Low-pressure dielectric barrier discharge(DBD) TiCl4/O2and N2 plasmas have been used to deposit titanium oxide films at different power supply driving frequencies. A homemade large area low pressure DBD reactor was ...Low-pressure dielectric barrier discharge(DBD) TiCl4/O2and N2 plasmas have been used to deposit titanium oxide films at different power supply driving frequencies. A homemade large area low pressure DBD reactor was applied, characterized by the simplicity of the experimental set-up and a low consumption of feed gas and electric power, as well as being easy to operate. Atomic force microscopy, scanning electron microscopy, energy dispersive spectroscopy,and contact angle measurements have been used to characterize the deposited films. Experimental results show all deposited films are uniform and hydrophilic with a contact angle of about 15 o.Compared to titanium oxide films deposited in TiCl4/O2gas mixtures, those in TiCl4/O2/N2gas mixtures are much more stable. The contact angle of titanium oxide films in TiCl4/O2/N2gas mixtures with the addition of 50% N2 and 20% TiCl4 is still smaller than 20 o, while that of undoped titanium oxide films is larger than 64 owhen they are measured after one week. The low-pressure TiCl4/O2plasmas consist of pulsed glow-like discharges with peak widths of several microseconds, which leads to the uniform deposition of titanium oxide films. Increasing a film thickness over several hundreds of nm leads to the film’s fragmentation due to the over-high film stress. Optical emission spectra(OES) of TiCl4/O2DBD plasmas at various power supply driving frequencies are presented.展开更多
Titanium and its alloys are widely used in the aerospace, marine, and biomedical industry due to their unique bulk properties such as high strength-to-weight ratio and melting temperature, good corrosion resistance, a...Titanium and its alloys are widely used in the aerospace, marine, and biomedical industry due to their unique bulk properties such as high strength-to-weight ratio and melting temperature, good corrosion resistance, and favorable biocom- patibility. However, in some applications, com- ponents made of titanium or titanium alloys exhibit poor wear resistance under stationary or dynamic loading as well as contact corrosion manifested by the relatively negative standard electrode potential (-1.63 V ) . In order to improve the surface properties of titanium and its alloys, several techniques such as PVD ( physical vapor deposition ) /CVD (chemical vapor deposition ) coatings,展开更多
The effect of fluoride ions on the formation and dissolution behaviour of anodic oxide films on Ti has been investigated in acidic fluoride media (pH=1) using impedance and galvanostatic techniques. A5 the fluoride io...The effect of fluoride ions on the formation and dissolution behaviour of anodic oxide films on Ti has been investigated in acidic fluoride media (pH=1) using impedance and galvanostatic techniques. A5 the fluoride ion concentration and temperature increase the rate of oxide film formation decreases while the dissolution process increases. oxide film formed at high tem-perature and formation voltage was found to contain more defect sites in the film than that formed at a lower one. Activation energies are calculated during the oxide film formation and dissolution and found to be 20.76 and 28.72 kJ/mol, respectively. Formation rate and reciprocal capacitance data are reported as a function of polarizing current density. Values are recorded for the electrolytic parameters A and B. Potentiostatic curves are derived from the galvanostatic results.展开更多
Anatase titanium dioxide is an active photocatalyst, but it is difficult to immobilize on the substrate. A crystalline TiO2 porous film was prepared directly on the surface of pure titanium by anodic oxidation in this...Anatase titanium dioxide is an active photocatalyst, but it is difficult to immobilize on the substrate. A crystalline TiO2 porous film was prepared directly on the surface of pure titanium by anodic oxidation in this work. Constant voltage and constant current anodic oxidation were adopted with sulphuric acid used as the electrolyte, pure titanium as the anode and copper as the cathode. The morphology and structure of the porous film on the substrate were analyzed with the aid of Field Emission Scanning Electron Microscopy (FESEM) and X-ray Diffraction (XRD). The effects of the parameters of anodic oxidation (such as voltage, the concentration of sulphuric acid, anodization time and current density) on the aperture and the crystalline phase of the TiO2 porous film were systematically investigated. The results indicate that the increase of current density facilitates the augment of the aperture and the generation of anatase and mille. In addition, the forming mechanism of anatase and mille TiO2 porous films was discussed.展开更多
