(2+) channels in that depolariz
51 ulating the surface expression and gating of high voltage-activated Ca(2+) channels through their int
52 meric GTP-binding proteins potently inhibits high voltage-activated Ca(2+) channels.
53 e of S-nitrosylation in the NO regulation of high voltage-activated Ca(2+) channels.
54 ha1 subunit genes cloned previously code for high voltage-activated Ca2+ channels; therefore, we have
55  of CyCaalpha1 in Xenopus oocytes produces a high voltage-activated Ca2+ current that, unlike vertebr
56  the central nervous system display multiple high voltage-activated Ca2+ currents, pharmacologically
57                                              High voltage-activated calcium channels (HVACCs) are ess
58 ates with the alpha1 pore-forming subunit of high voltage-activated calcium channels and modulates se
59 ound for distinguishing T-type channels from high voltage-activated calcium channels in neurons studi
60 se findings confirm the presence of multiple high voltage-activated calcium channels in the rat islet
61 e modulation of the gating properties of the high voltage-activated calcium channels is localized in
62                 Besides opening and closing, high voltage-activated calcium channels transit to a non
63 y rapid open channel blocker of all types of high voltage-activated calcium channels, with a mild spe
64 nteraction site (synprint) found in synaptic high voltage-activated calcium channels.
65 rd current flowing during the shoulder, with high voltage-activated calcium current also contributing
66 calcium channels carried the majority of the high voltage-activated calcium current, only L-type calc
67                This glycine response reduced high voltage-activated calcium current.
68 tward current or pharmacologically isolated, high voltage-activated calcium current.
69 IA (omega-Aga-IIIA) is a potent inhibitor of high voltage-activated calcium currents in the mammalian
70  the selective effect of gamma(6) on LVA and high voltage-activated calcium currents in vivo.
71 imately 40%), especially near threshold, and high voltage-activated calcium currents much less (appro
72                                   Like other high voltage-activated Cav channels, Cav1.4 channels are
73 type channels alpha1G and alpha1H and to the high voltage-activated channels formed by alpha1Ebeta3.
74                                       R-type high voltage-activated channels inactivate fully in a fe
75 t involved N-, P/Q- and R-type channels, the high voltage-activated channels most intimately associat
76 ology and can be classified as either low or high voltage-activated channels.
77 rrent with a potential contribution from the high voltage-activated component at more depolarized pot
78 terior pituitary GH(4)C(1) cells exhibit the high voltage-activated dihydropyridine-sensitive L-type
79 f the E class of alpha1 subunits support the high voltage-activated R-type current in cerebellar gran
80 of the cardiac L-type voltage-gated calcium (high voltage-activated) channel with accessory proteins
81  that was attributable to calcium influx via high-voltage-activated (HVA) (N- and P/Q-type) calcium c
82               GnRH neurons express prominent high-voltage-activated (HVA) and small low-voltage-activ
83          While both ON and OFF cells express high-voltage-activated (HVA) Ca(2+) channels, only OFF R
84 ons is thought to be mediated exclusively by high-voltage-activated (HVA) Ca(2+) channels.
85 depolarizing steps (> or =20 ms) that evoked high-voltage-activated (HVA) Ca(2+) currents (I(Ca)) and
86               Mutations in several genes for high-voltage-activated (HVA) Ca2+ channel subunits are l
87                                              High-voltage-activated (HVA) calcium channels represent
88 ecorded both low-voltage-activated (LVA) and high-voltage-activated (HVA) calcium current (I(Ca)).
89                                              High-voltage-activated (HVA) calcium currents were recor
90 ng voltage-gated Ca2+ channel subunits alter high-voltage-activated (HVA) calcium currents, impair ne
91  neurons, NPY application reversibly reduced high-voltage-activated (HVA) currents to 33 +/- 5 % (n =
92 T-type Ca(2+) currents (T currents), but not high-voltage-activated (HVA) currents.
93 transfected cells overexpressing PP2B, total high-voltage-activated (HVA) VOCCs were suppressed by ab
94  controlled by calcium (Ca(2)(+)) influx via high-voltage-activated (HVA), Ca(v)2, channels ("N-, P/Q
95                         Glutamate suppressed high-voltage-activated barium currents (IBa, HVA) in tig
96 w depolarization suggests a central role for high-voltage-activated Ca(2+) channels in subicular neur
97                   However, studies on cloned high-voltage-activated Ca(2+) channels indicated that so
98 ared how specific subtypes of human neuronal high-voltage-activated Ca(2+) channels were affected by
99                                       Unlike high-voltage-activated Ca(2+) channels, the inhibition o
100  is mainly regulated by subtypes of neuronal high-voltage-activated Ca(2+) channels.
