ライフサイエンスコーパス: low-cost

1 oved analytical performance, simplicity, and low cost.

2 ity chromosome scale assemblies feasible and low cost.

3 rocatalysts with high activity and, ideally, low cost.

4 ake high-performance fiber-shaped devices at low cost.

5 ith high spatial and temporal resolutions at low cost.

6 s for phylogenetic and allelic analysis at a low cost.

7 aline, temperature-controlled conditions, at low cost.

8 rom single individuals in a few weeks and at low cost.

9 version efficiency (PCE) greater than 30% at low cost.

10 ghput, simplicity, precise manipulation, and low cost.

11 ity, high sensitivity, high selectivity, and low cost.

12 egradability, diversity, high abundance, and low cost.

13 ed as they can be scalable, fast and present low cost.

14 e clinical workflow, and needs to operate at low cost.

15 capability, high gene detection ability and low cost.

16 ttracted attention due to its simplicity and low cost.

17 SWSP sensor as a smart, user-friendly, ultra-low-cost (~0.03 $ per sweat patch), portable, selective,

18 Here, we present a low-cost (~$120), open-source peristaltic pump construct

19 n vitro biosensing, including brightness(2), low cost(3) and selective manipulation of their emission

20 This method could be used to manufacture low-cost 3D printed models across other medical discipli

21 e systems with a narrow beam, low power, and low cost 405 nm laser perturbs the thermal equilibrium.

22 ed combination of complexity, small size and low cost(6,7), and could be readily appropriated for rob

23 atteries due to the high gravimetric energy, low cost, abundance, nontoxicity, and high sustainabilit

24 d CNS has the potential to be developed as a low-cost adsorbent for the removal of Pb(II) from contam

25 Custom-built, low-cost aerosol black carbon detectors (ABCDs) provided

26 cles (DMV) via utilization of a sustainable, low-cost, African American-centric organ donation educat

27 Marker validation by PCR and low-cost agarose gel electrophoresis revealed that 92.5%

28 Low-cost air quality sensors are promising supplements t

29 ith the greatest effect on heavy drinkers of low-cost alcohol products.

30 Low-cost all-perovskite tandems have a real chance to so

31 A safe low-cost alternative is provided by using broadly neutra

32 (MESe) are currently being investigated as a low-cost alternative method for in-line VFA measurement.

33 K-ion batteries that offer a sustainable and low-cost alternative to lithium (Li)-ion technology.

34 for the development of fast, easy-to-use and low-cost analytical methods for food adulteration analys

35 The low cost and accessibility of these powerful tools motiv

36 re new flexible sensor technologies that are low cost and built from sustainable and reusable or recy

37 polarization (PHIP) shows promise due to its low cost and fast speed of contrast agent preparation.

38 exploration of electrolytes satisfying both low cost and good performance, as well as the selection

39 evices for large-scale energy-storage due to low cost and high energy density.

40 The ease of use, low cost and quick operation of lateral flow assays (LFA

41 potential for high analytical frequency, the low cost and reagent-free nature of this method demonstr

42 or five genes in one attempt with relatively low costs and a minimal equipment setup.

43 luorimetric assays are valued for the rapid, low-cost and accurate detection of analytes in liquid ph

44 tations, quantitative approaches with rapid, low-cost and easy to handle advantages for three LHON mt

45 means for monitoring digestive health via a low-cost and easy to use imaging device based on compute

46 atalytic activity of bismuth considered as a low-cost and green electrode material was studied in red

47 Here, we present how a recently developed low-cost and handheld breath detector can serve as a non

48 absorbance detector has been developed using low-cost and high-performance LEDs, which can be operate

49 ide-modified WS(2) micromotors are used as a low-cost and high-throughput approach for the determinat

50 ation of ctDNA analysis, there is a need for low-cost and highly accurate methods that can be perform

51 rinted polymers (MIPs) emerged thanks to the low-cost and long-term stability features, where the cho

52 Hence, additional complementary, ideally low-cost and low-effort methods are required that enable

53 tibility-based protein detection scheme in a low-cost and miniaturized magnetic levitation setup cons

54 ctive point-of-care diagnosis tools, simple, low-cost and rapid sensors have the potential to greatly

55 er fat samples with easy, robust, effective, low-cost and reliable application in the quality control

56 Here, we report a simple, low-cost and sensitive electrochemical sensor using grap

57 essment of antimicrobial susceptibility in a low-cost and simple testing format.

