EDTA interfacial chelation Ca^(2+) incorporates superhydrophobic coating for scaling inhibition of CaCO_(3) in petroleum industry

In this paper,the superhydrophobic poly(vinylidene fuoride)/fuorinated ethylene propylene/SiO_(2)/CNTs-EDTA(PFSCEDTA)composite coating was successfully fabricated and applied for anti-scaling performance.The deposition of CaCO_(3) on the surface of the superhydrophobic PFSC-EDTA composite coating reached 0.0444 mg/cm^(2) for 192-h immersion into the supersaturated CaCO_(3) solution,which was only 11.4%that of the superhydrophobic PFSC composite coating.At the interface between the CaCO_(3) solution and the PFSC-EDTA coating,the Ca^(2+)could be frstly chelated by EDTA that was beneft for improving the anti-scaling performance of the superhydrophobic PFSC-EDTA composite coating.In another hand,the addition of EDTA to the CNTs played an important role in fabricating the SiO_(2)-centric and CNTs-EDTA-surrounded multilevel micro-nanostructure in the superhydrophobic PFSC-EDTA composite coating,in favor of maintaining the air flm under the water and the stability of the superhydrophobic surface.The research supplies a new way of improving antiscaling performance of superhydrophobic coating by incorporating the organic chelating agent at the interface and changing the traditional way of scale prevention.

Prognostic analysis of patients with combined hepatocellularcholangiocarcinoma after radical resection:A retrospective multicenter cohort study

BACKGROUND Combined hepatocellular-cholangiocarcinoma(cHCC-CCA)is a form of rare primary liver cancer that combines intrahepatic cholangiocarcinoma(ICC)and hepatocellular carcinoma.AIM To investigate overall survival(OS)and recurrence-free survival(RFS)after radical resection in patients with cHCC-CCA,and the clinicopathological factors affecting prognosis in two center hospitals of China.METHODS We reviewed consecutive patients with cHCC-CCA who received radical resection between January 2005 and September 2021 at Peking Union Medical College and the 5th Medical Center of the PLA General Hospital retrospectively.Regular follow-up and clinicopathological characteristics were systematic collected for baseline and prognostic analysis.RESULTS Our study included 95 patients who received radical resection.The majority of these patients were male and 82.7%of these patients were infected with HBV.The mean tumor size was 4.5 cm,and approximately 40%of patients had more than one lesion.The median OS was 26.8(95%CI:18.5-43.0)mo,and the median RFS was 7.27(95%CI:5.83-10.3)mo.Independent predictors of OS were CA19-9≥37 U/mL(HR=8.68,P=0.002),Child-Pugh score>5(HR=5.52,P=0.027),tumor number>1(HR=30.85,P=0.002),tumor size and transarterial chemoembolization(TACE)after surgery(HR=0.2,P=0.005).CONCLUSION The overall postoperative survival of cHCC-CCA patients is poor,and most patients experience relapse within a short period of time after surgery.Preoperative tumor biomarker(CA19-9,alphafetoprotein)levels,tumor size,and Child-Pugh score can significantly affect OS.Adjuvant TACE after surgery prolongs RFS,suggesting that TACE is a possible option for postoperative adjuvant therapy in patients with cHCC-CCA.

Surface lurking and interfacial ion release strategy for fabricating a superhydrophobic coating with scaling inhibition

The design and manufacture of anti-scaling surface is a prospective way to prevent scaling in oil field.In this work,a novel superhydrophobic Cu^(2+)-loaded and DTPMPA-modified anodized copper oxide(S-Cu^(2+)/D-ACO)coating was fabricated by modification of 1H,1H,2H,2H-perfluorodecyltriethoxysilane.The valid storing of scale inhibitors at the coating surface and the interfacial release of Cu^(2+)ions contribute to enhancing the anti-scaling of the S-Cu^(2+)/D-ACO coating.The water contact angle of the S-Cu^(2+)/D-ACO coating is 163.03°and exhibits superhydrophobicity,which makes it difficult for CaCO_(3)to deposit at the surface of the coating.DTPMPA will steadily lurk into the inner space,and Cu^(2+)will be loaded at the interface in the form of the DTPMPA:Cu^(2+)chelate.During the deposition of CaCO_(3),the dynamic release of DTPMPA can be realized by transferring DTPMPA:Cu^(2+)to DTPMPA:Ca^(2+).Interestingly,the released Cu^(2+)hinders the active growth of CaCO_(3).After 48 h of scaling,the mass of CaCO_(3)scale at the S-Cu^(2+)/D-ACO coating surface is only 44.1%that of the anodized copper oxide coating.The excellent anti-scaling performance of the S-Cu^(2+)/D-ACO coating is determined by the synergistic effect of the DTPMPA lurking and dynamic release,as well as the Cu^(2+)inhibition at the interface of superhydrophobic coating and against CaCO_(3)deposition.This research provides a new exploration for designing and fabricating anti-scaling superhydrophobic surface for oil field development.