101 rize the membrane and induce Ca2+ influx via high-voltage-activated Ca2+ channels (I(HVA)).
102                                              High-voltage-activated Ca2+ channels are essential for d
103                                              High-voltage-activated Ca2+ channels regulate diverse fu
104 ubunits is obligatory for forming functional high-voltage-activated Ca2+ channels, yet the structural
105 e voltage dependence of DSI was like that of high-voltage-activated Ca2+ channels.
106       (+)-ECN was less effective at blocking high-voltage-activated Ca2+ current in DRG neurons (IC50
107 ceptor agonist, both enhanced and suppressed high-voltage-activated calcium channel current.
108 rons had lower baclofen-evoked inhibition of high-voltage-activated calcium channels and a defective
109                                              High-voltage-activated calcium channels are hetero-oligo
110                                       L-type high-voltage-activated calcium channels are involved in
111 ed calcium currents arising from preexisting high-voltage-activated calcium channels without affectin
112 plitude of currents arising from preexisting high-voltage-activated calcium channels.
113  miniature excitatory synaptic currents, and high-voltage-activated calcium currents are not affected
114 tors further, we show that baclofen inhibits high-voltage-activated calcium currents in granule cells
115 o block alpha1G and alpha1I will also affect high-voltage-activated calcium currents.
116 betagamma-dependent inhibition of non-L-type high-voltage-activated channels of the Ca(v)2 family.
117 ials, which usually permit Ca influx through high-voltage-activated channels.
118 an open time of these otherwise long-lasting high-voltage-activated channels.
119 hese data suggest that Kv3.4 and Cav1.2, two high-voltage-activated ion channels, may act together to
120                                              High-voltage-activated KV3.1b and KV2.2 were expressed i
121 intracellular calcium transients mediated by high-voltage-activated L-type calcium channels.
122 its therapeutic effect primarily by blocking high-voltage-activated L-type calcium channels.
123 receptor (nAChR) subtype and an inhibitor of high-voltage-activated N-type calcium channel currents.
124  electroencepholagram (EEG) pattern in which high-voltage activity alternates with isoelectric quiesc
125                             The TEG provides high-voltage alternating electric output, which fits in
126  soft ionization source, a modulation of the high-voltage amplitude and duty cycle can lead to optimi
127 vity electrograms are characterized by their high voltage and are influenced by intraventricular cond
128 ign of conventional redox flow batteries and high voltage and energy efficiency of Li-ion batteries,
129 ed with covalent S-Au bonds are robust under high voltage and their rupture does not demonstrate bias
130    This optimization involved the removal of high voltage and use of pure water as a spray solvent in
131 cloned from an epithelium that is exposed to high voltages and alkaline pH.
132 ld and operate without the use of heaters or high voltages and is compatible with any MALDI probe for
133 served with small DNAs and RNAs (10-100 bp): high voltages and short run times produced sharper bands
134 a(+), which makes it difficult to identify a high-voltage and high-capacity intercalation cathode hos
135 the fabrication of supercapacitor arrays for high-voltage applications.
136 ly to shield the sensor electronics from the high voltages applied during the separation.
137  palladium decoupler was used to isolate the high voltages associated with electrophoresis from micro
138  To address these problems, we constructed a high-voltage, automatic, two-dimensional electrophoresis
139 trometry (NAIMS) is described, which applies high voltage between a tungsten nanotip and a metal plat
140 ity and rupture of molecular junctions under high voltage bias at the single molecule/single bond lev
141 g-induced convulsions (HIC) or abnormal EEG (high-voltage "brief spindle episodes" (BSE)) activity.
142   SD significantly reduced the percentage of high-voltage BSWS (on average to 14% of baseline) and RE
143                                              High-voltage BSWS and the amount of SWS in each hemisphe
144 ficient dielectric interface to insulate the high-voltage buffer from the metal valve body.
145 uppressions' lasting seconds or minutes, and high-voltage 'bursts'.
