Responsive nanocontainers have dual functions in targeted delivery of corrosion inhibitors and emulsion development of shale oil in oil and gas fields,exhibiting potential for simultaneously achieving metal protection...Responsive nanocontainers have dual functions in targeted delivery of corrosion inhibitors and emulsion development of shale oil in oil and gas fields,exhibiting potential for simultaneously achieving metal protection and efficient oil and gas development from a material perspective.Here,we propose the preparation of a pH-responsive nanocontainer,HMSNs-g-PDEAEMA(poly[2-(N,N-diethyl amino)ethyl-methacrylate](PDEAEMA)grafted onto hollow mesoporous spherical silica(HMSNs)),to integrate the delivery of 2-mercaptobenzothiazole(MBT)for targeted corrosion inhibition and the emulsification of oil as Pickering emulsifiers.Under acidic conditions(reduced pH value caused by localized corrosion or high concentration acidic gases),PDEAEMA chains are protonated and extended by electrostatic repulsion,exposing pores on HMSNs surface and allowing the controlled release of loaded MBT molecules.Once transforming into a neutral or alkaline environment,the responsive release of the MBT process is inhibited.After the fluid passes through the wellbore and enters the shale layer,the HMSNs-g-PDEAEMA nanocontainers act as Pickering emulsifiers to achieve emulsification.The emulsified oil can be extracted onto the ground more efficiently,and a following pH-responsive demulsification process can be achieved.Overall,through a pH-responsive nanocontainer material,the dual function of corrosion inhibition and emulsification in oil and gas development is possible to be simultaneously achieved.展开更多
The HGF/c-Met pathway plays an important role in the proliferation, invasion, angiogenesis, and metastasis of tumors. With the successful development of small molecule c-Met kinase inhibitors, this signal pathway has ...The HGF/c-Met pathway plays an important role in the proliferation, invasion, angiogenesis, and metastasis of tumors. With the successful development of small molecule c-Met kinase inhibitors, this signal pathway has become the focus of oncology research. In this review, we discuss the basic mechanism, targeted therapy, and early results of clinical trials of the HGF/c-Met pathway.展开更多
A well-conditioned spectral integration(SI)method is introduced,developed and applied to nth-order differential equations with variable coefficients and general boundary conditions.The approach is based on integral re...A well-conditioned spectral integration(SI)method is introduced,developed and applied to nth-order differential equations with variable coefficients and general boundary conditions.The approach is based on integral reformulation techniques which lead to almost banded linear matrices,and the main system to be solved is further banded by utilizing a Schur complement approach.Numerical experiments indicate the spectral integration method can solve high order equations efficiently,oscillatory problems accurately and is adaptable to large systems.Applications in Korteweg-de Vries(KdV)type and Kawahara equations are carried out to illustrate the proposed method is effective to complicated mathematical models.展开更多
基金financially supported by the National Natu-ral Science Foundation of China(Nos.52204066 and 52474020)the Shandong Province Youth Entrepreneurship Technology Sup-port Program for Higher Education Institutions(No.2023KJ060)the Fundamental Research Funds for the Central Universities(No.23CX06018A).
文摘Responsive nanocontainers have dual functions in targeted delivery of corrosion inhibitors and emulsion development of shale oil in oil and gas fields,exhibiting potential for simultaneously achieving metal protection and efficient oil and gas development from a material perspective.Here,we propose the preparation of a pH-responsive nanocontainer,HMSNs-g-PDEAEMA(poly[2-(N,N-diethyl amino)ethyl-methacrylate](PDEAEMA)grafted onto hollow mesoporous spherical silica(HMSNs)),to integrate the delivery of 2-mercaptobenzothiazole(MBT)for targeted corrosion inhibition and the emulsification of oil as Pickering emulsifiers.Under acidic conditions(reduced pH value caused by localized corrosion or high concentration acidic gases),PDEAEMA chains are protonated and extended by electrostatic repulsion,exposing pores on HMSNs surface and allowing the controlled release of loaded MBT molecules.Once transforming into a neutral or alkaline environment,the responsive release of the MBT process is inhibited.After the fluid passes through the wellbore and enters the shale layer,the HMSNs-g-PDEAEMA nanocontainers act as Pickering emulsifiers to achieve emulsification.The emulsified oil can be extracted onto the ground more efficiently,and a following pH-responsive demulsification process can be achieved.Overall,through a pH-responsive nanocontainer material,the dual function of corrosion inhibition and emulsification in oil and gas development is possible to be simultaneously achieved.
文摘The HGF/c-Met pathway plays an important role in the proliferation, invasion, angiogenesis, and metastasis of tumors. With the successful development of small molecule c-Met kinase inhibitors, this signal pathway has become the focus of oncology research. In this review, we discuss the basic mechanism, targeted therapy, and early results of clinical trials of the HGF/c-Met pathway.
文摘A well-conditioned spectral integration(SI)method is introduced,developed and applied to nth-order differential equations with variable coefficients and general boundary conditions.The approach is based on integral reformulation techniques which lead to almost banded linear matrices,and the main system to be solved is further banded by utilizing a Schur complement approach.Numerical experiments indicate the spectral integration method can solve high order equations efficiently,oscillatory problems accurately and is adaptable to large systems.Applications in Korteweg-de Vries(KdV)type and Kawahara equations are carried out to illustrate the proposed method is effective to complicated mathematical models.
