ライフサイエンスコーパス: biosensor

1 ntent was estimated by using a laccase based biosensor.

2 DNA probe were performed on the lateral flow biosensor.

3 e, monolithic, two-electrode electrochemical biosensor.

4 orm the Co-salophen-IL/ERGO/SPE nonenzymatic biosensor.

5 bilized on the test zone of the lateral flow biosensor.

6 ctively bind HSA, serve as receptors in this biosensor.

7 he sensitivity of an aerolysin-based genetic biosensor.

8 er utilized to develop an amperometric CXCL5 biosensor.

9 ed and correlated using this biohybrid based biosensor.

10 eptide-based surface plasmon resonance (SPR) biosensor.

11 working as the biorecognition element of the biosensor.

12 mproved the sensitivity and stability of the biosensor.

13 anostructured metal oxide (NMO) based cancer biosensor.

14 double layer gated high field AlGaN/GaN HEMT biosensor.

15 erent types of applications, particularly in biosensors.

16 de in applying nanomaterials to design novel biosensors.

17 rable attention in developing high-sensitive biosensors.

18 used for developing compact high-sensitivity biosensors.

19 the same cellular localization by using FRET biosensors.

20 biosensors, specifically nanomaterials based biosensors.

21 lopment of controlled treatment and improved biosensors.

22 a functional coating for label-free optical biosensors.

23 characteristics can be revealed by these new biosensors.

24 performance in comparison with current HER2 biosensors.

25 ners, and may facilitate the design of novel biosensors.

26 events based on the development of specific biosensors.

27 f highly sensitive molecular electrochemical biosensors.

28 ics, metamaterials, flexible electronics and biosensors.

29 on TRIO function, we utilized two FRET-based biosensors: a Rac1 biosensor to study mutations in TRIO

30 able for the realization of smartphone-based biosensors able to non-invasively detect a large variety

31 nt alleles disrupted hp53 foci and inhibited biosensor activity, suggesting that these properties are

32 A protein kinase A (PKA) biosensor allowed us to resolve minute PKA activity micr

33 gration of the novel aptamer in the graphene biosensor allows a promising way for cost-effective, rap

34 Hence, this novel biosensor allows assessing serum antibody levels in real

35 A new wave of portable biosensors allows frequent measurement of health-related

36 In addition, the biosensor also demonstrated strong anti-interference pro

37 The biosensor also exhibited good reproducibility (1.9% rsd,

38 ols and enhanced sensor performance make our biosensor an ideal choice for point of care diagnostics

39 ynergizes the advantages of both the glucose biosensor and biofuel cell.

40 art, human p53 transcriptionally activated a biosensor and induced apoptosis after DNA damage.

41 f the immuno-affinity membrane developed for biosensors and bioassays also in multiple use.

42 1D in Biosensors and Bioelectronics, Volume 73, 15 November 20

43 3D hydrogels to develop the next generation biosensors and bioelectronics.

44 elopment of well-defined bioactive coatings, biosensors and biomimetic model systems.

45 ploited for the development of aptamer-based biosensors and direct detection strategies.

46 ined copolymer that allows logical gating in biosensors and nanofluidic devices.

47 d the possibility of being used to construct biosensors and other analytical methods in various field

48 block in the fabrication of electrochemical biosensors and other bioelectronic devices.

49 The choice of cheap and practical PL enzyme biosensors and simple nonmicrofluidic measurement automa

50 sensors, and provide an outlook for PC-based biosensors and their promise at the POC.

51 on of electronic devices, energy generators, biosensors, and bionanomedicines.

52 soft and hard tissue-regenerating materials, biosensors, and energy-generating materials.

53 current challenges associated with existing biosensors, and provide an outlook for PC-based biosenso

54 rformance of BP as a sensing channel for FET biosensor applications.

55 vant environments and for the development of biosensor applications.

56 Further advantages of the developed biosensor are the simplicity of its design and preparati

57 use of instrument-based analysis, FNA-based biosensors are capable of entering cells without disrupt

58 Biosensors are constituted of a bioreceptor and a transd

59 electivity and challenges of electrochemical biosensors are discussed in this review.

