Synthesis of Nanosheets from Layered Bismuth Oxide BiSrCaFeO without Using Organic Exfoliation Agents.

Bismuth oxide nanosheets were synthesized through the exfoliation of layered compounds without any organic exfoliation agents. The layered compound BiSrCaFeO, comprising Bi-O layers and Sr-Ca-Fe-O layers, was synthesized as the starting material. The Sr-Ca-Fe-O layers were selectively dissolved by shaking the compound in 0.

Feasibility and predictive factors on the completion of docetaxel plus S-1 adjuvant chemotherapy in pathological stage III gastric cancer.

Background: The standard adjuvant chemotherapy regimen for stage III gastric cancer is docetaxel plus S-1 (DS) based on the results of the START-II trials. However, in clinical practice some patients could not continue this intensive doublet chemotherapy because of limited tolerability. This study aimed to assess the practical feasibility of DS and elucidate the predictive factors for the completion of adjuvant DS therapy.

Sustainable Antibacterial Surface of Transparent PMMA Membranes with α-ZrP Nanosheets Adsorbing Tetraalkylammonium Ions.

We fabricated composite membranes containing inorganic nanosheets (NSs) and polymers and demonstrated their outstanding antibacterial performance against several opportunistic pathogens. Layered α-zirconium phosphate [Zr(HPO), α-ZrP] as a pristine compound of NS was exfoliated by ion-exchanging protons in the interlayer space of α-ZrP with bulky tetraalkylammonium ions (TRA: R = butyl, hexyl, and octyl). During the exfoliation process, TRA was electrostatically adsorbed onto α-ZrP NS with a negative surface charge (ZrP-TRA-NS).

Lattice Matching Anchoring of Hole-Selective Molecule on Halide Perovskite Surfaces for n-i-p Solar Cells.

Exploiting the self-assembled molecules (SAMs) as hole-selective contacts has been an effective strategy to improve the efficiency and long-term stability of perovskite solar cells (PSCs). Currently, research works are focusing on constructing SAMs on metal oxide surfaces in p-i-n PSCs, but realizing a stable and dense SAM contact on halide perovskite surfaces in n-i-p PSCs is still challenging. In this work, the hole-selective molecule for n-i-p device is developed featuring a terephthalic methylammonium core structure that possesses double-site anchoring ability and a matching diameter (6.