Multifunctional phototheranostic nanomedicine for cancer imaging and treatment

“…effect of GO, puncture effect of Ag NPs, and inhibitory effect of SD. This study provides new insights into the design and fabrication of surface-modified GO and carbon materials [39][40][41][42][43] and their 2D hybrid multifunctional materials for advanced applications including biomedical 44 especially antibacterial applications, broadening the design and application scope of carbon and 2D materials.…”

Triple-synergistic 2D material-based dual-delivery antibiotic platform

“…effect of GO, puncture effect of Ag NPs, and inhibitory effect of SD. This study provides new insights into the design and fabrication of surface-modified GO and carbon materials [39][40][41][42][43] and their 2D hybrid multifunctional materials for advanced applications including biomedical 44 especially antibacterial applications, broadening the design and application scope of carbon and 2D materials.…”

Triple-synergistic 2D material-based dual-delivery antibiotic platform

“…He therapy (PTT) and photodynamic therapy (PDT), have also exhibited promising potential in oncotherapy due to their high selectivity, low side-effects, and negligible drug resistance. [11][12][13][14] Rapid developments in nanomaterials and nanotechnology have provided a vast material reservoir for use in cancer nanomedicine, which mainly include mesoporous silica, 15 metal chalcogenides, 16 upconversion materials, 17 MXenes, 18,19 carbonbased materials, 20,21 semiconducting polymers, 22,23 and liposomes. 24 The design, synthesis, and applications of advanced porous materials with specic structures at the micron-and nanoscales have been a research hotspot in various scientic elds; [25][26][27][28][29][30] further, the development of porous materials ranging from traditional inorganic materials (such as zeolites, silicas, and activated carbons) to organic-inorganic hybrid porous materials (such as metal-organic cages (MOCs), 31 coordination polymers (CPs), 32 and metal-organic frameworks (MOFs)).…”

Nanoscale covalent organic frameworks as theranostic platforms for oncotherapy: synthesis, functionalization, and applications

“…3 Owing to the non-invasive, high precision and controllable nature of light, optical-based phototheranostics have garnered increasing attention of late. [4][5][6] In these systems, the near-infrared (NIR) optical window (650-1700 nm) has been frequently targeted in an effort to achieve desirable deep tissue light penetration and high resolution imaging with good sensitivity. 7,8 Previous systems have adopted an "assembly" approach that combines various imaging/therapeutic components into one platform.…”

Rational design of an “all-in-one” phototheranostic