60 Functional nucleic acid-based biosensors are emerging tools that are capable of monito

61 Biosensors are extensively employed for diagnosing a bro

62 Surface plasmon resonance (SPR) biosensors are most commonly applied for real-time dynam

63 as food and environmental safety practices, biosensors are powerful tools for monitoring biological

64 Biosensors are the promising and selective detection dev

65 Our findings establish biosensors as a general technique for directly and speci

66 cause it is often enzymatically generated at biosensors as a reporter for the presence of nonelectroa

67 xed imaging surface plasmon resonance (iSPR) biosensor assay was developed and validated for three Fu

68 The biosensor assay was not enough sensitive to detect resid

69 It covers multiple levels of muscle biosensor assessment, e.g. membrane voltage or contracti

70 t the design and preparation of nonenzymatic biosensor based on an ionic liquid tagged cobalt-salophe

71 This was based on a novel dual-biosensor based on microelectrode arrays designed to sim

72 erview of recent electrochemical sensors and biosensors based on graphene and on graphene-like 2D mat

73 vely, we present electrochemical sensors and biosensors based on graphene-like 2D materials, such as

74 Electrochemical biosensors based on screen-printed electrodes and peptid

75 third generation enzyme-free electrochemical biosensors, bioelectronics and state-of-the-art biomedic

76 of the spectral response of the investigated biosensors, but also in case of LSPR for enhancing the a

77 the improvement of performance of plasmonic biosensors, but conditions of implementation of such dif

78 for the fabrication of a sensitive hydrogen biosensor By integrating the microbiosensor in a scannin

79 light-switchable sensors for the analyte or biosensors by combination with NADH producing enzymes.

80 his study also ascertained that the proposed biosensor can be profitable to evaluate DNA bases damage

81 ion, this paper demonstrates that our FO-SPR biosensor can be used as a true POC diagnostic tool for

82 The biosensor can detect the biomarkers with a LOD value of

83 Cell imprints, incorporated into biosensors can allow the limits of detection to be impro

84 In particular, these novel biosensors can be used to reveal potentially therapeutic

85 Biosensors can deliver the rapid bacterial detection tha

86 ide and demonstrate an enzyme-free CNP-based biosensor capable of ultra-low (limit of quantitation: 0

87 and increasing working lifespan of olfactory biosensors capable of detecting explosives.

88 escence resonance energy transfer-based cGMP biosensor cGi500, NO-induced elevation of cGMP was detec

89 his approach permits the use of a disposable biosensor chip that can be mass-produced at low cost and

90 n out and analyzed by direct spray MS of the biosensor chip to confirm the identity of DON.

91 e report a label-free paper-based electrical biosensor chip to quantify salivary cortisol at a point-

92 A biosensor chip was then integrated with a lab-built low-

93 scular smooth muscle cells expressing a FRET-biosensor comprising the cGMP-binding sites of PKGIalpha

94 Biosensors comprising of graphene-based conductive nanom

95 The biosensor consists of a layer of carbon nanotubes (CNTs)

96 Under optimal conditions, the biosensor could be used for the determination of NO2(-)

97 he capture DNA probes on the test-zone), the biosensor could detect a minimum concentration of 0.4 fM

98 The biosensor demonstrated sensitivity within the clinically

99 The F6P-biosensor demonstrates a detection limit of 6.6 fM and h

100 The proposed biosensor design, based on the combination of a neutravi

101 This review describes various biosensors designed for detecting nucleic acid and prote

102 s and antibodies have been integrated in the biosensor designs as a popular choice for the detection

103 The reproducibility of the biosensor detection was improved with efficient covalent

104 Under optimized conditions, mediatorless GOx biosensor developed based on direct electrochemistry has

105 h hybrid materials will find applications in biosensor development, separation, environmental remedia

106 ceutical development, and nucleic acid based biosensor device design.

107 ortable various types of dehydrogenase based biosensor devices using metal oxide nanomaterials.

