Transition metal(oxy)hydroxides are potential oxygen evolution reaction(OER)electrocatalysts;however,simultaneously modulating multiple factors to enhance their performance is a grand challenge.Here,we report an incor...Transition metal(oxy)hydroxides are potential oxygen evolution reaction(OER)electrocatalysts;however,simultaneously modulating multiple factors to enhance their performance is a grand challenge.Here,we report an incorporating heteroatom strategy via one-step hydrothermal approach to adjust more than one factor of Mn-doped NiFe(oxy)hydroxide(Mn-NiFeOOH/LDH)heterojunction.Mn doping regulates heterojunction morphology(reducing nanoparticles and becoming thinner and denser nanosheets),Ni/Fe ratio and valence states(Ni^(2+),Ni^(3+),and Ni^(3+Δ))of Ni ions.The former could effectively increase surface active sites,and the latter two reduce the content of Fe in the Mnx-NiFeOOH/LDH heterojunction,en-abling more Ni^(2+)convert to Ni^(3+/3+Δ)that have higher intrinsic OER activity.As a result,the first-rank Mn-NiFeOOH/LDH with ultra-low overpotential of 185 mV@20 mA cm^(-2) and 296 mV@500 mA cm^(-2),and the improved OER performance are outdo to those of commercial RuO_(2) catalyst for OER.Moreover,the Mn-NiFeOOH/LDH affords the earliest initial potential(1.392 V vs.RHE),corresponds to a recorded low overpotential(162 mV).Based on the density functional theory(DFT),Mn dopants can alter intermedi-ate adsorption energy and effectively decrease∗OOH’s energy barrier.This research exhibits a feasible strategy to design low cost electrocatalysts and provide new possibilities for future industrialization.展开更多
BACKGROUND Gastric cancer is among the most prevalent malignancies worldwide.Despite significant advancements in chemoradiotherapy,targeted therapy,and neoadjuvant therapy,conventional surgical intervention remains th...BACKGROUND Gastric cancer is among the most prevalent malignancies worldwide.Despite significant advancements in chemoradiotherapy,targeted therapy,and neoadjuvant therapy,conventional surgical intervention remains the cornerstone of gastric cancer management.Improvements in surgical techniques,coupled with the use of staplers and other advanced instruments,have substantially reduced the incidence of complications and mortality following gastric cancer surgery.However,dysphagia remains a common postoperative complication.AIM To retrospectively investigate the potential factors contributing to dysphagia in patients who have undergone laparoscopic radical gastrectomy for gastric cancer and to explore effective strategies for its postoperative management.METHODS In this retrospective study,we analyzed data from patients who underwent elective laparoscopic total gastrectomy at Lihuili Hospital,Ningbo University,between January 2018 and May 2022.A total of 115 eligible postoperative patients were included.Postoperatively,patients completed questionnaires and were categorized into two groups based on their responses:The dysphagia group(Eating Assessment Tool-10 score≥3)and the non-dysphagia group(Eating Assessment Tool-10 score<3).Risk factors associated with dysphagia following total gastrectomy were assessed usingχ2 tests,Fisher’s exact tests,t-tests,Pearson correlation coefficients,and univariate and multivariate regression analyses.RESULTS Multivariate analysis further identified anastomotic style,prolonged intubation time,advanced age,and low albumin(ALB)levels as independent risk factors for postoperative dysphagia.Implementing targeted preventive measures for high-risk groups may significantly enhance postoperative quality of life.CONCLUSION Univariate analysis revealed that anastomotic style,low serum ALB levels,advanced age,and prolonged intubation time were significantly associated with postoperative dysphagia in gastric cancer patients.Multivariate analysis further identified anastomotic style,prolonged intubation time,advanced age,and low ALB levels as independent risk factors for postoperative dysphagia.Implementing targeted preventive measures for high-risk groups may significantly enhance postoperative quality of life.展开更多
In this study, well-ordered gold nanoparticle array on silicon substrate was adopted as an active surface-enhanced Raman scattering substrate for detecting rhodamine B (RB), and the influence of RB morphologies on s...In this study, well-ordered gold nanoparticle array on silicon substrate was adopted as an active surface-enhanced Raman scattering substrate for detecting rhodamine B (RB), and the influence of RB morphologies on surface-enhanced Raman scattering (SERS) properties was discussed. The Au nanoparticle array was prepared by using patterned P4VP nanodomains of poly(styrene-b-4-vinylpyridine) (PS-b-P4VP) diblock copolymer thin films as nanoreactors which is a simple and economical approach. The results show that Raman spectra of RB on the Au nanopaticle array have much stronger intensity than those on the bare silicon substrate by detecting same RB solution. It indicates that the prepared Au nanoparticle array on silicon substrate has a significant Raman enhancement for RB. Interestingly, the Raman intensity of RB from its ethanol solution is much stronger than that from its aqueous solution due to the special morphologies of RB formed in their ethanol solutions. This work provides an effective approach to prepare highly sensitive and stable surface-enhanced Raman scattering substrate.展开更多
基金funding support by the Changsha Natural Science Foundation(grant no.kq2208023)National Natural Scientific Foundation of China(grant no.12074113).
