ライフサイエンスコーパス: miniaturize

1 which are bulky, expensive, and difficult to miniaturize.

2 and the system design can easily be further miniaturized.

3 of the synthetic "toolkit" cannot be readily miniaturized.

4 microscope, LED cold light illumination, and miniaturized 3D printed pumping manifolds that were inte

5 In this article, a novel, miniaturized 3D wearable PAT (3D-wPAT) technique is desc

6 ch may form the basis for the development of miniaturized all-solid-state ion-selective electrodes fo

7 Miniaturized alternatives to Western blot based on micro

8 range of separation modalities ranging from miniaturized analogs of established techniques such as f

9 These exploit a variety of miniaturized analytical formats, such as microfluidics,

10 g implications for the future development of miniaturized analytical systems for molecular diagnostic

11 atable, requires no moving parts, is easy to miniaturize and furthermore possesses a size dependent c

12 us emulsion creamer (ICEcreamer) was used to miniaturize and optimize measurements of various enzymat

13 as possible solutions as they can be easily miniaturized and can be cost-effective.

14 re obtained under optimal conditions for the miniaturized and conventional approaches, respectively.

15 protocol with less sample volume and easily miniaturized and cost-effective instrumentation.

16 respectively) with the advantage of using a miniaturized and cost-effective system.

17 terpart metasurfaces, such components can be miniaturized and designed with additional functionalitie

18 In this work a miniaturized and disposable electrochemical sensor was d

19 zymatic biosensors represent cost-effective, miniaturized and easy to use devices; particularly biose

20 urposes, a three-electrode configuration was miniaturized and fitted onto a biochip.

21 nse research on flexible sensors that can be miniaturized and function under considerable physical de

22 Therefore, we have been interested in miniaturized and inexpensive sensors suitable for long-t

23 and provide the basis for the development of miniaturized and integrated detection platforms for drug

24 the present study was to combine the use of miniaturized and integrated impedimetric transducers and

25 l solutions are available for the automated, miniaturized and integrated induction of defined wound a

26 of a versatile biosensor that can be easily miniaturized and integrated into a high-throughput diagn

27 We envision that miniaturized and integrated paper-based diagnostic devic

28 determining figures of merit, aptasensor was miniaturized and integrated with human hepatic stellate

29 tilizing the dynamic properties of MNBs in a miniaturized and low-cost platform requiring only a tran

30 ents a novel all-solid-state potentiometric, miniaturized and mass producible pH ISE sensor for detec

31 siders the complexities of NA isolation with miniaturized and microfluidic devices, as well as the co

32 ent techniques can be implemented that allow miniaturized and portable instrumentation.

33 Integrated photonics provides a miniaturized and potentially implantable platform to man

34 Therefore, a simple, miniaturized and selective biosensor was developed, bein

35 ensor can be easily incorporated into future miniaturized and semiautomatic devices for EV determinat

36 development of universal, highly sensitive, miniaturized, and integrated nanoelectronic devices that

37 The low cost, miniaturized, and portable MGD can be used to fabricate

38 approach offers a new platform for a rapid, miniaturized, and sensitive diagnostic sensor in a singl

39 hermore, the muHDBD-PID can be driven with a miniaturized ( approximately 5 cm x approximately 2.5 cm

40 sharing many attributes of other art forms, miniaturized art enables the direct engagement of sensor

41 Our miniaturized assay demonstrated a sensitive electrochemi

42 This test screen demonstrated that the miniaturized assay is extremely suited for high-throughp

43 They miniaturize assays to reduce sample and reagent consumpt

44 etic particles inside microfluidic chips for miniaturized assays is often challenging due to ineffici

45 e dielectric barrier discharge (LE-DBD) is a miniaturized atmospheric pressure plasma as emission exc

46 though significant progress has been made in miniaturizing atomic metrological devices, these are lim

47 rbon, and then deposited on the surface of a miniaturized Au electrode (7mm(2)) to prepare a miniatur

48 oanalysis, there is an increasing demand for miniaturized, automated, robust sample pretreatment proc

49 A miniaturized automation platform enabling high-throughpu

50 icknesses from 10 to 100 nanometers by using miniaturized ballistic tests.