CO2 and O2 were employed as reactive gases to fabricate carbon-doped titanium oxide films using DC reactive magnetron sputtering. Microstructure, composition and optical band gap of the films were investigated by X-ra...CO2 and O2 were employed as reactive gases to fabricate carbon-doped titanium oxide films using DC reactive magnetron sputtering. Microstructure, composition and optical band gap of the films were investigated by X-ray diffraction, X-ray photoelectron spectroscopy, and UV-visible spectrophotometer, respectively. The results showed that carbon-doped titanium monoxide films (C-TiO) with a carbon concentration of 5.8 at.% were obtained in an AffCO2 mixed atmosphere. However, carbon-doped futile and anatase (C-TiO2) with a carbon concentration of about 1.4 at.% were obtained in an Ar/CO2/O2 mixed atmosphere. The optical band gaps of C-TiO and C-TiO2 were about 2.6 and 2.9 eV, respectively. Both of them were narrower than that of pure TiO2 films. Films with narrowed optical band gap energy are promising in promoting their photo-catalytic activity.展开更多
Background:The HELIOS stent is a sirolimus-eluting stent with a biodegradable polymer and titanium oxide film as the tie-layer.The study aimed to evaluate the safety and efficacy of HELIOS stent in a real-world settin...Background:The HELIOS stent is a sirolimus-eluting stent with a biodegradable polymer and titanium oxide film as the tie-layer.The study aimed to evaluate the safety and efficacy of HELIOS stent in a real-world setting.Methods:The HELIOS registry is a prospective,multicenter,cohort study conducted at 38 centers across China between November 2018 and December 2019.A total of 3060 consecutive patients were enrolled after application of minimal inclusion and exclusion criteria.The primary endpoint was target lesion failure(TLF),defined as a composite of cardiac death,non-fatal target vessel myocardial infarction(MI),and clinically indicated target lesion revascularization(TLR)at 1-year follow-up.Kaplan-Meier methods were used to estimate the cumulative incidence of clinical events and construct survival curves.Results:A total of 2998(98.0%)patients completed the 1-year follow-up.The 1-year incidence of TLF was 3.10%(94/2998,95%closed interval:2.54-3.78%).The rates of cardiac death,non-fatal target vessel MI and clinically indicated TLR were 2.33%(70/2998),0.20%(6/2998),and 0.70%(21/2998),respectively.The rate of stent thrombosis was 0.33%(10/2998).Age≥60 years,diabetes mellitus,family history of coronary artery disease,acute myocardial infarction at admission,and device success were independent predictors of TLF at 1 year.Conclusion:The 1-year incidence rates of TLF and stent thrombosis were 3.10%and 0.33%,respectively,in patients treated with HELIOS stents.Our results provide clinical evidence for interventional cardiologists and policymakers to evaluate HELIOS stent.Clinical trial registration:ClinicalTrials.gov,NCT03916432.展开更多
Background Drug-eluting stents(DES) with durable polymer have significantly reduced restenosis and target vessel revascularization compared with bare metal stents. Durable polymer has been linked with persistent inf...Background Drug-eluting stents(DES) with durable polymer have significantly reduced restenosis and target vessel revascularization compared with bare metal stents. Durable polymer has been linked with persistent inflammation of vessel wall and delayed endothelial healing that may increase the risk of late and very late stent thrombosis. This study sought to evaluate the efficacy and safety of HELLOS completed biodegradable polymer sirolimus-eluting stent (SES) in de novo coronary lesions.Methods Totally, 287 patients with one or two de novo coronary lesions (lesion length ≤38 mm and reference vessel diameter 2.5-4.0 mm) were enrolled in the HOPE study, a prospective, multicenter, randomized, non-inferiority trial. Patients were randomized to treatment either with HELIOS completed biodegradable polymer SES (n=142) or PARTNER durable polymer SES (n=145). The primary endpoint was angiographic in-stent late lumen loss (LLL) at 9-month follow-up. The secondary endpoint included stent thrombosis and major adverse cardiac events including cardiac death, myocardial infarction (MI) and target lesion revascularization (TLR).Results The 9-month in-stent LLL in the HELIOS group was similar to the PARTNER group, (0.16±0.22) mm vs. (0.19±0.30) mm (P=0.28). The difference and 95% confidence interval were -0.03 (-0.09, 0.04), and the P value for non-inferiority 〈0.01. Major adverse cardiovascular event (MACE) occurred in 7.9% vs. 8.2%, MI in 2.4% vs. 3.0%, TLR in 5.5% vs. 3.0%, and stent thrombosis in 0 vs. 1.5%; and events were comparable between the HELIOS group and PARTNER aroup at three-year follow-up (all P 〉0.05). The three-year cardiac death was lower in the HELIOS group, butwith no significant difference, 0 vs. 3.0% (P=0.12). Conclusions In the HOPE trial, the novel completed biodegradable polymer SES HELIOS was non-inferior to the durable polymer SES PARTNER with respect to nine-month in-stent LLL in de novo coronary lesions. The incidence of other clinical endpoints was low for both of the stents in three-year follow-up.展开更多