58 ight, unobtrusive and reliable, leading to a low-cost and ubiquitous healthcare in the near future.

59 Use of STAR particles provides a simple, low-cost and well-tolerated method for increasing drug a

60 nd potential solutions toward the goals of a low-cost and/or high-energy-density future, are discusse

61 rmth (no cost), then conditionally grooming (low cost), and eventually providing coalitionary support

62 senting good accuracy, precision, relatively low cost, and acquittance to green chemistry principles.

63 many unique advantages, such as small size, low cost, and facile chemical modification.

64 ng to apparent benefits, such as high speed, low cost, and high throughput, the genotyping array has

65 siveness and lack of ionizing radiation, its low cost, and its good reproducibility, which is importa

66 s the system more user-friendly, potentially low-cost, and easy to assemble.

67 Our simple, low-cost, and efficient in vitro assay was used to scree

68 sional (19)F lineshape analysis is a robust, low-cost, and fast alternative to traditional heteronucl

69 icrofluidic chip was developed as a quicker, low-cost, and field-deployable alternative to detect ROR

70 ibes, in detail, the development of a novel, low-cost, and flexible drift tube (DT) along with an ass

71 ors (OECTs) show great promise for flexible, low-cost, and low-voltage sensors for aqueous solutions.

72 h inspirations on the development of simple, low-cost, and miniaturized photothermal diagnostic platf

73 A novel, low-cost, and portable paper strip biosensor was develop

74 Here, we present a simple, user-friendly, low-cost, and portable photonic system for in situ detec

75 er-based E-AB sensors could enable portable, low-cost, and rapid detection of a broad range of target

76 In search of a rapid, low-cost, and solution-phase detection technique for exp

77 limited by the lack of high-performance and low-cost anode hydrogen oxidation reaction catalysts.

78 hing a potential route to simple, synthetic, low-cost antivenoms.

79 Bioremediation is a low-cost approach for crude oil spill remediation, but i

80 A low-cost approach for enhancing mesophilic (37 degrees C

81 This work provides a scalable, simple, and low-cost approach for large-area BP films that meet indu

82 This simple and low-cost approach offers a promising path to engage the

83 Here, we adapted a rapid, low-cost approach to differentiate 10 domestic and 24 wi

84 mediated inactivation of microorganisms is a low-cost approach to disinfect drinking water and wastew

85 Owing to its simple and low-cost architecture, portability, and sensitivity, the

86 a dust mote (<1 mm), bringing efficient and low-cost artificial intelligence close to the end user a

87 ctures, given the ease of implementation and low costs associated with both the technique and the equ

88 nd could feasibly be applied at a relatively low cost at most landfills, where leachate aeration is a

89 Time efficiency, low-cost biomodel production, provision of unlimited pre

90 aging disease are driving the development of low-cost biosensing modalities, such as label-free photo

91 ew mass-scalable production routes which are low cost but preserve the high electronic and optical qu

92 Therefore, there is an urgent need for low-cost but reliable point-of-care diagnostics for earl

93 e substrates or nanocrystalline films yields low costs, but comparatively inferior crystallinity, car

94 ed by ultrasound-assisted extraction of this low-cost byproduct.

95 e three-dimensionally printed or extruded at low costs, can have high specific CO(2) sorption rates (

96 y quantifies the potential opportunities for low-cost carbon capture and storage (CCS) scenarios with

97 logues represent a highly promising class of low-cost catalysts for hydrogen evolution reaction (HER)

98 This work presents a small scale and low cost ceramic based microbial fuel cell, utilising hu

99 In this simple, fast, and low-cost chemosensing method, luminol acts as the recept

100 A one-step, highly-efficiency, and low-cost cold atmospheric pressure plasma (CAPP)-based m

101 However, to exploit these imaging devices as low-cost colorimetric detectors, it is paramount that th

102 unosensor for E. coli detection by modifying low cost commercial microelectrodes with an E. coli spec

