Correction: Xu, S.; Li, Y.; Liu, Y.; Sun, J.; Ren, H.; Wu, S.-T. Fast-Response Liquid Crystal Microlens. Micromachines 2014, 5, 300–324

Xu, Su; Li, Yan; Liu, Yifan; Sun, Jie; Ren, Hongwen; Wu, Shin‐Tson

doi:10.3390/mi6030328

Cited by 228 publications

(307 citation statements)

References 1 publication

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“…Other immunoreaction-based methods, such as surface plasmon resonance (SPR) [11] or surface-enhanced Raman scattering (SERS), [12,13] required complicated and expensive instruments that made them difficult in practical diagnosis screening. Chemiluminescent immunoassay (CLIA) including chemiluminescence enzyme immunoassay (CLEIA) [14,15] and electrochemiluminescence [16,17] have been developed and adopted in routine clinical analysis for the high sensitivity determination of TPSA or FPSA. However, almost all of the aforementioned methods are either only for the detection of TPSA or only for the measurement of FPSA, which usually results in unmatched F/T ratios.…”

Section: Introductionmentioning

confidence: 99%

Dual‐labeled chemiluminescence enzyme immunoassay for simultaneous measurement of total prostate specific antigen (TPSA) and free prostate specific antigen (FPSA)

et al. 2017

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The specificity for early diagnostic of prostate-specific antigen (PSA) is low because the current technology mostly allows the detection of only one biomarker at one time. In this work, a dual- The proposed method presented the sensitivity of 0.03 ng ml −1 and 0.05 ng ml −1 for FPSA and TPSA respectively, with low cross-reactivities. Compared with the results from commercial chemiluminescent kits there was good correlation, indicating that this established method could be used to simultaneously to measure the concentrations of FPSA and TPSA in one serum sample and also could greatly facilitate the early diagnosis for PCa in clinical practice. KEYWORDS chemiluminescent enzyme immunoassay (CLEIA), dual-labeled, free prostate specific antigen (FPSA), simultaneous measurement, total prostate specific antigen (TPSA)

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Section: Introductionmentioning

confidence: 99%

Dual‐labeled chemiluminescence enzyme immunoassay for simultaneous measurement of total prostate specific antigen (TPSA) and free prostate specific antigen (FPSA)

et al. 2017

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“…ZnS nanoparticles have many important applications, such as in-vivo and in-vitro imaging of target tissues [1][2][3]. Their fluorescence properties have been vastly studied [1][2][3][4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

“…Their fluorescence properties have been vastly studied [1][2][3][4][5][6][7]. Based on the specific application, appropriate morphology and particle sizes have been obtained by tuning precursor concentration, stabilizing surfactant, pH and temperature of the chemical processes generally used for production of the ZnS particles [8][9][10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Kinetics of oxygen adsorption on ZnS nanoparticles synthesized by precipitation process

Ahmadi

Sadrnezhad

Zangeneh

et al. 2016

Materials Science-Poland

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ZnS nanoparticles were synthesized through a one-step precipitation process. Effect of time and temperature on the formation reaction was investigated. The synthesized samples were characterized by X-ray diffraction (XRD), ultraviolet (UV) visible absorption and photoluminescence (PL) spectrophotometry. Based on XRD and UV-Vis data, the particles produced at 70°C had a mean particle size of about 5 nm. Increasing time and temperature of the synthesis reaction resulted in photoluminescence intensification. PL spectroscopy helped understanding the adsorption kinetics of oxygen on ZnS nanoparticles during the precipitation synthesis process. Fabrication of ZnS structures with appropriate oxygen adsorption capacity was suggested as a means of PL emission intensity control.

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“…Most impurities, including those with high segregation coefficients in Si such as P and B, can be more effectively removed by this process compared with ordinary directional solidification. In addition to the Si-Al solvent, other Si-based solvents such as Si-Cu [17], Si-Ni [18], Si-Na [19], Si-Fe [20,21], Si-Al (-Sn) [22][23][24], and Si-Al-Zn [25] solvents have been investigated for the removal of impurities; however, a more effective enhanced solid/liquid segregation tendency of impurities has not been achieved. The separation of primary Si (refined Si) from a Si-based solvent is another essential issue for the production of SOG-Si.…”

Section: Introductionmentioning

confidence: 99%

Effect of solidification conditions on the silicon growth and refining using Si–Sn melt

Lei

Yoshikawa

et al. 2015

Journal of Crystal Growth

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Effect of solidification conditions on the silicon growth and refining using si-Sn melt, Journal of Crystal Growth, http://dx.doi.org/10.1016/j. jcrysgro. 2015.08.001 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting galley proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Institute of Industrial Science, The University of Tokyo, Tokyo, Japan. AbstractThe solidification refining of Si using a Si-Sn solvent was investigated under various cooling conditions: (1) slow cooling, (2) slow cooling with electromagnetic stirring, and (3) directional solidification with the aim of developing a novel low-cost route for solar-grade Si production. The separation efficiency of refined Si achieved by combining slow cooling and electromagnetic stirring was much higher than that achieved using directional solidification; in addition, the purification efficiency of the refined Si in both methods was similar. The separation mechanism of refined Si from a Si-Sn melt is also discussed. Purification testing of the refined Si revealed that more than 96% of the metallic impurities, approximately 60% B, and over 70% P were removed.

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Correction: Xu, S.; Li, Y.; Liu, Y.; Sun, J.; Ren, H.; Wu, S.-T. Fast-Response Liquid Crystal Microlens. Micromachines 2014, 5, 300–324

Cited by 228 publications

References 1 publication

Dual‐labeled chemiluminescence enzyme immunoassay for simultaneous measurement of total prostate specific antigen (TPSA) and free prostate specific antigen (FPSA)

Dual‐labeled chemiluminescence enzyme immunoassay for simultaneous measurement of total prostate specific antigen (TPSA) and free prostate specific antigen (FPSA)

Kinetics of oxygen adsorption on ZnS nanoparticles synthesized by precipitation process

Effect of solidification conditions on the silicon growth and refining using Si–Sn melt

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