ライフサイエンスコーパス: low-cost

1 flexible energy storage devices at extremely low cost.

2 physical strength, CAD/CAM fabrication, and low cost.

3 nology due to its simplicity and potentially low cost.

4 nalysis, adequate sensitivity and relatively low cost.

5 ty of applications, including biomedical, at low cost.

6 r densities, long-term stability, safety and low cost.

7 ially offer high-energy density, safety, and low cost.

8 ale energy storage applications owing to the low cost.

9 e of their potential high energy density and low cost.

10 nterest owing to its high energy density and low cost.

11 onic antigen, exhibiting a simple, rapid and low-cost.

12 ations, defined as guideline-recommended and low-cost.

13 ic range, high linearity, fast operation and low-cost.

14 diagnostics because of their simplicity and low-cost.

15 The low cost (0.049 $g(-1)), high yield (20.26%) and high pe

16 The assay was subsequently adapted onto a low-cost 3D-printed isothermal device with real-time ana

17 or microtube, which is then inserted into a low-cost 3D-printed sample holder attached to the phone.

18 of magnetic nanoparticle (MNP) chains and a low-cost 405nm laser-based optomagnetic system.

19 Along with its extremely low cost (about 3 cent per gram), simplicity of fabricat

20 ing alternative to clean rooms: they provide low-cost access to fabrication equipment such as laser c

21 tool for HMF determination in honey, using a low cost acoustic wave sensor.

22 w that truck transportation is generally the low-cost alternative given the relatively small volumes

23 Here, we describe development of a low-cost alternative therapy based on intratumoral ethan

24 uidic diagnostics first emerged in 2007 as a low-cost alternative to conventional laboratory testing,

25 (SPOTs), provides an accurate, flexible, and low-cost alternative to sequencing for profiling transcr

26 er nanoparticles (CuNPs) are attractive as a low-cost alternative to their gold and silver analogues

27 One of the most widely used low cost alternatives is MeDIP-Seq.

28 components on standard SMLM with appropriate low-cost alternatives and build a simple but high-perfor

29 vitalized, as NIBs are considered promising, low-cost alternatives to the current Li-ion battery tech

30 tions were more likely to be prescribed than low-cost alternatives.

31 s are used to demonstrate a proof-of-concept low-cost, amplifier-free, light-emitting-diode-based low

32 increasing demand for rapid, sensitive, and low cost analytical methods to routinely screen antibiot

33 VD (and symptomatic horseshoe tears) offer a low cost and a favorable cost-utility (low $/QALY) as a

34 biosensor chip that can be mass-produced at low cost and can be used not only by food manufacturers

35 tics with its minimizing size, light weight, low cost and data transmission function.

36 methods to fabricate ZnO nanomaterials with low cost and energy consumption.

37 udies has grown in recent years due to their low cost and environmental friendliness compared to trad

38 With its light weight, low cost and high efficiency even at low operation frequ

39 on strategies combining green chemistry with low cost and high efficiency remain highly desirable.

40 ssess several favorable attributes including low cost and high energy density for grid energy storage

41 SnO2 -based lithium-ion batteries have low cost and high energy density, but their capacity fad

42 This fast, low cost and highly sensitive CPX specific MIP nanoparti

43 Taken together, the low cost and modular nature as well as fully open design

44 being particularly attractive owing to their low cost and non-toxicity.

45 cale reaction volumes, and the potential for low cost and portability.

46 In this work, a low cost and portable analyzer with good accuracy is dev

47 em, what is important for the development of low cost and portable immunosensors.

48 single CpG methylation status at relatively low cost and sample input.

49 tructures of tumors in vitro with relatively low cost and simple protocols.

50 A simple, low cost and user-friendly method for the fabrication of

51 the near future due to increasing demand of low-cost and disposable biosensors.