108 The biosensor displayed a low detection limit of 1microM/L w

109 Graphene is a highly promising material for biosensors due to its excellent physical and chemical pr

110 application might be useful to develop novel biosensor electrode for variety of biomolecules.

111 Biosensor electrode was constructed using Au-DNs modifie

112 A novel and highly sensitive biosensor employing graphene oxide nano-sheets (GO), mul

113 l-lactate biosensors employing l-lactate oxidase (LOx) have been d

114 The SPE-MnO2/MG/BChE biosensor enabled precision detection of organophosphoru

115 The fabricated biosensor exhibited excellent sensitivity, acceptable st

116 The PAA-rGO/VS-PANI/LuPc2/GOx-MFH biosensor exhibited high sensitivity (15.31muAmM(-1)cm(-

117 The biosensor exhibited optimum response within 10s at pH 5.

118 The proposed biosensor exhibited some advantages in terms of simplici

119 This constructed biosensor exhibits a wide linear range of 0.3 to 2000muM

120 Surface plasmon resonance (SPR)-biosensor experiments show that the drug can displace HM

121 Our novel biosensor fabrication can be extended to other metal and

122 the hybrid 3D additive printing strategy for biosensors facilitates both rapid development and small-

123 results indicated the possibilities of this biosensor for analysis without RNA extraction and/or amp

124 response time and the detection limit of the biosensor for CC is 0.932 muMmuA(-1) cm(-2), 2 s and 0.0

125 iple, mechanism, kinetics of an enzyme-based biosensor for chromium detection.

126 ber-optic surface plasmon resonance (FO-SPR) biosensor for detection of IFX spiked in 100-fold dilute

127 e applications of this MIPs-based capacitive biosensor for environmental and forensic analysis.

128 OC, this is the first report of using an SPR biosensor for measuring DBS samples.

129 ed Sphingomonas sp. based optical microplate biosensor for methyl parathion (MP) was good as it detec

130 design of a small, integrated, and reliable biosensor for multiple and simultaneous electrochemical

131 uses on the structural characterization of a biosensor for NE activity based on Forster resonance ene

132 ed an aptamer/graphene-based electrochemical biosensor for on-step, sensitive and low cost detection

133 for the first time, we propose a biomimetic biosensor for organophosphorus pesticide detection emplo

134 fabricate a highly sensitive electrochemical biosensor for paraoxon as a model of organophosphates.

135 ovel electrochemical disposable nucleic acid biosensor for simple, rapid, and specific detection of a

136 chemical reactions while acting as sensitive biosensor for the detection of hydrogen.

137 ch based on a four-electrode electrochemical biosensor for the detection of tau protein - one of the

138 ic qualitative and quantitative colorimetric biosensor for the detection of the food contaminant Esch

139 ectrochemical analysis of a highly sensitive biosensor for the detection of tumor necrosis factor alp

140 ated graphene field-effect transistor (GFET) biosensor for the label-free detection of lead ions (Pb(

141 This work reports on the first amperometric biosensor for the rapid detection of Streptococcus agala

142 Overall, the ITS is a powerful biosensor for the study of platelet mechanobiology, and

143 d dual-peak long period grating (dLPG) based biosensor for ultrasensitive label-free antibody-antigen

144 potential for realising miniaturised bedside biosensors for clinical diagnostics exploiting MIR spect

145 lso facilitate the development of novel LSPR biosensors for direct detection and isolation of heterog

146 y was conducted using T2 bacteriophage-based biosensors for electrochemical detection of Escherichia

147 As measured, the detection limit of the biosensors for glucose and cholesterol is 5microM and 0.

148 ncil leads (PL) as effective electrochemical biosensors for robotic substrate quantification in 24-we

149 ial to be applied as recognition elements in biosensors for selective bacterial detection.

150 astly, outlook and the future development of biosensors for the control of antibiotic residues in foo

151 s on porous silicon-based immobilized enzyme biosensors for the detection of chromium in potable wate

152 in the design of electrochemical sensors or biosensors for the detection of various targets.