103 An unmodified, low-cost commercial robotic pipetting platform was utili

104 We show that a few grams of low-cost, commercially available cation exchange resin c

105 edicare beneficiaries had disproportionately low costs compared with their clinical outcomes and whet

106 line datasets, connected devices, relatively low-cost computing resources and advances in machine lea

107 ospective, observational study we utilized a low-cost consumer grade wearable accelerometer (LCA) to

108 will enable flexible, rapid, and relatively low-cost CPL spectroscopy for diverse applications.

109 rate and high quality of water combined with low-cost deployment to provide a sustainable solar-drive

110 been developed to demonstrate application in low-cost detection of a foodborne pathogen, Giardia lamb

111 To overcome these, we propose a unique low cost device as a blood cell counting platform.

112 Rapid screening and low-cost diagnosis play a crucial role in choosing the c

113 ying to explore promising strategies towards low-cost DIBs with high performance.

114 R2R) processing, may fulfill requirements of low-cost disposable devices.

115 f these advantages, combined with the use of low-cost disposable vessels and instrumentation, make MI

116 ors for process monitoring applications, and low-cost, disposable biosensors.

117 er-based sensors can be exploited to develop low-cost, disposable, and rapid assays for the detection

118 MODS-PZA is presented as a fast, simple, and low-cost DST that could complement the MODS assay to eva

119 itated cascade testing is a straightforward, low-cost, easily implemented strategy with significant p

120 The low cost, easy sample preparation, fast response and hig

121 Low cost, easy to use cell viability tests are needed in

122 In conclusion, our study describes a rapid, low-cost, easy to-handle, and high-throughput TaqMan-MGB

123 microscopy, and toward the development of a low-cost, easy-to-use, and fast hematological analyzer a

124 t neosporosis, phenothiazinium dyes, offer a low cost-efficient approach to parasite control.

125 Exploring efficient and low-cost electrocatalysts for hydrogen evolution reactio

126 Developing efficient and low-cost electrocatalysts for the oxygen evolution react

127 ould be an excellent platform for simple and low-cost electrochemical biosensor applications.

128 We report here a low-cost electrochemical immunoarray with unprecedented

129 lium in alpha iron, a naturally abundant and low-cost element, dramatically enhances the ANE by a fac

130 Low-cost, environmentally friendly, effective seed treat

131 niform LAMP-BART droplets are generated with low cost equipment.

132 clusivity are not guaranteed to have durably low costs, especially where manufacturer competition is

133 eproducible data, was simple to fabricate at low cost, exhibited higher sensitivity than previously d

134 This work describes the low-cost fabrication of waterproof electronic decals (WP

135 MSSPE is simple, low cost, fast and deployable on either benchtop or port

136 h chemometric techniques, hence, providing a low-cost, fast and accurate diagnostic approach.

137 Low-cost flexible microwave circuits with compact size a

138 ide a guideline for use of MXenes as TCEs in low-cost flexible optoelectronic devices.

139 field, which could be suitable for designing low-cost, flexible microelectronic thermoelectric genera

140 ic acid diimide (PTCDI) as an affordable and low-cost fluorophore.

141 nufacturing of these integrated systems with low cost for IoT applications.

142 on-demand sensing diagnostics in simple and low-cost form factors, enabling rapid spatiotemporal ins

143 te analysis as a screening tool for fast and low-cost GDM detection.

144 ty of scale coupled with high throughput and low cost generation are suited to digital DNA quantifica

145 from cells to amplified libraries, providing low-cost genome-wide chromatin maps.

146 nding wave in the liquid sample, placed on a low-cost glass chip, we cause deformations in a thin liq

147 In this work, a low cost, green and renewable biomass resource is utilis

148 dence that vampire bats selectively escalate low-cost grooming before developing higher-cost food-sha

149 rigid structure and limited area scaling at low cost hamper their use in several emerging applicatio

150 According to these results, the new low-cost handheld NIR spectrometers can be used to monit

151 aluate the analytical performance of two new low-cost handheld NIR spectrometers for the determinatio

152 Finally, a low-cost, handheld POCT was developed to measure PT for

153 liability of the manufacturing processes and low cost have drawn ever increasing attention to fibre-b

154 s accuracy, reproducibility, portability and low cost, have attracted considerable attention.