52 Most importantly, these sensors offer low-cost and disposable detection platforms for real-wor

53 structure-independent approach that provides low-cost and effective protection of DNA nanostructures

54 Cu2ZnSnS4 (CZTS), have recently arisen as a low-cost and environment-friendly material for photovolt

55 tensive research has been pursued to develop low-cost and high-performance functional inorganic-organ

56 With the recent proliferation in low-cost and high-resolution cameras, camera-based spect

57 pment of an ultrasensitive biosensor for the low-cost and on-site detection of pathogenic DNA could t

58 The low-cost and portability of the sensor device, along wit

59 Rapid, low-cost and portable solution is in highly demand for p

60 he optical toolbox described here is simple, low-cost and portable, and can be used in a variety of h

61 rinting technology has recently emerged as a low-cost and practical method for fabrication of flexibl

62 g nanoimprint method, to meet the demand for low-cost and rapid fabrication.

63 In this study, we report a low-cost and salt-tolerant superoleophobic aerogel for e

64 reel process, which is strongly required for low-cost and scalable manufacturing technology.

65 efficient solar steam generation device for low-cost and scalable solar steam generation application

66 The thin film is fabricated by a low-cost and scalable spin coating process using ink sol

67 e and effective platforms in order to obtain low-cost and sensitive sensors for neonicotinoids detect

68 Low-cost and simple methods to test water supplies onsit

69 ventional automation infrastructure that are low-cost and user-friendly.

70 By harnessing such low-cost and versatile deuterated substrates, Raman-DIP

71 diagnostics have met requirements for speed, low cost, and ease of use for POC applications.

72 erties such as high surface to volume ratio, low cost, and easy preparation/handling.

73 , high efficiency, excellent flexibility and low cost, and it will open practical applications in voi

74 r rigid plastic devices with low complexity, low cost, and no moving parts on the device or instrumen

75 otocol can be used to develop of disposable, low cost, and portable various types of dehydrogenase ba

76 eneous assays are characterized by rapidity, low cost, and simple workflows.

77 yst components are commercially available at low cost, and the arylboronic esters are either commerci

78 n by the mouse's convenient size, relatively low cost, and, above all, amenability to genetic perturb

79 e, a high sampling and retention efficiency, low costs, and applicability for diverse downstream micr

80 ompounds, or alloys by a one-step, scalable, low-cost, and eco-friendly process.

81 work, we introduce two simple, reproducible, low-cost, and efficient surface modification methods for

82 ay for developing a new generation of rapid, low-cost, and field-deployable molecular diagnostic tool

83 In this study, a simple, low-cost, and highly sensitive electrochemical cytosenso

84 process is developed to fabricate efficient, low-cost, and stable perovskite solar cells (PVSCs).

85 neutral NaCl supporting electrolytes using a low-cost anion-exchange membrane.

86 A new, low-cost approach based on the application of atmospheri

87 miniature, directional, broadband, passive, low-cost approach to detect airflow with full fidelity o

88 ght (1.1kg), small (33x20x8cm) and extremely low-cost (approx. EUR 250).

89 biosensors, which are easy to use and are of low cost, are becoming even more necessary.

90 We have developed a convenient, low cost assay utilising the nematode Caenorhabditis ele

91 Novel and low-cost batteries are of considerable interest for appl

92 in the group; (ii) they incurred relatively low costs because of their high dominance rank and super

93 ese disintegrable semiconducting polymers in low-cost, biocompatible, and ultralightweight transient

94 erve as an easily acquired, noninvasive, and low-cost biomarker for self-control ability.

95 ous, compact, reliable, high-sensitivity and low-cost biomolecular sensors.

96 he integration of flow control elements into low-cost biosensors presents a significant engineering c

97 sulfhydryl sites represents a promising and low cost biosorbent for the effective removal and recove

98 iscrimination capacities with high speed and low cost, but rigorous discrimination between synaptic a

99 s, immunity to electromagnetic interference, low cost, capability of online monitoring, remote sensin

100 rm the design of 'Drought-Net', a relatively low-cost CDE that simulates extreme precipitation years.

101 This research opens a door for developing low-cost CDots as alternative phosphors for light-emitti

102 ibuted by existing initiatives and include a low-cost ceramic model, two forced-draft cookstoves (FDC

103 paper describes the development of a simple, low cost chronoamperometric assay, for the measurement o

104 target features can be produced with even a low-cost compliant sensor.