51 Moreover, by utilizing a miniaturized beam projector, it can back-project 2D cros

52 ow-cost, rapid, sensitive, reproducible, and miniaturized bioanalytical devices, which exploit the hi

53 are poised to replace robotic automation by miniaturizing biochemical reactions to the droplet scale

54 Here we designed and characterized a miniaturized biochip based on a novel deep-blue organic

55 ays for high-density information storage and miniaturized biochips and biosensors, among others.

56 s technology can be further transformed onto miniaturized biochips based on the nanosized optical tra

57 c devices have the potential to automate and miniaturize biological experiments, but open-source shar

58 oengineered biomaterials are integrated into miniaturized biological and biomimetic systems for dynam

59 enables the establishment of a low-cost and miniaturized biosensing platform.

60 The miniaturized biosensor, which is composed of five chambe

61 Such miniaturized blood cell assay platforms also provide the

62 ic dual-modality imaging system and flexible miniaturized catheter, which enables the translation of

63 r for testing stem cell fates inside various miniaturized cell-laden gels in a systematic manner.

64 ted in 3D agarose scaffold and cultured in a miniaturized chamber under perfusion of tested substance

65 ntinues to be invested in the development of miniaturized, cheap and easy-to-use systems.

66 systems have become a very powerful tool to miniaturize chemical and biological reactions.

67 Because automated, miniaturized chemistry is difficult to carry out in the

68 ctose-terminated substituent and packed into miniaturized columns that were used in a chromatographic

69 ing are pushing the development of portable, miniaturized, compact biosensors with diagnostic and pro

70 This fluorophore allowed a highly robust and miniaturized competition assay sufficient for high-throu

71 tions are combined and integrated on-chip to miniaturize complex biochemical assays.

72 This methodological approach illuminates how miniaturized components interact and function in complex

73 optical signal processing functionalities in miniaturized components.

74 upling with a detection technique of choice, miniaturized configuration and simple implementation for

75 (SPR) optical fiber biosensors constitute a miniaturized counterpart to the bulky prism configuratio

76 s, manual operation, and lack of established miniaturized counterpart.

77 To validate this device, we implemented a miniaturized coupled assay for NAD(+)-dependent amino ac

78 This miniaturized device constitutes a powerful tool for anal

79 nd it is suitable for further development of miniaturized devices and multiplexed detection.

80 PCR) is described and could be the basis for miniaturized devices that can amplify and detect target

81 proach for diagnostics applications based on miniaturized devices.

82 o explore new properties and construction of miniaturized devices.

83 ds is a central yet challenging operation in miniaturized devices.

84 Miniaturized diagnostic devices hold the promise of acce

85 acid biomarkers of pathogens and diseases in miniaturized diagnostic devices.

86 ons in, for example, biological diagnostics, miniaturized display technology and the preparation of e

87 A miniaturized, disposable, and low cost Ag/AgCl pseudoref

88 ylated polythiophene films on the surface of miniaturized, disposable, gold screen-printed electrodes

89 We developed a miniaturized Distributed Oxygen Sensor ("mDOS") specific

90 ce is well-suited for LOC applications where miniaturized DO removal and/or regulation are desirable.

91 The miniaturized droplet dehydration-based binodals obtained

92 opy imaging as a quantitative technique in a miniaturized droplet format, which is shown to be as rel

93 s remarkable potential for highly sensitive, miniaturized, easy-to-use, and versatile gas sensing.

94 An ultra-miniaturized electrochemical biosensor for continuous gl

95 We propose that adopting miniaturized electrochemical EBOV immunosensing can dete

96 or the development of low-cost, portable and miniaturized electrochemical systems for point-of-care a

97 osition (EPD), in enzyme immobilization onto miniaturized electrodes and their use as biosensors and

98 In coating miniaturized electrodes with enzymes, there is no doubt

99 Molecular electronics aims to miniaturize electronic devices by using subnanometre-sca

100 properties, driven by the desire to further miniaturize electronic devices, develop new functional m

101 The rapid development of miniaturized electronic devices has increased the demand

102 omplement or even replace micro-batteries in miniaturized electronics and microelectromechanical syst

103 In short, spectrophotometer-free image-based miniaturized ELISA on APPmicroTP is precise, reliable, r

104 iaturized Au electrode (7mm(2)) to prepare a miniaturized enzyme anode.

