Jianglei Qu scite author profile

Jianglei Qu

3Publications

22Citation Statements Received

81Citation Statements Given

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Affiliations

Collaborative Innovation Center of Chemical Science and Engineering Tianjin, Tianjin University

Publications

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The Chinese Linguistic Validation of the Ureteral Stent Symptom Questionnaire

Zhu¹,

Qu²,

Yang³

et al. 2018

Urol Int

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Objective: We validated the Chinese version of the Ureteral Stent Symptoms Questionnaire (USSQ) in patients with an indwelling ureteric stent. Patients and Methods: The English version of the USSQ was translated into Chinese using a multi-step process by 3 urologists and 2 independent translators. The Chinese version was validated by asking 50 patients with temporary unilateral ureteral stent to complete the questionnaire at weeks 1 and 4 after stent placement. Thirty healthy individuals without a ureteral stent were also asked to complete the Chinese USSQ once. The psychometric properties of the questionnaire were analyzed. Results: After revision of the initial 2 drafts after translation, back translation, and pilot testing, a final draft was developed that underwent field testing. Psychometric analyses revealed satisfactory internal consistencies and test-retest reliability for all domains except for sexual matters. Most USSQ domains showed moderate correlations with each other. It demonstrated satisfactory discriminant validity (sensitivity to change, p < 0.05) and test-retest reliability. Analysis of the domains of the sexual matters was limited because of the small proportion of the study population for whom it was applicable. Conclusion: The Chinese version of the USSQ is a reliable and valid instrument to evaluate symptoms and health-related quality of life in Chinese patients with ureteric stents.

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Kinetics of sulfur-resistant methanation over supported molybdenum-based catalyst

Wang

et al. 2016

Journal of the Taiwan Institute of Chemical Engineers

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Enhanced sulfur‐resistant methanation performance over MoO₃–ZrO₂ catalyst prepared by solution combustion method

Ullah

2019

Applied Organom Chemis

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Sulfur‐resistant methanation of syngas was studied over MoO3–ZrO2 catalysts at 400°C. The MoO3–ZrO2 solid‐solution catalysts were prepared using the solution combustion method by varying MoO3 content and temperature. The 15MoO3–ZrO2 catalyst achieved the highest methanation performance with CO conversion up to 80% at 400°C. The structure of ZrO2 and dispersed MoO3 species was characterized using X‐ray diffraction and transmission electron microscopy. The energy‐dispersive spectrum of the 15MoO3–ZrO2 catalyst showed that the solution combustion method gave well‐dispersed MoO3 particles on the surface of ZrO2. The structure of the catalysts depends on the Mo surface density. It was observed that in the 15MoO3–ZrO2 catalyst the Mo surface density of 4.2 Mo atoms nm−2 approaches the theoretical monolayer capacity of 5 Mo atoms nm−2. The addition of a small amount of MoO3 to ZrO2 led to higher tetragonal content of ZrO2 along with a reduction of particle size. This leads to an efficient catalyst for the low‐temperature CO methanation process.

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Jianglei Qu

The Chinese Linguistic Validation of the Ureteral Stent Symptom Questionnaire

Kinetics of sulfur-resistant methanation over supported molybdenum-based catalyst

Enhanced sulfur‐resistant methanation performance over MoO₃–ZrO₂ catalyst prepared by solution combustion method

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Jianglei Qu

The Chinese Linguistic Validation of the Ureteral Stent Symptom Questionnaire

Kinetics of sulfur-resistant methanation over supported molybdenum-based catalyst

Enhanced sulfur‐resistant methanation performance over MoO3–ZrO2 catalyst prepared by solution combustion method

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Product

Resources

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Enhanced sulfur‐resistant methanation performance over MoO₃–ZrO₂ catalyst prepared by solution combustion method