105 ghly sensitive and that can be combined with low-cost consumables.

106 ars in response to selection for repetitive, low-cost contractile behavior.

107 f lead (Pb) in surface water samples using a low-cost copper (Cu)-based electrochemical sensor.

108 Here we report a low-cost decarboxylative iodination that occurs simply f

109 hemical biosensor for on-step, sensitive and low cost detection of beta-lactoglobulin (beta-LG) milk

110 e demonstrate a fully flexible, scalable and low-cost detection platform to sense multiple protein ta

111 s for an accurate, reliable, field-portable, low-cost device for practical applications.

112 To enable low cost diagnostic solutions, we recently established a

113 A sensitive, low-cost diagnostic assay capable of rapidly evaluating

114 chemical input, and offers the prospect for low-cost direct air capture technologies.

115 -separation method, using 3D electrodes on a low-cost disposable chip; one cell type is allowed to pa

116 d luminescence spectroelectrochemistry using low-cost disposable electrodes is reported.

117 us monitoring of ATP, with an integrated and low-cost disposable microfluidic chamber for handling of

118 iques, paving the way towards mass-produced, low-cost, disposable, multi-parametric chemical sensing

119 e because their detection is compatible with low-cost disposables and because application of a magnet

120 se paper is an ideal diagnostic platform for low-cost, easily disposable and lightweight implementati

121 ains the first line investigation due to its low cost, easy availability, time effectiveness and comp

122 Recently, the low-cost effective biosensing systems based on advanced

123 ed clinical trial of DAA use for PEP and the low cost-effectiveness of such an intervention is not su

124 Rational design of high efficient and low cost electrocatalysts for oxygen evolution reaction

125 Exploring efficient and low-cost electrocatalysts for the oxygen-reduction react

126 he design and fabrication of a versatile and low-cost electrochemical-scanning probe microscope (EC-S

127 Our copper-based sensor features a low-cost electrode material-copper-that offers simple fa

128 use of mass-produced stainless-steel pins as low-cost electrodes to develop simple and portable amper

129 Therefore, we developed a low-cost electronic system to standardise the mechanical

130 (ZnO) nanowires were synthesized by simple, low cost electrospinning technique.

131 of 617 mAh g(-1), making them attractive for low-cost, energy-dense batteries.

132 Low-cost, environment-friendly aqueous Zn batteries have

133 lower than 30s, using a global available and low cost equipment.

134 e used in access networks enables the use of low-cost equipment but diminishes the bandwidth availabl

135 he results from these studies using portable low-cost equipment, focusing on the robustness of using

136 lutions are needed to ensure availability of low-cost, essential generic antibiotics.

137 t this technique may provide a new avenue in low cost fabrication of thin-film solar-cells.

138 l muscles opens the door to rapid design and low-cost fabrication of actuation systems for numerous a

139 ork, we demonstrate a simple, sensitive, and low-cost fabrication of electrochemical LOC microfluidic

140 t-Burman and response surface methodology, a low cost fermentation media was obtained to produce 6.07

141 fit from convenient sources of well defined, low cost, food-grade maltooligosaccharides (MOS).

142 ecies identification due to its rapidity and low costs for consumables compared to those of tradition

143 We demonstrate how simple, robust, low-cost frugal plasma devices can be used to safely dis

144 for transcriptome expression (PLATE-Seq), a low-cost, genome-wide mRNA profiling methodology specifi

145 .6 Vettore earthquake (Central Italy), using low-cost Global Navigation Satellite System (GNSS) recei

146 We demonstrate that low-cost GNSS is an accurate monitoring tool when instal

147 dside, easy transportability, and relatively low cost have encouraged physicians to use these devices

148 in high-performance terahertz(THz) that are low-cost, have low dielectric loss and near-dispersionle

149 potential application of TPE HTL material in low-cost high-performance tin-based perovskite solar cel

150 ty cathodes for sodium-ion batteries (SIBs), low-cost, high capacity Na(Li1/3 Mn2/3 )O2 is discovered

151 (I1-x Br x )3, represent good candidates for low-cost, high efficiency photovoltaic, and light-emitti