基金supported by National Natural Science Foundation of China(Nos.10875025 and 20803007)Fundamental Research Funds for Central Universities of China(Nos.DC12010116 and DC13010106)Program for Liaoning Excellent Talents in University(LJQ20l3128)
文摘Low-pressure dielectric barrier discharge(DBD) TiCl4/O2and N2 plasmas have been used to deposit titanium oxide films at different power supply driving frequencies. A homemade large area low pressure DBD reactor was applied, characterized by the simplicity of the experimental set-up and a low consumption of feed gas and electric power, as well as being easy to operate. Atomic force microscopy, scanning electron microscopy, energy dispersive spectroscopy,and contact angle measurements have been used to characterize the deposited films. Experimental results show all deposited films are uniform and hydrophilic with a contact angle of about 15 o.Compared to titanium oxide films deposited in TiCl4/O2gas mixtures, those in TiCl4/O2/N2gas mixtures are much more stable. The contact angle of titanium oxide films in TiCl4/O2/N2gas mixtures with the addition of 50% N2 and 20% TiCl4 is still smaller than 20 o, while that of undoped titanium oxide films is larger than 64 owhen they are measured after one week. The low-pressure TiCl4/O2plasmas consist of pulsed glow-like discharges with peak widths of several microseconds, which leads to the uniform deposition of titanium oxide films. Increasing a film thickness over several hundreds of nm leads to the film’s fragmentation due to the over-high film stress. Optical emission spectra(OES) of TiCl4/O2DBD plasmas at various power supply driving frequencies are presented.
文摘Titanium and its alloys are widely used in the aerospace, marine, and biomedical industry due to their unique bulk properties such as high strength-to-weight ratio and melting temperature, good corrosion resistance, and favorable biocom- patibility. However, in some applications, com- ponents made of titanium or titanium alloys exhibit poor wear resistance under stationary or dynamic loading as well as contact corrosion manifested by the relatively negative standard electrode potential (-1.63 V ) . In order to improve the surface properties of titanium and its alloys, several techniques such as PVD ( physical vapor deposition ) /CVD (chemical vapor deposition ) coatings,
文摘The effect of fluoride ions on the formation and dissolution behaviour of anodic oxide films on Ti has been investigated in acidic fluoride media (pH=1) using impedance and galvanostatic techniques. A5 the fluoride ion concentration and temperature increase the rate of oxide film formation decreases while the dissolution process increases. oxide film formed at high tem-perature and formation voltage was found to contain more defect sites in the film than that formed at a lower one. Activation energies are calculated during the oxide film formation and dissolution and found to be 20.76 and 28.72 kJ/mol, respectively. Formation rate and reciprocal capacitance data are reported as a function of polarizing current density. Values are recorded for the electrolytic parameters A and B. Potentiostatic curves are derived from the galvanostatic results.
文摘Anatase titanium dioxide is an active photocatalyst, but it is difficult to immobilize on the substrate. A crystalline TiO2 porous film was prepared directly on the surface of pure titanium by anodic oxidation in this work. Constant voltage and constant current anodic oxidation were adopted with sulphuric acid used as the electrolyte, pure titanium as the anode and copper as the cathode. The morphology and structure of the porous film on the substrate were analyzed with the aid of Field Emission Scanning Electron Microscopy (FESEM) and X-ray Diffraction (XRD). The effects of the parameters of anodic oxidation (such as voltage, the concentration of sulphuric acid, anodization time and current density) on the aperture and the crystalline phase of the TiO2 porous film were systematically investigated. The results indicate that the increase of current density facilitates the augment of the aperture and the generation of anatase and mille. In addition, the forming mechanism of anatase and mille TiO2 porous films was discussed.
