Polypyrrole/polyvinylalcohol(PPy/PVA) foam was prepared by direct foam polymerization in water and then it was coated on the indium-tin oxide transparent conductive glass(ITO) to form conventional three-electrode ...Polypyrrole/polyvinylalcohol(PPy/PVA) foam was prepared by direct foam polymerization in water and then it was coated on the indium-tin oxide transparent conductive glass(ITO) to form conventional three-electrode cell.FTIR and UV-vis spectra were adopted to characterize the molecular structure and the absorption spectra of foam material,respectively.The porous structure of PPy/PVA foams and their photoelectric conversion behaviors were studied.The dimension of the pores is bigger than 100μm in diameter.Compared with the smooth film,the V_(oc) and I_(sc) of the foam film enhanced by 1.58-fold and 5.59-fold,respectively.展开更多
The morbidity of lung cancer has increased rapidly in recent decades.Non-small cell lung cancer(NSCLC)accounts for 80%-85% of total lung cancer cases.The molecular mechanism associated with NSCLC remains unclear.Micro...The morbidity of lung cancer has increased rapidly in recent decades.Non-small cell lung cancer(NSCLC)accounts for 80%-85% of total lung cancer cases.The molecular mechanism associated with NSCLC remains unclear.MicroRNAs(miRNAs)play an important role at the post-transcriptional level.NSCLC-associated pathways targeted by NSCLC-related miRNAs(NSCLC-miRNAs)have not been fully investigated.In a previous study,we have demonstrated 10 miRNAs are overexpressed in NSCLC and can be used as biomarkers for NSCLC diagnosis.In the present study,we found that five of the 10 miRNAs were downregulated in several common cancers.We analyzed the protein classes,molecular functions,biological functions,and signaling pathways targeted by the 5 NSCLC-related miRNAs and four main canonical pathways,identifying potential new targets for future clinical applications.展开更多
基金supported by the National Natural Science Foundation of China(No.20773142,50533030)the National Research Fund for Fundamental Key Project(No.2006CB806200,2006CB932100 and 2007CB936403)863 project(No.2007AA032348 and 2008AA05Z308).
文摘Polypyrrole/polyvinylalcohol(PPy/PVA) foam was prepared by direct foam polymerization in water and then it was coated on the indium-tin oxide transparent conductive glass(ITO) to form conventional three-electrode cell.FTIR and UV-vis spectra were adopted to characterize the molecular structure and the absorption spectra of foam material,respectively.The porous structure of PPy/PVA foams and their photoelectric conversion behaviors were studied.The dimension of the pores is bigger than 100μm in diameter.Compared with the smooth film,the V_(oc) and I_(sc) of the foam film enhanced by 1.58-fold and 5.59-fold,respectively.
基金grants from the National Natural Science Foundation of China(No.81372394,81602158,81602156,and 81572321)and Tianjin Health and Family Planning Commission Foundation of Science and Technology(15KG142).This work was also supported by CSCO-Merck Serono Oncology Research Fund(Y-MX2015-092)and Tianjin Science Foundation(No.15JCYBJC28200).The funders had no role in study designin collection,analysis,and interpretation of data+1 种基金in the writing of the reportand in the decision to submit this article for publication.
文摘The morbidity of lung cancer has increased rapidly in recent decades.Non-small cell lung cancer(NSCLC)accounts for 80%-85% of total lung cancer cases.The molecular mechanism associated with NSCLC remains unclear.MicroRNAs(miRNAs)play an important role at the post-transcriptional level.NSCLC-associated pathways targeted by NSCLC-related miRNAs(NSCLC-miRNAs)have not been fully investigated.In a previous study,we have demonstrated 10 miRNAs are overexpressed in NSCLC and can be used as biomarkers for NSCLC diagnosis.In the present study,we found that five of the 10 miRNAs were downregulated in several common cancers.We analyzed the protein classes,molecular functions,biological functions,and signaling pathways targeted by the 5 NSCLC-related miRNAs and four main canonical pathways,identifying potential new targets for future clinical applications.