152 ture was prepared and used as a binder-free, low-cost, high-performance anode for lithium ion batteri

153 nce systems; procurement and distribution of low-cost, high-quality antifungal medicines; and concomi

154 IH LINCS Consortium, made possible by a new, low-cost, high-throughput reduced representation express

155 s novel nano-fabrication approach promises a low-cost, high-throughput, and reproducible manufacturin

156 ages like fast response time (<15s), simple, low cost, highly selective along with abilities towards

157 Design and synthesis of low-cost, highly stable, electroactive and biocompatible

158 technique to seven human samples, generating low-cost HiSeq X data, then assembled these using a new

159 Using standard, low-cost household consumables, programming pipetting ro

160 High-quality, simplified, and low-cost human immunodeficiency virus (HIV) drug resista

161 The development of low-cost hybrid water splitting-biosynthetic systems tha

162 bits the advantages of compact dimension and low-cost implementation in engineering the bidirectional

163 It is anticipated that low-cost ink based holographic phase-conjugate nanostruc

164 t and thin phase-conjugate nanostructures on low-cost ink coated glass substrates through a facile an

165 raphite and other layered materials provides low-cost inks enabling printed electronic devices, for e

166 Such batteries have the merit of low cost, innate safety, and environmental friendliness.

167 Two low-cost interventions-low-dose oral misoprostol tablets

168 ucer that is functionalized with heparin for low-cost, label-free, ultra-sensitive, and rapid detecti

169 anic films are a facile route to high-speed, low cost, large-area deposition of electrically function

170 ound-Drever-Hall system that can stabilize a low-cost laser to realize a compact inexpensive light so

171 perform DNA extraction and enrichment into a low cost lateral flow-based test.

172 Thus, our results could pave way to produce low- cost light source with high luminance, using TADF m

173 rk aims at developing a highly sensitive and low-cost light emitting diode (LED)-based epifluorescenc

174 e (POC) specific protein detection, being of low cost, light weight and small form factor.

175 aterials offer the possibility of developing low-cost lighting and displays.

176 tant and growing area of research due to the low cost, low toxicity, and exceptional synthetic versat

177 with "no-regrets" options-or zones that are low-cost, low-environmental impact, and highly accessibl

178 rd arm (HR), which included a barrier, and a low-cost, low-reward arm (LR), with no barrier.

179 The observed voltage, capacity, and its low cost make it competitive in large-scale electricity

180 application in monitoring HA in a simple and low cost manner.

181 Here, a low-cost manufacturing approach for bioresorbable conduc

182 a simple fabrication procedure suitable for low cost mass production.

183 The current work opens up opportunities for low-cost mass production of three-dimensional memristor

184 ce of easy assembly based on cotton threads, low cost materials and measurements by microflow injecti

185 Microfluidic devices constructed using low cost materials presents as alternative for conventio

186 e hyPAD is simple to construct and uses only low-cost materials.

187 ated via a facile and continuous method with low-cost materials.

188 uidic devices or microchambers as simple and low-cost means of maintaining bladder cancer cells over

189 population screening tool, the reliable and low-cost measurement techniques are proposed.

190 Then, this fast, simple and low-cost method can be employed for speciation purposes.

191 Here, we demonstrate a straightforward and low-cost method for creating true diploid de novo assemb

192 Here, we describe a highly parallel, low-cost method for measuring the average rate and subst

193 A convenient low-cost method for regioselective ring-opening of donor

194 digital scanned light-sheet microscopy) as a low-cost method intended to automatically generate in-fo

195 A simple, low-cost method of creating such roughness has emerged w

196 We demonstrate a low-cost method of DNA extraction directly from patient

197 trol in a short time using a fast, reliable, low-cost method with little equipment complexity.

198 ssical methods into a simple, efficient, and low-cost methodology.

199 ectronic eye prototypes represent simple and low-cost methods as well as flexible optimization parame

200 Efficient and low-cost methods of removing aqueous Mn(II) are required

201 For this purpose, a robust and low cost microfluidic platform was fabricated for achiev

202 s in order to generate simple, versatile and low-cost microfluidic devices.