基金supported by the National Natural Science Foundation of China (Nos.81171462 and 51062002)the Sichuan Youth Science & Technology Foundation for Distinguished Young Scholars (No.2012JQ0001)the Fundamental Research Funds for the Central Universities (Nos.SWJTU11CX078 and SWJTU12ZT08)
文摘CO2 and O2 were employed as reactive gases to fabricate carbon-doped titanium oxide films using DC reactive magnetron sputtering. Microstructure, composition and optical band gap of the films were investigated by X-ray diffraction, X-ray photoelectron spectroscopy, and UV-visible spectrophotometer, respectively. The results showed that carbon-doped titanium monoxide films (C-TiO) with a carbon concentration of 5.8 at.% were obtained in an AffCO2 mixed atmosphere. However, carbon-doped futile and anatase (C-TiO2) with a carbon concentration of about 1.4 at.% were obtained in an Ar/CO2/O2 mixed atmosphere. The optical band gaps of C-TiO and C-TiO2 were about 2.6 and 2.9 eV, respectively. Both of them were narrower than that of pure TiO2 films. Films with narrowed optical band gap energy are promising in promoting their photo-catalytic activity.
文摘Background:The HELIOS stent is a sirolimus-eluting stent with a biodegradable polymer and titanium oxide film as the tie-layer.The study aimed to evaluate the safety and efficacy of HELIOS stent in a real-world setting.Methods:The HELIOS registry is a prospective,multicenter,cohort study conducted at 38 centers across China between November 2018 and December 2019.A total of 3060 consecutive patients were enrolled after application of minimal inclusion and exclusion criteria.The primary endpoint was target lesion failure(TLF),defined as a composite of cardiac death,non-fatal target vessel myocardial infarction(MI),and clinically indicated target lesion revascularization(TLR)at 1-year follow-up.Kaplan-Meier methods were used to estimate the cumulative incidence of clinical events and construct survival curves.Results:A total of 2998(98.0%)patients completed the 1-year follow-up.The 1-year incidence of TLF was 3.10%(94/2998,95%closed interval:2.54-3.78%).The rates of cardiac death,non-fatal target vessel MI and clinically indicated TLR were 2.33%(70/2998),0.20%(6/2998),and 0.70%(21/2998),respectively.The rate of stent thrombosis was 0.33%(10/2998).Age≥60 years,diabetes mellitus,family history of coronary artery disease,acute myocardial infarction at admission,and device success were independent predictors of TLF at 1 year.Conclusion:The 1-year incidence rates of TLF and stent thrombosis were 3.10%and 0.33%,respectively,in patients treated with HELIOS stents.Our results provide clinical evidence for interventional cardiologists and policymakers to evaluate HELIOS stent.Clinical trial registration:ClinicalTrials.gov,NCT03916432.
文摘Background Drug-eluting stents(DES) with durable polymer have significantly reduced restenosis and target vessel revascularization compared with bare metal stents. Durable polymer has been linked with persistent inflammation of vessel wall and delayed endothelial healing that may increase the risk of late and very late stent thrombosis. This study sought to evaluate the efficacy and safety of HELLOS completed biodegradable polymer sirolimus-eluting stent (SES) in de novo coronary lesions.Methods Totally, 287 patients with one or two de novo coronary lesions (lesion length ≤38 mm and reference vessel diameter 2.5-4.0 mm) were enrolled in the HOPE study, a prospective, multicenter, randomized, non-inferiority trial. Patients were randomized to treatment either with HELIOS completed biodegradable polymer SES (n=142) or PARTNER durable polymer SES (n=145). The primary endpoint was angiographic in-stent late lumen loss (LLL) at 9-month follow-up. The secondary endpoint included stent thrombosis and major adverse cardiac events including cardiac death, myocardial infarction (MI) and target lesion revascularization (TLR).Results The 9-month in-stent LLL in the HELIOS group was similar to the PARTNER group, (0.16±0.22) mm vs. (0.19±0.30) mm (P=0.28). The difference and 95% confidence interval were -0.03 (-0.09, 0.04), and the P value for non-inferiority 〈0.01. Major adverse cardiovascular event (MACE) occurred in 7.9% vs. 8.2%, MI in 2.4% vs. 3.0%, TLR in 5.5% vs. 3.0%, and stent thrombosis in 0 vs. 1.5%; and events were comparable between the HELIOS group and PARTNER aroup at three-year follow-up (all P 〉0.05). The three-year cardiac death was lower in the HELIOS group, butwith no significant difference, 0 vs. 3.0% (P=0.12). Conclusions In the HOPE trial, the novel completed biodegradable polymer SES HELIOS was non-inferior to the durable polymer SES PARTNER with respect to nine-month in-stent LLL in de novo coronary lesions. The incidence of other clinical endpoints was low for both of the stents in three-year follow-up.