Such porous microstructure possesses high inner surface areas and large cavities, imparting the MXene monoliths with preeminent performance in the fields of electrochemistry, EMI shielding/EMW absorption, and piezoresistive sensing, as well as, in turn, the accommodation of other functional materials. ...
Higher surface areas and greater numbers of smaller pores lead to an increase in potential interaction sites for the analytes in the mobile phase, therefore, in theory, leading to better separation efficiencies. While smaller pores are important for separation, the presence of larger pores is ...