105 in a burning cigarette was investigated by a miniaturized extractive sampling probe (microprobe) coup

106 A miniaturized FAIMS device capable of rapid compensation

107 atment, and the hyphenation of DESI with the miniaturized FAIMS enhanced the relative analyte respons

108 temperature in nanostructures is needed for miniaturizing ferroelectric devices.

109 On the basis of the abilities of such miniaturized FERS system, we expect high potential for t

110 rbohydrazide (DPC) and finally detected by a miniaturized fiber optic CCD spectrophotometer at 520 nm

111 A specific, miniaturized filter was developed and tested for leukocy

112 upercapacitors can be easily integrated into miniaturized flexible devices, we use them to power an u

113 An easily performed fully automated and miniaturized flow injection chemiluminescence (CL) metho

114 to 50 kHz, providing an effective means for miniaturized flow sensing.

115 probe immersed in synthetic gut fluids, the miniaturized flow system is harnessed for continuous mon

116 n of SPR and QCM and has the potential to be miniaturized for application in point-of-care (POC) diag

117 s via antigen-antibody recognition, has been miniaturized for microfluidic platforms to reduce reagen

118 These electrodes can also be fabricated in miniaturized form, and thus used to produce miniaturized

119 The miniaturized format allows for small sample and reagent

120 Miniaturized forms of agrin (mAgrin) have been shown to

121 l resonators have the potential to provide a miniaturized frequency reference for metrology and sensi

122 We studied a miniaturized, fully self-contained leadless pacemaker th

123 mbly techniques on a micro- and nanoscale to miniaturize functional devices for biomedical uses.

124 psulate glioblastoma multiforme cells within miniaturized gelatin hydrogels containing overlapping pa

125 re we report a scalable process to fabricate miniaturized graphene-based ac line-filters on flexible

126 ls and from the axons with a newly developed miniaturized grease-gap method.

127 The integration of efficient, miniaturized group IV lasers into CMOS architecture hold

128 vancements have resulted in the emergence of miniaturized handheld ultrasound equipment that is compa

129 Miniaturized heart rate telemetry shows that they use a

130 The miniaturized HEMT chip is packaged in a polymer substrat

131 ctrospray ionization (DESI), hyphenated with miniaturized high-field asymmetric waveform ion mobility

132 asis for the design of nanoarchitectures for miniaturized high-performance magneto-optical devices.

133 mg scale using glass microvials providing a miniaturized high-throughput experimentation capability

134 We demonstrate the application of miniaturized high-throughput experimentation methods to

135 this study, we designed and characterized a miniaturized, highly-sensitive DNA biochip based on a de

136 MEA recordings from neuronal networks in miniaturized hyperbaric measuring chambers provide new a

137 electrically measured microcantilever can be miniaturized in order to be portable for point-of-care,

138 For the evaluation of the miniaturized in stillo reactions, the degradation reacti

139 A miniaturized in vitro tube model can be useful in invest

140 The miR375 levels were also determined in a miniaturized in vitro tube model comprising human islets

141 CAY10512 before mixing autologous blood in a miniaturized in vitro tube model.

142 lectronic detection holds promise for future miniaturized in-situ applications and can be integrated

143 The device described here provides a miniaturized, inexpensive, and mass producible sensor ar

144 mouthguard platform along with anatomically-miniaturized instrumentation electronics featuring a pot

145 ents remain vital for the next generation of miniaturized integrated circuits.

146 A new flexible miniaturized integrated device was microfabricated for t

147 d smaller, there is an increasing demand for miniaturized integrated power sources.

