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Hydrogen networks

The choice of tridentate amine has a critical impact on the coordination mode of the ambidentate nitrite ligand, N02.499,500 Complexes with substituted tri- and tetraamines have shown that bulky substituents may prevent the formation of the -N02 bridged polymeric complexes, and the intramolecular hydrogen network may stabilize N coordination of nitrite. [Pg.288]

Bayer (2005). Bayer to Invest in Hydrogen Network, www.bayertechnology.com. [Pg.306]

What MICANET represents on the nuclear side, this is the Hydrogen Network HYNET on the hydrogen side. HYNET was established in 1999 and created in 2002 as a Thematic Network within FP5 with initially 12 partners. It is working on the development of strategies for the introduction of a European hydrogen fuel infrastmeture. [Pg.114]

In Table 2 is presented the modulus evolution between 2 to 6 ageing weeks, after processing, for different multiphase systems. We can show that the introduction of fibres into the TPS matrix provokes a drastic decrease of this ageing. This is due to the fibre-matrix interactions which can create a physical 3D network (hydrogen network). These H bonds may stabilize the materials. Besides, we have tested the T PS-fi bres-polyester system to obtain a better water... [Pg.257]

The second auxiliary process affecting the production network is a breakdown of the hydrogen network which immediately affects all plants consuming or producing hydrogen. This includes the cracker. Benzene production, and Styrene production. The following... [Pg.158]

Linnhoff proposed the heat integration and synthesis of heat exchanger networks (HENs) [52], It is well known as pinch technology. The graphical and numerical techniques have been well developed [55], This technique has been extended for mass-exchange networks like water networks and hydrogen networks [52]. These are not considered here. [Pg.152]

NRW Fuel Cell and Hydrogen Network http //www.Juelcdl-nrw.de/... [Pg.1125]

Ziolek, A. (2008) Activities of the fuel cell hydrogen network North Rhine-Westphalia. Presented at IPHE, http //anviv.iphe.net/docs/Meetings/ Germany 2-08/Activities Rhine-Westphalia.pdf (last accessed 8 February 2011). [Pg.1146]

Fig. 32. Merlinoite-K. (a) Potassium hydrogen network in an as-synthesized sample (b) Deformed MER cage and a double 8-ring with potassium locations in the dehydrated sample [01 S3]. Fig. 32. Merlinoite-K. (a) Potassium hydrogen network in an as-synthesized sample (b) Deformed MER cage and a double 8-ring with potassium locations in the dehydrated sample [01 S3].
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Assisted Hydrogen-Bonded Networks

California Hydrogen Highway Network

Carbon nanotube networks hydrogen bond acidic

Carbon, hydrogen, oxygen symbiosis network

Carbonic anhydrase hydrogen bond network

Coordination networks hydrogen bonded second sphere

Crystallography hydrogen-bond networks

Cyclodextrins as Model Compounds to Study Hydrogen-Bonding Networks

Descriptions of Hydrogen Bonding Networks

Diastereomeric crystals hydrogen bond networks

Electronic properties of hydrogen bond networks

Honeycomb networks hydrogen-bonded

Host-guest networks hydrogen-bonded

Hydrogen Bonded Network Structures Constructed from Molecular Hosts Hardie

Hydrogen Network Optimization

Hydrogen binding networks

Hydrogen bond network

Hydrogen bond network being percolating

Hydrogen bond network fluctuations

Hydrogen bond network protein

Hydrogen bonding network

Hydrogen bonds network, polarized water

Hydrogen delivery networks using organic hydrides

Hydrogen networks, partners

Hydrogen peroxide electrodes based networks

Hydrogen-Bonded Networks Constructed with 5-Nitrobarbiturate

Hydrogen-bond network rearrangement dynamics

Hydrogen-bond network, slow relaxation

Hydrogen-bonded interpenetrating polymer networks

Hydrogen-bonded network

Hydrogen-bonded network in carbonic anhydrase

Hydrogen-bonded network in proteins

Hydrogen-bonded network materials

Hydrogen-bonded networks design strategies

Hydrogen-bonding networks, bile acid

Hydrogen-bridge network

Hydrogen-hond network

Interpenetrating networks hydrogen bonding

Ligands hydrogen bond networks

Nanoporous hydrogen-bonded networks

Network structure hydrogenation

Networks Hydrogen-bonded network

Recovery from a Mixed Hydrogen-NG Network

Recovery of Hydrogen from the Natural Gas Network

Supramolecular polymer networks hydrogen bonding

Synthetic polymer gels hydrogen bond networks

Trypsin hydrogen-bonding network, structur

Water Molecules and their Dense Hydrogen Bond Networks

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