155 substrates, offers an efficient, robust and low-cost heterogenous integration capability of large-si

156 The simplicity of these IDAs, coupled with low cost, high sensitivity, and ability to carry out hig

157 ng provides a useful platform because of its low cost, high throughput and intrinsic ability to perfo

158 olism and can be applied in the context of a low cost, high throughput, and multiplexed optical imagi

159 -air battery with the combined advantages of low costs, high energy efficiencies, abundant elements,

160 here provide a flexible tool for efficient, low-cost, high throughput interrogation of the P. falcip

161 ncing (TELL-seq) technology, which enables a low-cost, high-accuracy, and high-throughput short-read

162 The YSW is a low-cost, high-reward educational outreach event amenabl

163 ing RNA in situ and sequencing (PETRI-seq)-a low-cost, high-throughput prokaryotic scRNA-seq pipeline

164 levels are theoretically compatible with the low-cost, high-voltage chemistry of Zn/graphite batterie

165 ion with bioluminescent detection is a fast, low-cost, highly specific molecular diagnostic technique

166 The low-cost hydrogen production from water electrolysis is

167 polarization is a fast, highly scalable, and low-cost hyperpolarization technique.

168 A low-cost imaging platform for gene expression profiling

169 High-performance and low-cost indicators are needed, based on conformable mat

170 ion of perovskite solar cells (PSCs) using a low-cost industrial organic pigment quinacridone (QA) is

171 etric monitor (FANTOM) which is an automated low-cost instrument for measuring blood pressure and hem

172 is quick (analysis time <=15 min), requires low-cost instrumentation and sensor chips, and is also p

173 out among wireless sensing technologies when low cost is a requirement.

174 Here, we present a low-cost, label-free, and real-time on-chip cell countin

175 to modify a commercial fundus camera into a low-cost laser speckle contrast imaging (LSCI) system fo

176 Focusing on the widely used, low-cost lateral flow format as an exemplar, we achieve

177 Due to low cost, long-term stability, and good patient complian

178 Miniaturized spectrometers offering low cost, low reagent consumption, high throughput, sens

179 researchers are leveraging social media as a low-cost, low-burden method for measuring various psycho

180 This single low-cost, low-intensity intervention was successful in s

181 This simple, small footprint, and low-cost (<$130) light detection circuit will be benefic

182 ry as a sensitive measure in fully automated low-cost magnetic-resonance devices at the point of care

183 array can be fabricated reproducibly and at low cost, making it an attractive platform for ambient g

184 These wearable devices require low-cost manufacturing, high reliability, multifunctiona

185 The CD-CuMOF is a low-cost material with higher stability than enzyme and

186 atile tool for analytical science, while its low cost means it is ideally suited for use in resource-

187 -IR) was utilized, with simple analyzers and low-cost measurement instruments for the acquisition of

188 A low-cost metallic nanostructure-based surface plasmon re

189 Our aim was to develop a simple, low-cost method of preparing DNA for sequencing direct f

190 A simple, rapid, low-cost method was proposed for the imaging of Pseudomo

191 Rapid, low-cost methods are needed for extensive routine authen

192 de faster than state-of-the-art epitaxy with low-cost methods without compromising crystalline or ele

193 In this work, we present a low-cost microfluidic biosensor platform for the electro

194 A low-cost microfluidic microarray capable of lysing cells

195 environmental investigations because of its low cost, minimal sample preparation, non-destructive na

196 phone-based fundus imaging (SBFI) allows for low-cost mobile fundus examination using an adapter on a

197 o design stable, eco-friendly, scalable, and low-cost MOFs for diverse applications, including drug d

198 Accurate, rapid, and low-cost molecular diagnostics is essential in managing

199 PMMA) well-containing holders resulting in a low cost multichambered chip.

200 Here, we improve DropSynth, a low-cost, multiplexed method that builds gene libraries

201 ness the potential of secondary forests as a low-cost, nature-based tool for mitigating climate chang