148 tic chemistry conditions discovered in these miniaturized investigations enabled the development of s

149 The key development is a highly miniaturized ion optical assembly in which a sequence of

150 A wearable and miniaturized iontophoresis interface is an excellent sol

151 nting to build an ultra-low-cost, rapid, and miniaturized lab-on-a-chip (LOC) platform.

152 Miniaturized lab-on-a-chip systems offer properties - e.

153 e to demonstrate applications of droplets as miniaturized laboratories for biological measurements.

154 Miniaturized laboratory-on-chip systems promise rapid, s

155 Within miniaturized laboratory-on-chips, static and dynamic dro

156 There is a clear demand for rugged miniaturized lasers with stabilities comparable to those

157 The miniaturized LCE actuators offer large-area work capacit

158 opments that have been made in automated and miniaturized LLE procedures, fully automated LLE techniq

159 A miniaturized, localized surface plasmon resonance (LSPR)

160 We established a miniaturized luciferase gene reporter assay in A549 cell

161 onic devices and has been widely utilized as miniaturized magentic sensors.

162 In this study, a miniaturized mass spectrometer in combination with three

163 e experiments show that the combination of a miniaturized mass spectrometer, ambient ionization, and

164 Miniaturized mass spectrometers are becoming increasingl

165 uraging and suggests that RTILs and low-cost miniaturized MATFEs can be combined in amperometric sens

166 A flexible and miniaturized metal semiconductor metal (MSM) biomolecula

167 Such miniaturized methods could become valuable tools in drug

168 Furthermore, the stacking of miniaturized MFCs has been demonstrated to offer larger

169 This paper reports on a miniaturized microbial fuel cell with a microfluidic flo

170 Miniaturized microfluidic biosensors have recently been

171 n an Au film electrode in an electrochemical miniaturized microfluidic cell.

172 onance Raman scattering for the detection of miniaturized microscale arrays fabricated by dip-pen nan

173 ice using two-photon microscopy or an nVista miniaturized microscope.

174 herefore, we designed and fabricated a novel miniaturized microslot NMR detector with on-board heater

175 controller unit, a signal transmitter, and a miniaturized microvibration sensor.

176 hollow waveguides (iHWG) serving as a highly miniaturized mid-infrared photon conduit and gas cell wi

177 a protruded tip, which can be fabricated and miniaturized more readily to facilitate nanoscale SECM i

178 The development of this novel, flexible and miniaturized MSM biomolecular photodetector with excelle

179 miniaturized form, and thus used to produce miniaturized multielectrode probes.

180 dicationic ion-pairing compounds through the miniaturized multifunctional device, the single-probe, f

181 The Single-probe is a miniaturized multifunctional sampling and ionization dev

182 results present important progress towards a miniaturized, multifunctional fiber-optic technology tha

183 c acid (mRNA) using magneto-DNA probes and a miniaturized nuclear magnetic resonance device.

184 most stereotyped circuits in one of the most miniaturized of animal brains.

185 escence imaging approaches based on two- and miniaturized one-photon microscopy.

186 plasmonics makes it possible to dramatically miniaturize optical devices so as to integrate them into

187 on of a microfluidics platform in a homemade miniaturized optical analyzer provides a promising way f

188 ey concept for reproducible alignment with a miniaturized optical detection system comprising an inte

189 would be to devise strategies through which miniaturized optical devices can be monolithically fabri

190 uidic platform combining with a low cost and miniaturized optical sensor.

191 Miniaturizing optical trap instruments onto optofluidic

192 bles portable operation when integrated with miniaturized optics and allows retrieval of exosomes for

193 asmon polariton is an emerging candidate for miniaturizing optoelectronic circuits.

194 d by solid-state lasers, a number of new and miniaturized organic lasers have emerged that hold great

195 noparticles sensors were read out by adapted miniaturized oxygen meters.

196 Thus, we demonstrated a remote-controlled miniaturized pacing system with low power consumption, t

197 -based analytical devices (EPADs) in which a miniaturized paper reference electrode is integrated wit

198 Herein, we developed a simple, miniaturized paper/PMMA (poly(methyl methacrylate)) hybr

199 non-toxic, thermally stable and feasible for miniaturized PCR chips.

