【摘 要】
:
Gram-positive pathogens can colonize on mucosal tissues stably withstanding large mechanical disturbance from coughing and sneezing by secreting special surface adhesion proteins.However,how these proteins resist mechanical unfolding remains unknown.In a
【机 构】
:
State Key Laboratory of Supramolecular Structure and Materials,College of Chemistry,Jilin University
论文部分内容阅读
Gram-positive pathogens can colonize on mucosal tissues stably withstanding large mechanical disturbance from coughing and sneezing by secreting special surface adhesion proteins.However,how these proteins resist mechanical unfolding remains unknown.In a recent work,using single molecule force spectroscopy,Cao et al.
其他文献
The inhibition of the methanol crossover is one of the intractable challenges in the direct methanol fuel cell.The graphdiyne(GDY)with atomic-level pores shows great potential in realizing the zero-permeation of methanol molecules.In this paper,an ultrath
Graphdiyne(GDY),which is composed of sp2-/sp-hybridized carbon atoms,has attracted increasing attention.In the structure of GDY,the existence of large triangular-like pores,well dispersed electron-rich cavities as well as a large π-conjugated structure en
Graphdiyne(GDY)based atom catalysts(Acs)show extraordinary electrocatalytic activities towards hydrogen evolution reaction(HER)and water oxidation reaction(OER),which have attracted wide attention of scientists.However,a precise understanding on the activ
Detection of a trace amount of NO2 at room temperature has very important applications in air quality monitoring,protection of human health and medical diagnose.However,the existing NO2 sensors often suffer from low sensitivity when the concentration at t
The interface defects and nickel vacancies of the NiOx lead to interface charge recombination,which limits its application in perovskite solar cells.Here,graphdiyne oxide(GDYO)was added to NiOx as an inorganic hole transporting material.It is found that t
The fabrication of highly active and easily recyclable Pd-based catalyst is meaningful for their practical application.Herein,a Pd-based dip-catalyst(Pd@Pyr-GDY)is fabricated on graphdiyne(Pyr-GDY)grown on copper foam,and applied in the reduction of nitro
Development of aqueous rechargeable zinc ion battery is an important direction towards grid energy storage sought in various applications.At present,the efficient utilization of aqueous rechargeable zinc ion batteries has been seriously affected due to th
Electrocatalysis has become an attractive strategy for the artificial reduction of CO2 to high-value chemicals.However,the design and development of highly selective and stable non-noble metal electrocatalysts that convert CO2 to CO are still a challenge.
Thanks to the large binding energy and excellent optical properties of Frenkel excitons,organic semiconductors emerge as ideal platforms for the realization of room-temperature exciton polariton(EP)Bose-Einstein condensates(BEC),which is of great importan
Prof.ZHANG Tierui and Prof.WANG Haotian recently demonstrated a room temperature electrochemical acetylene reduction strategy at the copper-based triple-phase interfaces[Nat.Catal.,2021,4(7),565-574].The conversion rate of acetylene reached 99.9%with over