203 The advantageous attributes such as low-cost, miniaturization, energy efficient, easy fabric

204 or chip was then integrated with a lab-built low-cost miniaturized printed circuit board (PCB) to pro

205 rs, affording freely available high-quality, low-cost molecular weight standards for molecular biolog

206 including solar and wind, require scalable, low-cost, multi-hour energy storage solutions in order t

207 a transparent substrate, fabricated by using low-cost nanoimprint lithography over a large area, lead

208 Furthermore, the self-contained and low-cost nature of the separator device means that it ha

209 a simple immobilization procedure based on a low cost non-functionalized DNA sequence.

210 The disposable, efficient, sensitive and low-cost non-enzymatic PAD has great potential for the d

211 Advantages of big data can include ease and low cost of collection, ability to approach prospectivel

212 ment arm (low availability of HCV(+) organs, low cost of DAA treatment, high cost of HCV recurrence)

213 mplicity of the instrumentation used and the low cost of each single device (about $0.04), together w

214 e into a form that can exploit the speed and low cost of modern high-throughput DNA sequencing.

215 on batteries (LIBs) due to the abundance and low cost of potassium.

216 plicity of instrumentation, portability, and low cost of the total system.

217 ed much attention due to the portability and low cost of this novel sequencing instrument.

218 icipate that due to its high performance and low cost Openspritzer will be of interest to a broad ran

219 pt is generic in that it offers a viable and low cost option for the use of very strong acids and the

220 advantages of sensitivity, specificity, and low cost, our system provides a new horizon for developm

221 p pen plotter integrated with a custom-made, low-cost paper feeder.

222 Methods to optimize the low-cost parahydrogen-based approach signal amplificatio

223 A rapid and low cost photoluminescence (PL) immunosensor for the det

224 gn of better processes for kef recycling and low cost photovoltaics.

225 results validated a rapid, reproducible, and low-cost platform for assessing drug responses in patien

226 Here, we present Seq-Well, a portable, low-cost platform for massively parallel single-cell RNA

227 +) T cell-immunosensor provides a simple and low-cost platform which can fulfill the requirement for

228 omatically from digital images acquired by a low-cost platform.

229 Development of a low-cost point-of-need assay could be transformative to

230 y technology provide an elegant solution for low-cost, point-of-care (POC) devices and lab-on-a-chip

231 is systems, we optimized the production of a low-cost polymer based microarray and tested its analyti

232 We developed a low-cost portable BMI for survivors of cervical spinal c

233 Our second advance: the development of a low cost, portable red cell analyzer to measure these pa

234 It weighs just 1 pound, can be fabricated at low cost, portable, and can transfer test results via mo

235 interest and is a promising tool for simple, low-cost, portable and easy-to-use biosensors.

236 ts are very promising for the development of low-cost, portable and miniaturized electrochemical syst

237 reaction with its associated detection in a low-cost, portable, and autonomous device remains challe

238 Low-cost possibilities exist for prevention of hearing l

239 cesses, while titanium alloys produced using low-cost powder metallurgy methods consistently result i

240 ), long-term performance (10(7) cycles), and low cost price.

241 Here we present a low-cost process that employs 3D printing of aqueous dro

242 rability with long-term comfortableness, and low-cost production for scalable manufacturing.

243 d as an alternative manufacturing method for low-cost production of electrodes.

244 Ms1, a gene proposed for use in large-scale, low-cost production of male-sterile (ms) female lines ne

245 ased processes allow for the large-scale and low-cost production of nanoelectronics on rigid or mecha

246 esis technique that leads to large-scale and low-cost production of Si nanosheets (SiNSs) with thickn

247 lecules are well suited for development into low-cost prophylactic drugs, due to their relatively eas

248 rom the collective good or can produce it at low costs provide it to others as a byproduct.

249 onics, and inkjet printing to build an ultra-low-cost, rapid, and miniaturized lab-on-a-chip (LOC) pl

250 tial to address these limitations due to its low-cost, rapid, and simple features, but the poor analy

251 ere we describe the development of a simple, low-cost, rapid, equipment- and electricity-free paper-b

252 etter entrapment efficiency, scalability and low- cost raw materials, however, suffer from limitation

253 To address this need we present BiliSpec, a low-cost reader and disposable lateral flow card designe

254 d high-throughput fabrication techniques and low-cost recording media.