146          The nanocomposites have outstanding high-voltage capacitive energy storage capabilities at r
147 e oxidative decomposition of electrolytes at high voltage cathode materials of Li-ion batteries.
148 ithium metal anode, garnet electrolyte and a high-voltage cathode by applying the newly developed int
149                                      Here, a high-voltage cathode composed of Na3 V2 (PO4 )2 O2 F nan
150 olyte system permits standardized methods of high-voltage cathode testing that uses a typical coin ce
151 /K(+)) which enables good compatibility with high-voltage cathodes.
152       The portable MOA instrument integrates high voltage CE power supplies, pneumatic controls, and
153 f the electrode/electrolyte interface during high-voltage cell operation.
154 ng and suppressing the structure collapse at high voltage charge.
155 er electrolytes to fully tap the capacity of high-voltage Co-based hydroxysulfates, and to theorists
156 d through distinct signaling pathways as the high-voltage component is abolished by the phosphoinosit
157 ced current is composed of separate low- and high-voltage components that include the activation of a
158  capacity fading and impedance buildup under high-voltage cycling conditions, as well as the first-cy
159 agranular cracks is directly associated with high-voltage cycling, an electrochemically driven and di
160                    However, the conventional high voltage devices in inverters have to be built on th
161                                          The high voltage discharge generated by electric eels is a p
162 ative to APCI corona needle discharge or ESI high voltage discharge when flammable solvents (e.g., he
163 ugh a series of experiments, I show that eel high-voltage discharges can activate prey motor neurons,
164 the replicate measurements in the studies of high-voltage effects.
165 e use of noble metal electrodes, the need of high-voltage electric field, and/or discontinuous separa
166           We report here that a single 10 ns high-voltage electric pulse can permeabilize lipid vesic
167 e processed by pulsed electric fields (PEF), high voltage electrical discharges (HVED) and ultrasound
168 ctric energy (pulsed electric fields, PEF or high voltage electrical discharges, HVED) of nutritional
169     Successful applications of WCu alloys in high voltage electrical switches require their high stre
170 the case of a 52-year-old man who suffered a high-voltage electrical burn requiring amputation of his
171          Presence of severe burns (common in high-voltage electrical injury), myocardial necrosis, th
172 on carries several drawbacks associated with high-voltage electrical pulses and heterogeneous treatme
173 ation due to redox reactions of water at the high-voltage electrode is outside of the separation capi
174  Most use platinum electrodes and operate at high voltages, electrolyzing water.
175                                              High-voltage electron microscopy indicated that the PFs,
176                                      We used high-voltage electron microscopy to characterize Golgi-s
177                  Using both conventional and high-voltage electron microscopy, we performed two- and
178 mately 6-nm resolution by means of dual-axis high-voltage electron tomography of high-pressure frozen
179                                 Here, we use high-voltage electron tomography to study the centrosome
180 freeze-substituted cells in conjunction with high-voltage electron tomography to study the fine struc
181 nstrument design, pulse timing sequence, and high-voltage electronics together with SID spectra of MA
182                           A method utilizing high-voltage electrophoresis on paper is described where
183 onitored by (14)C-radiolabelling followed by high-voltage electrophoresis.
184 at kidney cells have been made by dual-axis, high-voltage EM tomography at approximately 7-nm resolut
185  at both the upstream ground contact and the high-voltage emitter contact in an electrospray ion sour
186  focusing operates on the basis of pulsing a high-voltage extraction field to zero, when ions are jus
187 orded at liquid nitrogen temperature using a high voltage field emission electron microscope.
188                                            A high voltage for CE separation is continuously applied a
189  capillary columns permit the application of high voltages for achieving rapid and effective transfer
190 ogic circuits, such as an NMOS inverter with high voltage gain (up to 70).
191  used to create complementary inverters with high voltage gain.
192  complementary inverter circuitry exhibiting high voltage gains (~50) and ring oscillator circuitry w
193                                              High voltage gains of up to 60 are obtained for compleme
194 alpha(1C) and alpha(1E) subunits of neuronal high voltage-gated Ca channels (HVGCCs) were separately
195  beta-cells depends on Ca(2+) influx through high voltage-gated Ca(2+) channels (HVCCs).
