International Journal of Green Chemistry

Open Access  Subscription or Fee Access

The green chemistry revolution is providing an enormous number of challenges to those who practice chemistry in industry, education and research. With these challenges however, there are an equal number of opportunities to discover and apply new chemistry, to improve the economics of chemical manufacturing and to enhance the much-tarnished image of chemistry. After introducing the concept of new sustainable chemical technologies and also including a brief assessment of green chemistry the relationship between catalysis and sustainable (green) chemistry is discussed and illustrated via an analysis of some selected and relevant examples. Emphasis is also given to the concept of catalytic technologies for scaling-down chemical processes, in order to develop sustainable production processes which reduce the impact on the environment to an acceptable level that allows self-depuration processes of the living environment. Keywords: Catalysis, sustainable chemistry, green chemistry, catalytic processes

Anastas PT, Williamson TC. Green Chemistry: frontiers in benign chemical syntheses and processes. Oxford University Press. 1998.

Tundo P, Anastas P. Green Chemistry: Challenging Perspectives, Ed. 1999.

Clark JH, Rhodes CN. Clean Synthesis Using Porous Inorganic Solid Catalysts and Supported Reagents. RSC Clean Technology Monographs. 2000.

Wong, L.S., Thirlway J, Micklefield J. J. Am. Chem. Soc. 2008; 130: 12456–64p.

Berna, B.M., Batista, F. Enzyme Immobilization Litera Survey Metho in Biotechnol. 2006; 15–30p.

Chae, H.J. Appl. Biochem. Biotechnol. 1998; 173: 95p.

Quirk, R.A. Biomaterials. 2001; 865p.

Gale, E.F. Epps MR. Biochem J. 1944; 232–42p.

Langmuir, I. Schaefer VJ. J Am Chem Soc., 1938; 1351– 60p.

Kim, J. Grate JW, Wang P. Nanobiocata and Its Potential Applicat. 2008; 639–46p.

Wong LS, Thirlway J, Micklefield J. J. Am. Chem. Soc. 2008; 12456–64p.

Ghous T. Jn Chem. Soc. Pak. 2001.

Bernfeld P, Wan J. Antigens And Enzymes Made Insoluble By Entrapping Them in to the Lattices Of Synthetic Polymers Science. 1963; 678–79p.

Riaz A, Qader S, Anwar A, et al. Aust. J. Basic & Appl. Sci. 2009; 2883p.

Rosevear A. Immob Enzym and Cells. 1987.

Brady D, Jordan A. Adv. in Enzyme Immob Biotechol Lett. 2009; 1639–50p.

Tanyolac D, Yuruksoy BI, Ozdural A.R. Biochem Eng J. 1998; 179–86p.

Tosa T, Mori T, Fuse N., et al. Enzymologia. 1966; 214–24p.

Porath J. Protein expr. Purif. 1992; 263–81p.

Yücel Y. Bio Techno. 2011; 3977–80p.

Figueras F. Catal Rev Sci Eng. 1988; 457p.

Sterte J. Catal. Today. 1988; 219p.

Suib SL. Chem. Rev. 1993; 803p.

Sheldon RA, Kochi JK. Metal-Cataly Oxida of Organic Compo.1981.

Chauvel A, Delmon A, Hölderich WF. Appl. Catal. A: General. 1994; 173–277p.

Bader P, Baumeister HU. Blaser Chimia. 1996; 99–105p.

Mossettig E, Mozingo R. Org. React. 1948; 362p.

Ratton S. Chem. Today. 1997; 33–37p.

Yokoyama T, Setoyama T, Fujita N, Nakajima M, Maki T. Appl. Catal. A: General. 1992; 149–61p.

Straatho AJJ, Panke FS, Schmid A. Curr. Opin. Biotechnol. 2002; 548–56p.

Powell KA, Ramer SW, Del SP, et al. Chem. Int. Ed. 2001; 3948–59p.

Wegman MA, Janssen MHA, Rantwijk FV, et al. Adv Synth. Catal. 2001; 559–76p.

Bruggink A, Roos EC, Vroom ED. Org. Proc. Res. Dev. 1998; 128–33p.

Ullmann’s Encyclopedia of Industrial Chemistry. 1995; 302–4p.

Sheldon RA. Chirotechnology: The Industrial Synthesis of Optically Active Compounds. 1993.

Komobayashi H. Recl. Trav. Chim. Pays-Bas. 1996; 201–10p.

Blaser HU. Adv. Synth. Catal. 2002; 17–31p.