organic chemistryreviewother polycyclic compoundsReview: 148 refs.Daniel R. DreyerGrapheaAlexander D. ToddGrapheaChristopher W. BielawskiGrapheaChemInformDreyer, D.R., A.D. Todd, and C.W. Bielawski, Harnessing the chemistry of graphene oxide. Chemical Society Reviews, 2014. 43(15): p. 5288-...
Harnessing the chemistry of graphene oxide 共14页 引文148篇 Daniel R. Dreyer,a Alexander D. Todd b and Christopher W. Bielawski*abc DOI: 10.1039/c4cs00060a Our understanding of the fundamental structure and bonding of graphene oxide (GO) as well as the scope of its utility have grown tremen...
We must harness the rivers which overflow annually.我们必须治理那些每年泛滥的河流。 If you can harness your energy, you will accomplish a great deal.如果你能控制你的精力,你将获得巨大成功 权威例句 Harnessing the chemistry of graphene oxide.P2P - Harnessing the Power of Disruptive TechnologiesExplaini...
We must harness the rivers which overflow annually. 我们必须治理那些每年泛滥的河流。 If you can harness your energy, you will accomplish a great deal. 如果你能控制你的精力,你将获得巨大成功 权威例句 Harnessing the chemistry of graphene oxide. ...
The functionalization of biochar materials involves surface chemistry and porosity modifications, achieved through techniques like templating, chemical activation, metal impregnation, or heteroatom doping. These modifications substantially enhance the catalytic activity, energy storage capacity, and cycling ...
and tunable surface chemistry. In this regard, chemical activation is one of the most highly praised and compatible strategies for synthesizing porous carbon in energy storage applications. Nevertheless, the most challenging issue to reconcile has been using environmentally hazardous, unsustainable activators...
Currently, he is an associate professor at the Institute for Frontier Materials of Deakin University. His research focuses on the chemistry and electron properties of graphene oxide and its applications for environmental and energy applications, as well as supramolecular assembly for light harvesting....
Although nanotechnology often addresses biomedical needs, nanoscale tools can also facilitate broad biological discovery. Nanoscale delivery, imaging, biosensing, and bioreactor technologies may address unmet questions at the interface between chemistry
Low-dimensional van der Waals (vdW) materials can harness tightly confined polaritonic waves to deliver unique advantages for nanophotonic biosensing. The reduced dimensionality of vdW materials, as in the case of two-dimensional graphene, can greatly en
Chemo-PTT, which combines chemotherapy with photothermal therapy, offers a viable approach for the complete tumor eradication but would likely fail in drug-resistant situations if conventional chemotherapeutic agents are used. Here we show that a type of