153 tinguished potentialities of electrochemical biosensors for the development of rapid devices are high

154 ing and development of electrochemical cyt c biosensors for the quantification of cyt c are also disc

155 e applicable for developing highly sensitive biosensors for various protein kinases.

156 in the development of enzymatic amperometric biosensors for whole blood analysis, to enhance the enzy

157 The biosensors function by recognizing the highly expressed

158 luorescence proteins] allowed measurement of biosensor functionality and viability.

159 ,5-bisphosphate/inositol 1,4,5-trisphosphate biosensor GFP-PLCdelta1-PH was reduced by STIM1 shRNA an

160 creen in yeast, we engineered an optogenetic biosensor, GIBBERELLIN PERCEPTION SENSOR 1 (GPS1), that

161 Besides, the biosensor had good selectivity towards the target DNA ov

162 The biosensor had negligible interference from Na(+),K(+),NH

163 oltammetry results show that the as-prepared biosensor has 7 folds higher catalytic activity with low

164 background, a non-enzymatic electrochemical biosensor has been developed to detect MG in human blood

165 Besides its very high-sensitivity, the biosensor has displayed a low detection limit which is r

166 The smart biosensor has exhibited a turn-on signal when all biomar

167 The biosensor has high selectivity towards CC in the presenc

168 level in serum samples, the applicability of biosensor has increased immensely as the detection of th

169 The results showed that this biosensor has wide liner detection ranges (0.05-100ng/mL

170 Discovery of biosensors has acquired utmost importance in the field o

171 rategies to overcome the challenges of paper biosensor have also been discussed.

172 reen-printed oxidase-functionalized graphene biosensor have been demonstrated.

173 Several biosensors have been designed and commercialized for det

174 ions for directed therapeutics.Protein-based biosensors have been engineered to interrogate cellular

175 Whole cell biosensors have been seldom used in the pharmaceutical a

176 Nanostructure-based plasmonic biosensors have quickly positioned themselves as interes

177 The biosensor HL-FeNPs, with 20nM limit of detection, behave

178 In the biosensor, horseradish peroxidase (HRP) and glucose oxid

179 ring the recent five years in immunochemical biosensors (immunosensors) combined with nanoparticles f

180 we have developed an amperometric enzymatic biosensor in a paper-based platform with a mixed electro

181 trate with live imaging of an ultrasensitive biosensor in Arabidopsis leaves and roots.

182 Here we demonstrate that, using the RHOA biosensor in vivo and in vitro, the initiation of NCC po

183 cence resonance energy transfer (FRET)-based biosensors in conjunction with collagen-coupled agarose

184 Novel biosensors in livestock management provide significant b

185 t reports, only a few printed graphene-based biosensors including screen-printed oxidase-functionaliz

186 Biosensors incorporated with photonic crystal (PC) struc

187 The biosensor incorporates high selectivity and sensitivity

188 Importantly, we combined biosensor information with frequent medical measurements

189 ole (PPy)-based bilayer amperometric glucose biosensor integrated with a permselective layer has been

190 this study, glucose and ethanol amperometric biosensors integrated with a wireless telemetry system w

191 The biosensor is compatible with "gold-standard" adult mosqu

192 e label-free glutathione-S-transferase (GST) biosensor is demonstrated.

193 In this work, a spore-based biosensor is evaluated to monitor the microbicidal effic

194 The biosensor is found to exhibit highly efficient sensing r

195 le, sensitive, affordable, and selective DNA biosensors is willing, due to the important role of DNA

196 Here, we present the integration of a biosensor made by the electropolymerization of poly(tolu

197 this first-of-its-kind graphene-enabled Zika biosensor make it an ideal candidate for development as

198 In this novel biosensor matrix, amino groups in HKCN were used for the

199 There is an increasing need to develop biosensor methods that are highly sensitive and that can

200 The biosensor microplate assay offered accurate "hands-off"

201 However, in order to be competitive, current biosensor nanotechnologies need significant improvements

202 Along with the biosensors, near infrared spectroscopy was used to measu

203 terodimer-specific conformational LRET-based biosensor or a system that guarantees the cell surface t

204 Protein-based biosensors or activators have been engineered to visuali

205 stasis, electro-chemical, chemico-mechanical biosensors or visco-elastic components.