255 this paper, we demonstrate the working of a low cost, robust, and field portable smartphone platform

256 This simple, low-cost, robust method was used to produce polyacrylami

257 this reaction include the use of metal-free, low-cost Rose Bengal catalyst and practical operation (a

258 We prove a facile, green, low-cost route for the assembly of ethanol-sensing devic

259 a promising candidate for high-performance, low-cost, safe, and environment-friendly energy-storage

260 overcome the enzymatic drawbacks, combining low cost scalable materials with superior stability.

261 ethod here proposed is a fast, reliable, and low-cost screening technique.

262 proach takes advantage of simple, versatile, low-cost screening tools that can be applied to several

263 ed calcium aluminate was synthesized via the low-cost self-propagating combustion synthesis (SPCS) te

264 hat the copoly(DMA-NAS-MAPS) microarray is a low-cost, self-producible alternative to the commercial

265 for the production and commercialization of low cost sensors.

266 y encouraging for the further development of low-cost, Si wafer-based IREs for electrochemical ATR-SE

267 fects, indicating promise for application in low-cost silicon thin film solar cells.

268 We used 72 low-cost silicone wristbands as noninvasive passive samp

269 In this study, we developed a low-cost, simple and easy-to-use method to improve analy

270 be used as a one-step, portable, disposable, low-cost, simple, instrument-free and point-of-care devi

271 logical experiments, we demonstrate that our low-cost SMLM setup can yield similar localization preci

272 These devices provide a novel, low cost solution for high performance stretchable elect

273 d visible, to the near-infrared region, with low-cost solution processability and good photon yield.

274 devices, and in particular memories based on low-cost, solution-processable and chemically tunable or

275 electronics thrives on the hope of enabling low-cost, solution-processed electronic devices with mec

276 et al. argue that it is feasible to provide "low-cost solutions to the grid reliability problem with

277 rking electrode (WE) and metal wires (from a low-cost standard electronic connection) for reference (

278 the development of simple, sustainable, and low-cost strategies for signal enhancement on paper-base

279 rring planar materials to flexible, thin, or low-cost substrates poses a significant challenge.

280 study offers design insights for developing low-cost surface microfluidic mixing devices on open sub

281 ty without chromatography and manufacture of low-cost synthetic lung surfactant that works in an anim

282 , are leading candidates for high efficiency low cost tandem photovoltaics, in part because they have

283 Ion mobility spectrometry is a powerful and low-cost technique for the identification of chemical wa

284 ion processing of graphene allows simple and low-cost techniques such as inkjet printing to be used f

285 Although requirements are simple, low-cost technology is an attractive research target in

286 path to an ultracompact, highest-speed, and low-cost technology that might find many applications in

287 Using a 3D printing low-cost technology we fabricated the smartphone-based d

288 Given its relatively low cost, this intervention may be a cost-effective tool

289 tructural engineering approach for producing low-cost titanium alloys with exceptional fatigue streng

290 his paper are a breakthrough in the field of low-cost titanium processing.

291 aution any visions of a rapid, reliable, and low-cost transition to entire energy systems that relies

292 pushing the frontiers of POC devices toward low-cost, user-friendly, and enhanced sensitivity molecu

293 thin film transistors (TFTs) with a simple, low-cost UV-ozone (UVO)-treated polymeric gate dielectri

294 e demonstrate an easy operating one-step and low-cost way to synthesize egg-derived heteroatoms-doped

295 ast cell quantification to achieve rapid and low-cost WBC analysis at the point-of-care under resourc

296 nt women, and its worldwide availability and low cost, we suggest that CQ could be considered for the

297 This low-cost wearable device is amenable to facilitating hea

298 t and versatile methodology, which also uses low-cost, "wet" reagents, is scalable and done at ambien

299 hat can both paradoxically shift effort from low-cost workers to much costlier professionals and allo

300 a compact microscope is used to demonstrate low-cost zeta potentiometry that allows measurement of b