200 riven stage, solenoid-actuated pinch valves, miniaturized peristaltic pumps as well as Peltier heatin

201 The chemiluminescence in the miniaturized photocurrent sensing system was successfull

202 r optical lenses are fundamental elements of miniaturized photonic devices.

203 The recent emphasis on the miniaturized photonic platform is thus motivated by the

204 nostructures offer an attractive approach to miniaturize photonics.

205 The miniaturized piezoresistive microcantilever was fabricat

206 cept, in which all relevant steps for online miniaturized planar chromatography are performed by a si

207 ith a deficiency in the mtFAS system, namely miniaturized plant morphology, slow growth, reduced lipo

208 Here we utilize miniaturized plasma exchange to deliver labeled albumin

209 In this context, we have developed a miniaturized plasmonic biosensor platform based on a hyp

210 NL structures open new avenues for designing miniaturized plasmonic nanodevices with various applicat

211 The gel array chip could be a useful miniaturized platform for high-throughput detection of d

212 o the attractive possibility of a completely miniaturized platform for portable field-use microanalyt

213 have developed a drug-eluting microarray, a miniaturized platform onto which a minimal quantity of c

214 ment was configured to run on low power in a miniaturized platform to improve the device portability

215 vides a simple electrochemical readout and a miniaturized platform with multiplexing capabilities for

216 se issues and to make portable and effective miniaturized platform, various immunoassays sensing stra

217 bstrate as a first step towards developing a miniaturized platform.

218 on of various types of bioassays on a single miniaturized platform.

219 lization of highly complex and sophisticated miniaturized platforms for several important healthcare

220 multicolor mu-ILEDs with fully implantable, miniaturized platforms.

221 gh sensitivity, selectivity, robustness, and miniaturized point-of-care cancer diagnostics.

222 sed glucose indicating polymer coated onto a miniaturized, polymer-encased optical detection system.

223 didate to replace energy storage devices for miniaturized portable electronic applications.

224 can complement or even replace batteries in miniaturized portable electronics and microelectromechan

225 testing is the development of a chip-based, miniaturized, portable, and self-containing system that

226 Both techniques offer the possibility of miniaturized, potentially integrable, wave-based computi

227 f CIM carbon-based reference electrodes with miniaturized potentiometric systems, these reference ele

228 s paper presents a novel approach of using a miniaturized potentiostat (M-P) chip (LMP91000) to perfo

229 n be integrated with microfluidic system and miniaturized potentiostat for point-of-care cortisol det

230 Miniaturizing potentiostats, keeping their cost low and

231 as then integrated with a lab-built low-cost miniaturized printed circuit board (PCB) to provide an e

232 The miniaturized probes were validated in single human lung

233 Miniaturized quarter-wave plate devices empower spin to

234 agnetic inductance, which may be utilized to miniaturize radiofrequency integrated circuits.

235 Miniaturized Raman gas spectroscopy was proven to be an

236 The in stillo miniaturized reactions provided immediate real-time snap

237 y creating libraries of thousands of unique, miniaturized reactors, droplet microfluidics provides a

238 nd response time of 5 s in batch mode) and a miniaturized reference electrode.

239 We fabricated miniaturized SAF microlens array as part of a microfluid

240 ion of hollow-core optical fibers provides a miniaturized sample container for analyte flow and effic

241 cted second-order derivative procedure and a miniaturized sample preparation based on low-density sol

242 This multiplexed, miniaturized sample preparation microdevice establishes

243 development of integrated tools allowing for miniaturized sample processing, including solid phase ex

244 ity to be used in laboratory procedures on a miniaturized scale.

245 However, the development of miniaturized screening procedures/platforms to expedite

246 xperimental data confirm the capability of a miniaturized sensor to identify concentrated blood, whic

247 are agent and provide an opportunity to make miniaturized sensor, indicating considerable promise for

248 etric detection method based on the use of a miniaturized sensor.