206 iacetylene (PDA) vesicles are of interest as biosensors, particularly for pathogenic bacteria.

207 l media and analytes hampers optimisation of biosensor performance for maximum sensitivity, especiall

208 ation ability and the efficaciousness of the biosensor performance towards subcutaneous alcohol monit

209 Here we assemble a new electrical biosensor platform based on graphene-coated interdigitat

210 In this work, we demonstrate a novel biosensor platform based on multiwalled carbon nanotubes

211 strate realization of a simple and versatile biosensor platform capable of high performance cardiac-b

212 The presented RAPID biosensor platform is significantly faster and less labo

213 This versatile biosensor platform simultaneously exploits the pH depend

214 ect DNA using a giant magnetoresistive (GMR) biosensor platform starting from an initially double-str

215 s work, we demonstrate the potential of this biosensor platform to be used in a portable "just-add-sa

216 andidates for the design of portable optical biosensor platforms considering the potential benefits t

217 techniques; the use of whole cell microbial biosensors potentially provides an alternative, fast, an

218 e dose-response behavior of the field-effect biosensor presents a linear range between 1 nM and 100 n

219 ation of flow control elements into low-cost biosensors presents a significant engineering challenge.

220 Taken together, the graphene biosensors provide an effective tool for clinical applic

221 The proposed graphene based electrical biosensor provided advantages of speed, sensitivity, spe

222 Biosensor recordings demonstrated that HE is associated

223 ace-enhanced Raman spectroscopy (SERS) based biosensors requires not only synthesizing SERS active na

224 The biosensor responded linearly in the range 1-1000 pM of m

225 The biosensor response at a potential of -0.7V versus Ag wir

226 have highlighted the specific and selective biosensor response towards the target protein.

227 The novel biosensor showed a linear amperometric response for gluc

228 The biosensor showed excellent analytical performance with h

229 Moreover, the biosensor showed good repeatability (4.3% RSD) and repro

230 The biosensors showed good analytical characteristics to glu

231 sensor was compared with an HRP-enzyme-based biosensor showing excellent correlation and indicates th

232 The biosensor shows high stability without interferences fro

233 The olfactory system is a natural biosensor since its peripheral olfactory sensory neurons

234 rating principles, merits and demerits of TG biosensors, specifically nanomaterials based biosensors.

235 The SiO2(LuPc2)PANI(PVIA)-CNB/GOx biosensor stored under refrigerated condition over a per

236 s tattoo and textile-based nerve-agent vapor biosensor systems offer considerable promise for rapid w

237 Review presents various schemes of magnetic biosensor techniques from both simulation and modelling

238 n organo-functionalized graphene and printed biosensor technologies are comprehensively covered.

239 nalized coatings hampers the use of affinity biosensor technologies in medical diagnostics.

240 smartphone spectrometer (MSS) as an optical biosensor that can simultaneously optical sense multiple

241 Ts) are low noise, low power, ultrasensitive biosensors that are highly amenable to integration.

242 ssed, and examples are given of the types of biosensors that can be developed.

243 are: a non-enzymatic sensor and an enzymatic biosensor, the latter showing promising results.

244 rm would be widely used as a high-throughput biosensor to analyze food, clinical and environmental sa

245 ensor can be applied as a rapid point-of-use biosensor to assess the quality of donor islets in terms

246 cost-effective and portable graphene-enabled biosensor to detect Zika virus with a highly specific im

247 study mutations in TRIO (T)GEF1, and a RhoA biosensor to study mutations in TGEF2.

248 e utilized two FRET-based biosensors: a Rac1 biosensor to study mutations in TRIO (T)GEF1, and a RhoA

249 ms such as electrochemical, optical and mass biosensors to detect various analytes in food.

250 romising applications in fields ranging from biosensors to nanorobotics and energy.