文摘Transition metal(oxy)hydroxides are potential oxygen evolution reaction(OER)electrocatalysts;however,simultaneously modulating multiple factors to enhance their performance is a grand challenge.Here,we report an incorporating heteroatom strategy via one-step hydrothermal approach to adjust more than one factor of Mn-doped NiFe(oxy)hydroxide(Mn-NiFeOOH/LDH)heterojunction.Mn doping regulates heterojunction morphology(reducing nanoparticles and becoming thinner and denser nanosheets),Ni/Fe ratio and valence states(Ni^(2+),Ni^(3+),and Ni^(3+Δ))of Ni ions.The former could effectively increase surface active sites,and the latter two reduce the content of Fe in the Mnx-NiFeOOH/LDH heterojunction,en-abling more Ni^(2+)convert to Ni^(3+/3+Δ)that have higher intrinsic OER activity.As a result,the first-rank Mn-NiFeOOH/LDH with ultra-low overpotential of 185 mV@20 mA cm^(-2) and 296 mV@500 mA cm^(-2),and the improved OER performance are outdo to those of commercial RuO_(2) catalyst for OER.Moreover,the Mn-NiFeOOH/LDH affords the earliest initial potential(1.392 V vs.RHE),corresponds to a recorded low overpotential(162 mV).Based on the density functional theory(DFT),Mn dopants can alter intermedi-ate adsorption energy and effectively decrease∗OOH’s energy barrier.This research exhibits a feasible strategy to design low cost electrocatalysts and provide new possibilities for future industrialization.
文摘BACKGROUND Gastric cancer is among the most prevalent malignancies worldwide.Despite significant advancements in chemoradiotherapy,targeted therapy,and neoadjuvant therapy,conventional surgical intervention remains the cornerstone of gastric cancer management.Improvements in surgical techniques,coupled with the use of staplers and other advanced instruments,have substantially reduced the incidence of complications and mortality following gastric cancer surgery.However,dysphagia remains a common postoperative complication.AIM To retrospectively investigate the potential factors contributing to dysphagia in patients who have undergone laparoscopic radical gastrectomy for gastric cancer and to explore effective strategies for its postoperative management.METHODS In this retrospective study,we analyzed data from patients who underwent elective laparoscopic total gastrectomy at Lihuili Hospital,Ningbo University,between January 2018 and May 2022.A total of 115 eligible postoperative patients were included.Postoperatively,patients completed questionnaires and were categorized into two groups based on their responses:The dysphagia group(Eating Assessment Tool-10 score≥3)and the non-dysphagia group(Eating Assessment Tool-10 score<3).Risk factors associated with dysphagia following total gastrectomy were assessed usingχ2 tests,Fisher’s exact tests,t-tests,Pearson correlation coefficients,and univariate and multivariate regression analyses.RESULTS Multivariate analysis further identified anastomotic style,prolonged intubation time,advanced age,and low albumin(ALB)levels as independent risk factors for postoperative dysphagia.Implementing targeted preventive measures for high-risk groups may significantly enhance postoperative quality of life.CONCLUSION Univariate analysis revealed that anastomotic style,low serum ALB levels,advanced age,and prolonged intubation time were significantly associated with postoperative dysphagia in gastric cancer patients.Multivariate analysis further identified anastomotic style,prolonged intubation time,advanced age,and low ALB levels as independent risk factors for postoperative dysphagia.Implementing targeted preventive measures for high-risk groups may significantly enhance postoperative quality of life.
基金financially supported by the National Natural Science Foundation of China(Nos.51203025,51273048 and 51203191)
文摘In this study, well-ordered gold nanoparticle array on silicon substrate was adopted as an active surface-enhanced Raman scattering substrate for detecting rhodamine B (RB), and the influence of RB morphologies on surface-enhanced Raman scattering (SERS) properties was discussed. The Au nanoparticle array was prepared by using patterned P4VP nanodomains of poly(styrene-b-4-vinylpyridine) (PS-b-P4VP) diblock copolymer thin films as nanoreactors which is a simple and economical approach. The results show that Raman spectra of RB on the Au nanopaticle array have much stronger intensity than those on the bare silicon substrate by detecting same RB solution. It indicates that the prepared Au nanoparticle array on silicon substrate has a significant Raman enhancement for RB. Interestingly, the Raman intensity of RB from its ethanol solution is much stronger than that from its aqueous solution due to the special morphologies of RB formed in their ethanol solutions. This work provides an effective approach to prepare highly sensitive and stable surface-enhanced Raman scattering substrate.