196 oxylase antibodies (>1000 U/ml), and one had high voltage-gated potassium channel-complex antibody (2
197 s, we utilized a glass microfluidic chip and high voltage gradient for millisecond capillary electrop
198 ent electrodes from corrosion, when applying high voltages (>20 V(pp)) at the electrodes.
199 meter to micron range under the influence of high voltages, has been widely studied to produce polyme
200 ating parameters, including the electrospray high voltage, heated capillary temperature, solvent infu
201 lution dielectric properties and requires no high voltages, in contrast to the more-traditional elect
202 xhibits a unitary conductance of ?160 pS and high, voltage-independent open probability.
203  CE experiments in the capillary by applying high voltages independently.
204  The NiFe/PMN-PT heterostructure exhibited a high voltage induced effective magnetic field change of
205                         Here we investigated high-voltage-induced polarization and activation pattern
206  500 V and are completely absent in standard high-voltage ionization.
207                      Under computer control, high voltage is applied to the appropriate reservoirs in
208 id from a highly located region, and then, a high voltage is applied to the plant to generate an elec
209 ations and the direction of rectification at high voltages is opposite to what is observed in experim
210 , A-type) and calcium low voltage T-type and high voltage L-type currents.
211        Lead fracture is a limiting factor in high voltage lead durability.
212 ) by a digital one (simple pulses of a fixed high voltage level) requires the elimination of high ord
213 t into a method to enable the performance of high-voltage LIBs.
214 panel control of source parameters including high-voltage limit/ramp rate, emitter heating current li
215                               Residence near high-voltage lines did not increase risk.
216 , and electrocorticographic (ECoG) activity (high voltage low frequency, HVLF, versus low voltage hig
217 e, noncardiac cells, ultrashort (nanosecond) high-voltage (megavolt-per-meter) pulsed electrical fiel
218 onstrate that alloying a high-melting-point, high-voltage metal (antimony) with a low-melting-point,
219 in the crystals during depolarization in the high voltage mode is four times higher than that for PZT
220 perable tumors which uses short (50-100 mus) high voltage monopolar pulses to disrupt the membranes o
221 dvancing age alters sleep patterns, reducing high voltage NREM sleep, sleep bout length, and delta po
222                   However, the delivery of a high-voltage nsEP to cells by tungsten electrodes create
223                                        Under high voltage operation, the current saturation appears t
224 structural stability is the key step towards high-voltage operation of layered-cathode materials.
225 the long-standing challenges associated with high-voltage operation of LiNi(x)Mn(x)Co(1-2x)O2 cathode
226 chitecture, high power consumption and risky high-voltage operation.
227 ectors often requires complex architectures, high-voltage operations, and sophisticated low-noise mea
228 (ESI) from the solid state without requiring high voltage or added heat.
229  to translocate across the membrane, even at high voltages or with a transmembrane pH gradient.
230          It often requires heating, applying high voltages, or using lasers with short wavelengths or
231 ed battery is successfully discharged with a high voltage output.
232                                        Using high-voltage paper electrophoresis, we showed that addit
233 ered oxides, high-voltage spinel oxides, and high-voltage polyanionic compounds.
234 iew gives an account of the various emerging high-voltage positive electrode materials that have the
235  simple pressure control rather than complex high voltage power supplies, sieving matrices, and wall
236 res neither cumbersome, expensive optics nor high voltage power supplies.
237 us widespread way to add new generators to a high-voltage power grid is by a simple tree-like connect
238  association between residential distance to high-voltage power lines and neurodegenerative diseases,
239 or sensing and powering the PCR reactor, and high-voltage power supplies for conducting CE separation
240                                 Programmable high-voltage power supplies provide bidirectional curren
241 ary isoelectric focusing but uses additional high-voltage power supplies to provide control over the
242 of a microchip, microchip holder, two 0-8-kV high-voltage power supplies, a high-voltage switch, a so
243 ssay stages are programmably controlled by a high-voltage power supply and monitored by an epifluores
244               Miniaturized, battery-powered, high-voltage power supply, electrochemical (EC) detectio
245          This new degree of control, and the high voltages produced, may find application in optoelec
246                        Upon application of a high voltage pulse to the electrode, an electrostatic ch
247 e ('T-jump') up to 37 degrees C by passing a high-voltage pulse (40 kHz AC, 0.15 ms duration) through
248 equired a faster data acquisition system and high-voltage pulse electronics, together with a novel st
249                             The mechanism of high-voltage pulse-induced permeabilization of the strat
250   The plasma was generated with a home-built high-voltage pulsed power supply.
251         Electroporation of cells with short, high-voltage pulses causes a transient permeabilization
252  We could explain the response to the short, high-voltage pulses if breakdown occurred in the lipid b
253 er cell membranes created by applying short, high-voltage pulses in tumors enables high calcium influ
254           However, the application of short, high-voltage pulses to electroporate skin has recently b
255 ransfected into retinal explants in vitro by high-voltage pulses.