251 ed Azu-A based chemical sensor and GOx based biosensor towards the determination of H2O2 and glucose

252 The sensitivity of as-formed label-free biosensor towards the GVA-antigens was determined in the

253 activation reporters, the FRET-based calcium biosensor Twitch1 and fluorescent NFAT.

254 The integrated prototype biosensor unit demonstrates the potential of the method

255 moni-toring the dynamics of the Cdc42 FLARE biosensor using the phasor approach to FLIM-FRET.

256 we developed a field effect transistor (FET) biosensor utilizing solution-processed graphene oxide na

257 This biosensor was applied to test BPA in canned food samples

258 The present biosensor was based on resonance light scattering (RLS)

259 This biosensor was based on thin films of Zinc Oxide (ZnO) de

260 The sensitivity and specificity of the biosensor was characterized using two types of electroch

261 This biosensor was constructed by coating graphene oxide/ssDN

262 A non-faradaic label-free cortisol biosensor was demonstrated using MoS2 nanosheets integra

263 The insulin detection ability of each biosensor was determined using interferometric reflectan

264 A label-free electrochemical miRNA biosensor was developed based on a pyrrolidinyl peptide

265 ese limitations, a novel, ultra-rapid visual biosensor was developed based on the ability of E. coli

266 An improved glycerol biosensor was developed via direct attachment of NAD(+)-

267 The PPy-GOx/PPy-Cl bilayer biosensor was effective in rejecting 98% of ascorbic aci

268 The biosensor was employed for measurement of potentiometric

269 The long-term stability of the biosensor was evaluated, remaining functional for over 4

270 to 10ng/ml; in addition, the selectivity of biosensor was evaluated.

271 Finally, biosensor was fabricated by immobilizing GOx into PAA-rG

272 This biosensor was found to be highly sensitive and specific

273 ctivity at membrane microdomains, this PDGFR biosensor was further targeted in or outside lipid rafts

274 Furthermore, the proposed biosensor was successfully applied to detect thrombin in

275 The biosensor was successively tested to quantify lactose co

276 The selectivity of the biosensor was tested by using normal human skin-fibrobla

277 The biosensor was used to detect miRNA-21, a biomarker abnor

278 the SR--measured with a calsequestrin-fused biosensor--was lowered.

279 f lentiviral, luciferase reporter cassettes (biosensors); we present real-time analyses from the firs

280 luorescence resonance energy transfer (FRET) biosensor, we show that a phosphomimetic mutation of Ser

281 Using biochemical assays and a novel Rac3 biosensor, we show that Vav2 promotes Rac3 activation at

282 ce effect and the stability of the developed biosensor were also evaluated.

283 ntional pyrroloquinoline quinone (PQQ)-based biosensor were evaluated by dynamic constant potential a

284 Two parallel biosensors were designed and optimised independently, ba

285 The biosensors were designed by selective hydrothermal growt

286 The multiplex cadmium biosensors were responsive to cadmium concentrations ran

287 In our work, we describe a construction of biosensor which is based on fructosyl amino-acid oxidase

288 s, we used a genetically encoded CrkII-based biosensor which undergoes conformational changes upon ty

289 CNP's outstanding properties in biosensors which go from high catalytic activity and sur

290 study, we describe a novel universal diamond biosensor, which enables the specific detection of the v

291 rkers more conveniently, point-of-care (PoC) biosensors, which are easy to use and are of low cost, a

292 Biosensors will contribute to the 4th revolution in agri

293 s on developing a label-free electrochemical biosensor with high sensitivity for PoC applications to

294 The proposed biosensor with highly biocompatibility and nontoxicity,

295 The lowest measured concentration for the biosensor with putrescine oxidase was 1mg/L.

296 e a generalizable platform to create dual-FP biosensors with large dynamic ranges by employing a sing

297 of efficient and cost effective nonenzymatic biosensors with remarkable sensitivity, selectivity and

298 ers, and analytical performance of the paper biosensors with their respective applications in real sa

299 a distinguishable response to the bare LSPR biosensor without functionalization, suggesting a differ

300 TG biosensors work ideally within 2.5-2700s, in pH range, 6