202 The result is a rapid start-up, low-cost (no membrane or platinum catalyst), and high vo

203 treatments, including short reaction times, low cost, no requirement for specialized equipment, and

204 Low-cost non-invasive diagnostic tools for staging the p

205 detect patients with fibromyalgia in a fast, low-cost, non-destructive and minimally invasive fashion

206 inical efficacy and generalizability of this low-cost noninvasive approach to rehospitalization mitig

207 Low-cost, noninvasive cognitive measures can be informat

208 ries on account of their resource abundance, low cost, nontoxicity, and diverse electrochemistry.

209 st because of the high natural abundance and low cost of Na resources, as well as electrochemical sim

210 Combining the low cost of PMMA manufacture and flexible designs of TAD

211 The scalability and low cost of this method and its compatibility with roll-

212 e complete polarimeter may be assembled from low cost off-the-shelf parts for less than pound 300 (UK

213 c biosensor could pave the way for rapid and low-cost on-site miRNA diagnostics.

214 health and biodiversity risks ask for fast, low cost, on-site sensing technologies for food and wate

215 ve promising performance characteristics for low-cost optoelectronic applications.

216 reen Deeplex Myc-TB, for use on the compact, low-cost Oxford Nanopore Technologies MinION sequencer.

217 ens generate spatially dense data sets using low-cost passive samplers for nitrogen dioxide (NO(2)),

218 ray-coating to fabricate high efficiency and low-cost perovskite solar cells at speed.

219 This work identifies new low-cost pharmacological antagonists for AQP1 available

220 They served as non-toxic and low cost photocatalyst.

221 To address these issues, we have developed a low-cost photothermal biosensing method for the quantita

222 ar cells, as an emerging high-efficiency and low-cost photovoltaic technology(1-6), face obstacles on

223 This low cost platform has been conceived for performing test

224 urement and actuation hardware into a single low-cost platform, Chi.Bio facilitates novel experimenta

225 nosis, improving the capabilities of current low-cost, point-of-care diagnostic tests.

226 his assay has the potential to enable rapid, low-cost, point-of-care screening for SARS-CoV-2.

227 Because of the low cost, portability, and instrument-free nature of the

228 user-friendly ATP biosensor characterized by low-cost, portability, and adequate sensitivity would be

229 It is thus a rapid, low cost portable test suitable for point-of-need detect

230 on genetics field training program that uses low-cost, portable devices to conduct genomics-based tra

231 onditions, there is a rising need for rapid, low-cost, portable testing of blood coagulation time or

232 A need therefore exists for more rapid, low-cost, portable tools for multiplexed determination o

233 ed in 3 min in a noncontact, nondestructive, low-cost, portable, and easy-to-use way.

234 industry such as drug coatings due to their low cost, processability and ease of functionalisation.

235 Fast, mass, and low-cost production of high-quality graphene, which is a

236 ir superior chemical and physical stability, low-cost production, high selectivity and rapid response

237 certain, this trial provides evidence that a low-cost program using CHWs to deliver an education and

238 Low-cost PT sensors were fully printed using an aerosol

239 EOTRs as a promising new technique for fast, low-cost, quantitative and sequence-specific detection o

240 Our surrogate eye model is low-cost, quick and easy to reproduce.

241 This low-cost, rapid, and non-invasive color analysis approac

242 the increasing cost gives impetus to exploit low-cost rechargeable battery systems.

243 se of carbon-based nanoparticles produced by low-cost renewable routes that are bioavailable to matur

244 Despite modest sensitivity, low-cost, repeat screening of the entire population coul

245 of the most promising candidates to meet the low-cost requirements of commercial applications, becaus

246 ail protocols to perform high-throughput and low-cost RNA extraction and sequencing, as well as downs

247 n and holds promise as an efficient test for low-cost rollout to clinics.