256 tion, the bacteria were lysed by a series of high-voltage pulses.
257 ng eels emit electricity in volleys of 1 ms, high-voltage pulses.
258                 They then deliver volleys of high-voltage pulses.
259 uctance in the low-voltage range, and in the high-voltage range, a Ca(2+)-dependent component.
260 ygen gas at the cathode is supplanted by the high-voltage reduction of cerium ammonium nitrate.
261 ing (low-voltage) and sequential-tunnelling (high-voltage) regimes.
262                                  Because the high voltages required for ESI and APCI were independent
263 istics of existing technologies, such as the high voltages required to trigger electroactive polymers
264 ere are no moving parts, no rapid changes to high voltages requiring additional control electronics,
265 -photon (1P) illumination, RVF5 demonstrates high voltage sensitivity (28% DeltaF/F per 100 mV) and i
266     In contrast, cardioversion uses a single high-voltage shock to terminate AF reliably, but the vol
267 erent polarity cycles in the DB electrospray high voltage signal and the triggering of it to an outpu
268      Here it is shown that electric eels use high-voltage simultaneously as a weapon and for precise
269                                              High-voltage slow ECoG activity (HV) and low-voltage fas
270 sions of the PB complex produce a monotonous high-voltage, slow-wave EEG and eliminate spontaneous be
271 ration that uses relay switching of a single high-voltage source.
272  the neocortex, including sleep spindles and high voltage spike-and-wave patterns (HVSs).
273 riable-duration oscillations and repetitive, high-voltage spikes have been recorded in the electrocor
274 dorsal/lateral striatal neurons entrained to high-voltage spindle oscillations ("spike wave discharge
275 -voltage spindles, it is not correlated with high-voltage spindles, indicating that despite their sim
276 uding K-complexes, low-voltage spindles, and high-voltage spindles.
277 disordered phase in the lattice structure of high voltage spinel, and its effect on the charge transp
278 layered oxides, lithium-rich layered oxides, high-voltage spinel oxides, and high-voltage polyanionic
279                                        Under high voltage stress, a burst of extremely high luminance
280 r, two 0-8-kV high-voltage power supplies, a high-voltage switch, a solid-state diode-pumped green la
281  an event where the device failed to deliver high-voltage therapy.
282 monstrate a Magnesium Zinc Oxide (MZO) based high voltage thin film transistor (HVTFT) built on a tra
283 r the spiral ganglion, in agreement with the high voltage threshold measured in the spiral process.
284 lso, solid-state Li batteries can operate at high voltage, thus, producing high power density.
285                                     They use high voltage to track [2] and control [3] prey, as well
286 cess that allows for the application of very high voltages to microfabricated devices in general and
287 s was used to distribute the electrophoresis high-voltage to all reservoirs situated on the fluidic c
288                    Here we use in situ ultra-high voltage transmission electron microscopy (TEM) to d
289 stem, both Se and Se(x)S(y) can be cycled to high voltages (up to 4.6 V) without failure.
290 ant experimental variables, particularly the high voltage used for driving the electroosmotic flow, u
291 ating is stable for a number of hours at the high voltages used for nanoelectrospray ionization and i
292 fast muscle contraction, suggesting that eel high-voltage volleys have been selected to most efficien
293 st a threatening conductor while discharging high-voltage volleys.
294                                              High voltage was applied across both capillaries so that
295                                       When a high voltage was applied for CE separation, a sharp pH g
296                                         When high voltage was applied to the concentration capillary
297           The inlet channel is maintained at high voltage while one outlet channel is kept at ground
298 fficiency and/or cell viability due to their high voltage, while the emerging microfluidic electropor
299 estination.Water is usually not favorable in high-voltage window aprotic electrolytes.
300 eukemia (1989-1993), living in a home with a high-voltage wire code was not associated with disease r

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