249 red, sensitive, flexible, biocompatibale and miniaturized sensors can find extensive applications in

250 array with all-solid-state, potentiometric, miniaturized sensors for pH and potassium was developed

251 The fabricated miniaturized sensors have demonstrated higher shelf life

252 s facilitated the development of paper based miniaturized sensors, which has recently gained ASSURED

253 encing revolution can be sequencing sensors--miniaturized sequencing devices that are manufactured fo

254 users) status for point of care diagnosis in miniaturized settings.

255 microfluidics-based technology that performs miniaturized simultaneous propagon-induced amplification

256 s C to -40 degrees C) was observed using the miniaturized single tip sensor for various concentration

257 such as low detection limit, selectivity and miniaturized size enables potential application of this

258 ly impaired people in terms of light weight, miniaturized size, and larger displacement, compared wit

259 to find applications in a new generation of miniaturized, smart biochip devices.

260 Much effort has focused on miniaturizing spectrometers, but thus far at the cost of

261 Here, we developed a miniaturized spinning bioreactor (SpinOmega) to generate

262 stem was found to be novel, quick, reliable, miniaturized, stable, reproducible and repeatable and sp

263 ic acid catalyzed by Penicillin G acylase in miniaturized stirred batch reactors or continuous flow m

264 on source enhances the potential of DMS as a miniaturized system for on-site rapid monitoring.

265 The miniaturized system provides the fast quantification of

266 ere screened in sandwich immunoassays on the miniaturized system to detect the eventual presence of a

267 Lab-on-Chip are miniaturized systems able to perform biomolecular analys

268 thor at The 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (mu

269 al materials combinations, which makes these miniaturized systems very attractive for tissue engineer

270 ding of molecular transport processes within miniaturized systems.

271 on and demonstrate the utility of bird-borne miniaturized technology for evaluating the contamination

272 as performed in macaques, using an implanted miniaturized telemetry device.

273 Here we miniaturize the concept of affinity pulldown, a gold-sta

274 allic waveguide is exploited to dramatically miniaturize the device and improve the sensitivity of th

275 r sensing technologies due to the ability to miniaturize the required equipment, a critical advantage

276 The unique composite allowed us to miniaturize the sensor and couple it with a Pt electrode

277 has been used, this opens the possibility to miniaturize the sensor and developing a portable and eas

278 graphy approach serves as a facile method to miniaturize the test domain size to few mm(2), which sig

279 By miniaturizing the chambers and placing only one to sever

280 rease the Sur capture capacity for Sur while miniaturizing the sensor.

281 d on wireless, near-field power transfer and miniaturized, thin, flexible optoelectronic implants, fo

282 sensitivity and simplicity, we continued to miniaturize this assay to a microchip platform for the p

283 eamChip is prepared by delivering genes into miniaturized three-dimensional cellular microarrays on a

284 In parallel, the cardiac component was miniaturized to facilitate intravascular deployment into

285 al Positioning System and other sensors into miniaturized tracking tags has dramatically improved our

286 We developed custom miniaturized transducers and demonstrated that these tra

287 uch as photomechanical energy harvesting and miniaturized transport.

288 The core of the system is a consistently miniaturized two-dimensional liquid chromatography that

289 Miniaturized two-terminal field effect point sensors can

290 mm x 50 mm x 40 mm; L x W x D) containing 4 miniaturized UV-lamps (47mm x 6 mm x 47 mm each).

291 Over time, miniaturized veno-venous extracorporeal membrane oxygena

292 We used a miniaturized version of saccadic adaptation, an experime

293 e unique properties of each yields a simple, miniaturized, voltage-controlled oscillator suitable for

294 s are diverse and their realization to offer miniaturized waveguides, antennas and shielding patterns

295 high-sensitivity sensors are significant for miniaturized wearable physiological signal monitoring sy

296 -based potentiometric sensor, coupled with a miniaturized wearable wireless transceiver, for real-tim

297 To address this problem, we have developed a miniaturized whole blood aggregometry assay, based on a

298 eous wires connect to an externally mounted, miniaturized wireless potentiostat for data transmission

299 The stability and feasibility of the miniaturized working and reference electrodes integrated

300 y immobilize carbon nanotubes and enzymes on miniaturized working electrodes.