248 ure organic, large-scale, color tunable, and low-cost room-temperature OLPL applications become possi

249 Low-cost Sb(2)Se(3) can thus be an attractive breakthrou

250 cer outcomes, with applications ranging from low-cost screening with smartphone-based probes to algor

251 ovides opportunities to develop powerful and low-cost selection and analysis tools, capable of proces

252 ownweighting strategy to optimize the use of low-cost sensor data in PM(2.5) estimation.

253 , manufactured and validated to perform as a low-cost sensor for compositional analysis of buffered a

254 The result in this work assures a portable low-cost sensor for onsite monitoring of fish freshness

255 ver, little has been done to incorporate the low-cost sensor measurements in large-scale PM(2.5) expo

256 The promising fast and low-cost sensor might be used successfully for proteins

257 ne how, where, by whom, and for what purpose low-cost sensor networks are used.

258 we identify a general structure for building low-cost sensor networks by assembling technical compone

259 We specifically focus on water-related low-cost sensor networks, and conceptualize them as soci

260 In California, PurpleAir low-cost sensors were paired with air quality system (AQ

261 all error rate is to combine long reads with low-cost short-read data, which currently have an error

262 With the introduction of generic, low-cost sofosbuvir and daclatasvir, large-scale studies

263 nterest over the last few years due to their low-cost solution processability, high power conversion

264 nanomedicine development as a high value and low-cost solution to answer unmet medical needs and help

265 This analysis provides a low-cost, specific, versatile, and user-friendly strateg

266 (.)OH generation by electron transfer from a low-cost stainless steel cathode.

267 uptaken by plants and remotely detected in a low-cost stand-off detection setup.

268 electrode (GFE) are developed by a one-step, low-cost, straightforward, and mass-producible method, a

269 iciency; thus providing a time-efficient and low-cost strategy for quantitative and qualitative asses

270 ey offer unparalleled advantages in terms of low cost, superior activity, and high stability.

271 iverse protein-variant pools from only a few low-cost synthesis reactions.

272 , the current system provides a reliable and low-cost technique for quantifying the SBA concentration

273 Here, we present a simple, low-cost technique, termed electrochemical lipolysis (EC

274 lop filter materials that can be produced by low-cost technologies and are suitable in large-scale pr

275 developed in response to the recent rise of low-cost technologies.

276 trochemical detection, high sensitivity, and low-cost) technologies.

277 otential role as a minimally-invasive, ultra-low-cost technology for reducing and contouring adipose

278 would prevent 96% of infections and require low-cost tests to be economically attractive.

279 iduals and groups to indicate, at relatively low cost, that a predator's further approach is futile.

280 M. tuberculosis genomes was facilitated by a low-cost thermo-protection buffer.

281 Here, we present a new concept for a low-cost, three-dimensionally printed device that enable

282 dramatically increases in sample numbers at low cost, thus potentially enabling the development of m

283 trate a simple and novel method to fabricate low-cost THz microstructured fibers.

284 The low-cost 'THz Torch' technology, which exploits the ther

285 The low-cost 'THz Torch' wireless link technology is still i

286 We demonstrate how, at low cost, to reconfigure a typical patch-clamp rig for E

287 s these barriers, we have developed a novel, low-cost tool called the Callascope to reimagine the gyn

288 Taken together, our work highlights how low-cost tools can automatically quantify behavior in na

289 Three "low-cost" tools to evaluate DD-a clinical DD score, the

290 ute peritoneal dialysis (PD) is an important low-cost treatment option.

291 Frequent, low-cost, universal testing for severe acute respiratory

292 implementation to achieve high scalability, low cost, user-friendliness and integrated support for a

293 ll-in-one paper chip can provide a portable, low-cost, user-friendly, sensitive, and specific NAT pla

294 ontrol this global health issue, however new low-cost vaccines are needed to ensure proper vaccine co

295 n be promising for the development of simple low-cost water quality monitoring system for monitoring

296 e wrists and could readily be delivered by a low-cost wearable device.

297 intensity that can be produced by a compact, low-cost, wearable device.

298 The sequential BET is a low cost, well-performing DD screening tool, appropriate

299 , sensitivity, specificity, operability, and low cost, which make it highly promising for on-site pat

300 g and drawing, because they are easy to use, low-cost, widely accessible, and disposable.