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2017年法拉第讨论:多孔结晶材料的新方向(New directions in porous crystalline materials: Faraday Discussion)
2017年 法拉第讨论 多孔结晶材料的新方向
2017/3/9
etal-organic frameworks (MOFs), covalent-organic frameworks (COFs), and related molecular porous materials have entered a stage where not just the porosity, but other physical attributes are now playi...
2017年法拉第讨论:Bio-resources:feeding a sustainable chemical industry(Bio-resources:feeding a sustainable chemical industry:Faraday Discussion)
2017年 法拉第讨论 Bio-resources:feeding a sustainable chemical industry
2017/2/14
There is a rapid growth of interest in the use of renewable resources, and in particular bio-resources for the manufacture of future, sustainable chemicals and materials. The latest USDA report on th...
2017年法拉第讨论:超分子和固态化学中的卤素键合(Halogen Bonding in Supramolecular and Solid State Chemistry-Faraday Discussion)
2017年 法拉第讨论 超分子和固态化学中的卤素键合
2017/1/20
Halogen bonding is a topic which continues to gain increased international attention across the chemical, biochemical, and materials sciences - this non-covalent interaction receiving a formal IUPAC d...
2017年复杂分子表面和界面研讨会(Complex Molecular Surfaces and Interfaces Faraday Discussion)
2017年 复杂分子表面和界面 研讨会
2017/1/19
The unique behavior of compounds confined at interfaces can be very different from those in bulk situations. Advances in methods and their understanding for determination of the structure and chemical...
2017年法拉第讨论:电活性材料的化学物理(Chemical Physics of Electroactive Materials:Faraday Discussion)
2017年 法拉第讨论 电活性材料的化学物理
2017/1/19
There is currently a great interest in finding new ways of in situ control of structure and dynamical properties of materials at the micro and nano scales. One of the most attractive routes is to use ...
2017年法拉第讨论:大气化学(Atmospheric chemistry in the anthropocene:Faraday Discussion )
2017年 法拉第讨论 大气化学
2017/1/19
Human activities have greatly impacted the Earth system so much so that it has ushered in a new epoch - the Anthropocene. The consequent changes - observed and predicted – occur in the oceans, the ter...
Catalysis is a core area of contemporary science posing major fundamental and conceptual challenges, while being at the heart of the chemical industry.Catalysis for fuels is a major theme in chemical ...
2017年法拉第讨论:离子液体(Ionic liquids: from fundamental properties to practical applications-Faraday Discussion )
2017年 法拉第讨论 离子液体
2017/1/12
Over the last three years, there has been an increase in the range of ionic liquids (ILs) utilised and significant advances in our understanding of the fundamental aspects of these materials. Therefor...
Artificial photosynthesis has the potential to be one of the most promising sciences and technologies for solving the global environmental problems that may threaten the sustainability of humanity, ca...
Electrochemistry is undergoing a renaissance. It is unquestionably the science at the centre of energy technologies such as batteries, fuel cells and solar cells, and it plays a key role in widely use...
Catalysis is a core area of contemporary science posing major fundamental and conceptual challenges, while being at the heart of the chemical industry.
Aggregation Induced Emission: Faraday Discussion
Optoelectronic devices Biomedical applications
2016/7/22
Luminescent molecules with high efficiency in aggregate state are promising candidate materials for the development of organic light-emitting diodes, fluorescent sensors, solid-state lasers, etc.
Discussion of "Riemann manifold Langevin and Hamiltonian Monte Carlo methods'' by M. Girolami and B. Calderhead
Riemann manifold Langevin Hamiltonian Monte Carlo methods
2010/11/8
This technical report is the union of two contributions to the discussion of the Read Paper Riemann manifold Langevin and Hamiltonian Monte Carlo methods (Calderhead and Girolami, 2010), presented in ...
