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References Zielinska A., Skwarek E., Gazda M., Zaleska A., Hupka J., Preparation of silver nanoparticles with controlled particle size, Procedia Chemistry 1 (2009) 1560-1566. Kelsall R. W., Hamley I. W., Geoghegan M., K. Kurzydłowski [Ed.], Nanotechnologie, PWN, Warszawa 2008. Rujitanaroj P., Pimpha N., Supaphol P.: Wound-dressing materials with antibacterial activity from electrospun gelatin fiber mats containing silver nanoparticles. Polymer 49 (2008), pp. 4723-4732. Davies R. L., Etris S. F.: The Tdevelopment and functions of silver in water purification and

, Obaleye JA, Amolegbe SA, Adediji JF, Bamigboye MO. Biological activities of some Fluoroquinolones-metal complexes. International Journal of Medicine and Biomedical Research 2012;1:24-34. 5. Baenziger NC, Fox Jnr CL, Modak SL. The Structure of Silver Pefloxacin, an Antibiotic Related to Nalidixic Acid. Acta Crystallogr C 1986;42:1505–1509. 6. Li YX, Chen ZF, Xiong RG, Xue Z, Ju HX, You XZ. A mononuclear complex of norfloxacin with silver(I) and its properties. Inorg Chem Commun 2003;6:819-822. 7. Rai MK, Deshmukh SD, Ingle AP, Gade AK. Silver nanoparticles: the powerful

References [1] Silver S, Phung LT, Silver G. Silver as biocides in burn and wound dressings and bacterial resistance to silver compounds. J Ind Microbiol Biotechnol. 2006;33(7)627-634. DOI: 10.1007/s10295-006-0139-7. [2] Massarsky A, Trudeau VL, Moon TW. Predicting the environmental impact of nanosilver. Environ Toxicol Pharmacol. 2014;38(3):861-873. DOI: 10.1016/j.etap.2014.10.006. [3] Quadros ME, Marr LC. Environmental and human health risks of aerosolized silver nanoparticles. J Air Waste Manage Assoc. 2010;60(7):770-781. https

kształtowanie się rynku drewna jodłowego w Polsce. Rozprawa doktorska. SGGW, Warszawa. Krzysik F. 1939. Zagadnienie surowca brzozowego. Las Polski , 3: 105-110. Krzysik F. 1978. Nauka o drewnie. Warszawa, PWN. Lachowicz H. 2008. Zmienność jakości technicznej drewna brzozy brodawkowatej ( Betula pendula Roth.) w północno-wschodniej Polsce. Rozprawa doktorska. SGGW, Warszawa. Lachowicz H. 2008a. Tensile strength parallel to the grain of silver birch wood in north-eastern Poland. Annals of Warsaw University of Life Sciences - SGGW. Forestry and Wood Technology , 64: 5

. ISBN: 80-247-1851-0 Novotný, J. (2015) Commodity investment model and its signifikance for investors. UK: University of Oxford. EuropeanScientific Institute – International ScientificForum (ISF), pp. 68-78. ISBN: 978-608-4642-42-8 Novotný, J., Kruml, L. (2016) The investment potential of silver. Mezinárodní vědecká konference – Hradecké ekonomické dny. Novotný, J., Polách, J. Investment of temporarily free resources of Czech seniors – present and perspectives. International Journal of Entrepreneurial Knowledge (IJEK), s. 25-38. ISSN: 2336-2952 Pavlát, V. (2013

References BANKURA, K.P., MAITY, D., MOLLICK, M.M.R., MONDAL, D., BHOWMICK, B., BAIN, M.K., CHAKRABORTY, A., SARKAR, J., ACHARYA, K., CHATTOPADHYAY, D.: Synthesis, characterization and antimicrobial activity of dextran stabilized silver nanoparticles in aqueous medium. Carbohydr. Polym., 89, 2012, 1159- 1165 CASTRO, L., BLÁZQUEZ, M.L., GONZÁLEZ, F., MUÑOZ, J.A., BALLESTER, A.: Extracellular biosynthesis of gold nanoparticles using sugar beet pulp. Chem. Eng. J., 164, 2010, 92-97. CASTRO, L., BLÁZQUEZ, M.L., MUÑOZ, J.A., GONZÁLEZ, F., BALLESTER, A.: Biological

References 1. UMG ABS, LTD.: Molding Defects - Silver marks, [quoted 2014-03-16]. Available on the internet: www.umgabs.co.jp/en/trouble/molding.html 2. HOWE B., UL IDES: Dry vs. Conditioned Polyamide Nylon Explained. [quoted 2014-03-18]. Available on the internet: www.articles.ides.com/dry_conditioned.asp <http://www.articles.ides.com/dry_conditioned.asp> 3. Santa Clara University Design Center: Silver Streak, Available on the Internet: www.dc.engr.scu.edu/cmdoc/dg_doc/develop/trouble/streaks/fh000001.htm 4. Taizhou Huangyan Micon Plastic Mould Co., Ltd

References 1. Bugla - Ploskońska G., Oleszkiewicz A.: The biological activity of silver and its applicationin medicine. http://ag123.pl/Biologiczna-aktywnosc-srebra-i-jego-zastosowanie-w-medycynie.html 2. Swieczko-Zurek B., Palubicka A., Bogdanski M., Krzeminski M.: Degradation of metal implants covered with silver. Eng. Biomaterials 99-101 (2010), 58-60. 3. Schierholz J., Lucas L.J., Rump A., Pulverer G.: Efficiency of silver-coated medical devices. J. Hosp.Infect. 40 (1998), 257-262. 4. Ennever F.K., 1994. Metals. Principles and methods of toxicology. Raven

LITERATURE CITED 1. Li, W.R., Xie, X.B., Shi, Q.S., Zeng, H.Y., Ou-Yang, Y.S. & Chen, Y.B. (2010).Antibacterial activity and mechanism of silver nanoparticles on Escherichia coli. Appl. Microbiol. Biotechnol . 85, 1115–1122. DOI: 10.1007/s00253-009-2159-5. 2. Lubick, N. (2008). Nanosilver toxicity: ions, nanoparticles—or both? Environ. Sci. Technol . 42, 8617–8617. DOI: 10.1021/es8026314. 3. Leung, B.O., Jalilehvand, F., Mah, V., Parvez, M. & Wu, Q. (2013). Silver(I) Complex Formation with Cysteine, Penicillamine, and Glutathione. Inorg. Chem . 52, 4593

naukowo-technicznego pt. "Odbudowa lasów w Sudetach", Szklarska Poręba, 1-2 października 1998. Mejnartowicz L. 2004 a. Genetic Analysis of Silver-fir Populations in the North Carpathian and Sudeten Mountains. Acta Societatis Botanicorum Poloniae , 73 (4): 285-292. Mejnartowicz L. 2004 b. North-Carpathians and Sudeten Silver-fir Genetic Variation and Diversity. Mitteilungen aus der Forshungsanstalt für Waldökologie und Forstwirtschaft Rheinland-Pfalz , 52 : 169-180. Skrzyszewska K. 1999. Wartość genetyczno-hodowlana jodły pospolitej ( Abies alba Mill