inorganic chemistry

field theory or on the interpretation of valence-bond state corre- lation diagrams turn out to be extremely useful for the discu ...

The requirement of spin conservation also seems to be controlling the rates of energy transfer processes, which is directly rele ...

employing quinone cofactors as the primary electron acceptors in photosynthetic reaction centers, which helps to avoid unproduc- ...

important topics in biomimetic chemistry( 183 ). Detailed knowl- edge about O 2 activation at metal sites opens the scene for hi ...

precursors for more highly oxidized iron–oxygen species which are formed in the course of an O-O bond cleavage process starting ...

For certain reasons described elsewhere in more detail(8,93), our first choice fell on the combination of tetrapyrrole photosens ...

photoreactions of the corresponding bismuth corrole catalysts are shown in Fig. 22 ( 191 ). In this context, it is very interest ...

C.4. Release of bioactive molecules The selective activation of compounds with potential therapeu- tic effects and the controlle ...

the sensitization of related CO-releasing molecules (CORMs) into the red and NIR spectral region to be able to better match the ...

well-suitable for an oxidative nucleobase damage involving PET steps. Further, we speculated about possible synergistic effects, ...

excited state opened the possibility of a selective photodamage of the purine nucleobase guanine (G) under long-wavelength irrad ...

The conception of this functional enzyme mimetic is based on a combination of several individual key steps already discussed in ...

V. Concluding Remarks Photoreactivity is a common feature of many components of biological systems and their synthetic functiona ...

regarded as toxic or carcinogenic, and reactions involving ruthe- nium complexes should therefore be considered at least as envi ...

The current state of the art in inorganic photochemistry already offers a large number of possibilities for the development of s ...

Knör, G.Chem. Eur. J.2009, 15 , 568. Stochel, G.; Brindell, M.; Macyk, W.; Stasicka, Z.; Szaciłowski, K.Bio- inorganic Photoche ...

Lukyanov, K. A.; Serebrovskaya, E. O.; Lukyanov, S.; Chudakov, D. M. Photochem. Photobiol. Sci.2010, 9 , 1301. Begley, T. P.Acc ...

Pantoliano, M. W.; Valentine, J. S.; Nafie, L. A.J. Am. Chem. Soc.1982, 104 , 6310. Gamelin, D. R.; Randall, D. W.; Hay, M. T.; ...

Schönberg, A.; Schenck, G. O.; Neumüller, O.-A.Preparative Organic Photochemistry. Springer: New York, 1968 , p. 559. Vogler, A ...

Hatchard, C. G.; Parker, C. A.Proc. R. Soc. Lond. Ser. A1956,235A, 518. Gould, I. R.; Lenhard, J. R.; Muenter, A. A.; Godleski, ...