Znaczenie innowacji społecznych w gospodarce opartej na wiedzy w kontekście rozwiązań sektora obuwniczego

Abdouss M., Mousavi A., Shoushtari A., Haji A., Moshref B., (2012), Fabrication of chelating diethylenetriaminated PAN micro- and nano-fibres for heavy metal removal. “Chemical Industry &Chemical Engineering Quarterly”, vol. 18, pp. 27–34.

Adebajo M., Frost R., Kloprogge J., Carmody O., (2003), Porous Materials for oil spill cleanup: A revive of synthesis and absorbing properties, “Journal of Porous Materials”, vol. 10, pp. 159–170.

Aerts P., Ker R.F., De Clercq D., Ilsley D.W., Alexander R.M., (1995), The mechanical properties of the human heel pad: a paradox resolved, “Journal of Biomechanics”, vol. 28, no. 11, pp. 1299–1308.

Aftab M.N., Hameed A., Haq I., Run C., (2006), Biodegradation of Leather Waste by Enzymatic Treatment, “The Chinese Journal of Process Engineering”, vol. 6, no. 3, pp. 462–465.

Agustini C.B., Spier F., da Costa M., Gutterres M., (2018), Biogas production for anaerobic co-digestion of tannery solid wastes under presence and absence of the tanning agent, “Resources, Conservation and Recycling”, vol. 130, pp. 51–59.

Ahmad I., Kan C.W., (2017), Visible-Light-Driven, Dye-Sensitized TiO2 Photo-Catalyst for Self-Cleaning Cotton Fabrics, “Coatings”, vol. 7, no 11, p. 192.

Ahmad I., Kan C-W., Yao Z., (2019), Photoactive cotton fabric for UV protection and selfcleaning, “RSC Advances”, vol. 9, pp. 18106–18114.

Alderson A., Rasburn J., Ameer-Beg S., Mullarkey P.G., Perrie W., Evans K.E., (2000), An auxetic filter: a tuneable filter displaying enhanced size selectivity or defouling properties, “Industrial & Engineering Chemistry Research”, vol. 39, no. 3, pp. 654–665.

Alderson K.L., Pickles A.P., Neale P.J., Evans K.E., (1994), Auxetic polyethylene: the effect of a negative Poisson’s ratio on hardness, “Acta Metallurgica et Materialia”, vol. 42, pp. 2261–2266.

Alderson K.L., Webber R.S., Mohammed U.F., Murphy E., Evans K.E., (1997), An experimental study of ultrasonic attenuation in microporous polyethylene, “Applied Acoustics”, vol. 50, pp. 23–33.

All-European Industry Federation, (2012), Social and Environmental Report of the European Leather Industry, COTANCE.

Altangerel Z., Purev-Ochir B., Ganzorig A., Tsagaantsooj T., Lkhamsuren G., Choisuren A., Chimed G., (2020), Superhydrophobic modification and characterization of cashmere fiber surfaces by wet coating techniques of silica nanoparticles, “Surfaces and Interfaces”, vol. 19, 100533.

Amdouni S., Trabelsi A.B.H., Elasmi A.M., Chagtmi R., Haddad K., Jamaaoui F., Khedhira H., Chérif, C., (2021), Tannery fleshing wastes conversion into high value-added biofuels and biochars using pyrolysis process, “Fuel”, vol. 294, 120423.

Anjum S.A., Wang L., Farooq M., Xue L., Ali S., (2011), Fulvic acid application improves the maize performance under well- watered and drought conditions, “Journal of Agronomy and Crop Science”, vol. 197, pp. 409–417.

Ara K., Hama M., Akiba S., Koike K., Okisaka K., Hagura T., Kamiya T., Tomita F., (2006), Foot Odour Due to Microbial Metabolism and its Control, “Canadian Journal of Microbiology”, vol. 52, no. 4, pp. 357–364.

Arcibar-Orozco J.A., Barajas-Elias B.S., Caballero-Briones F., Nielsen L., Rangel-Mendez J.R., (2019), Hybrid carbon nanochromium composites prepared from chrome-tanned leather shavings for dye adsorption, “Water Air and Soil Pollution”, vol. 230, no. 142.

Ariaeenejad S., Kavousi K., Mamaghani A.S.A., Ghasemitabesh R., Hosseini Salekdeh G., (2022), Simultaneous hydrolysis of various protein-rich industrial wastes by a naturally evolved protease from tannery wastewater microbiota, “Science of The Total Environment”, vol. 815, 152796.

Assadpour E., Jafari S.M., (2019), Advances in spray-drying encapsulation of food bioactive ingredients: from microcapsules to nanocapsules, “Annual Review of Food Science and Technology”, vol. 10, pp. 103–131.

ASTM F1292-04, Standard Specification for Impact Attenuation of Surfacing Materials within the Use Zone of Playground Equipment, 2004.

ASTM F1614-06, Shock Attenuation Properties of Materials Systems for Athletic Footwear, American Society for Testing and Materials, 2006.

Avram G., Hysa E., (2022), Education, Knowledge and Data in the Context of the Sharing Economy, “The Sharing Economy in Europe”, Cham: Palgrave Macmillan, pp. 181–206.

Ayala-Zavala J.F., Soto-Valdez H., González-León A. et al., (2008), Microencapsulation of cinnamon leaf (Cinnamomum zeylanicum) and garlic (Allium sativum) oils in b-cyclodextrin, “Journal of Inclusion Phenomena and Macrocyclic Chemistry”, vol. 60, pp. 359–368.

Bacciarelli A., Kołodziejczyk M., Rybicki E., (2008), Wpływ nanocząstek srebra na funkcjonowanie organizmu człowieka, Materiały seminaryjne z XXIX Seminarium Polskich Kolorystów.

Bakshi P.S., Selvakumar D., Kadirvelu K., (2020), Chitosan as an environment friendly biomaterial – a review on recent modifications and applications, “International Journal of Biological Macromolecules”, vol. 150, pp. 1072–1083.

Bannet, E., (2007), Quixotes, Imitations and Transatlantic Genres. Eighteenth Century Studies, The Johns Hopkins University Press, Baltimowe, pp. 553–569.

Bansode S., Banarjee S., Gaikwad D., Jadhav S., Thorat R., (2010), Microencapsulation: A review, “International Journal of Pharmaceutical Sciences Review and Research”, vol. 1, no. 2, p. 43.

Bayramoðlu E.E., Gülümser G., Karaboz I., (2008), The Investigation of Antibacterial Activities of Some Essential Oils in Wet Blue Leather, “International Journal of Natural and Engineering Sciences”, vol. 2, no. 1, pp. 33–36.

Bayryamov S.G., (2020), Microencapsulation of natural oils by a coacervation technique using gelatin as shell material, “Journal of Chemical Technology and Metallurgy”, vol. 55, no. 6, pp. 1985–1989.

Bessadok B., Masri M., Brück T., Sadok S., (2017), Characterization of the Crude Alkaline Extracellular Protease of Yarrowia lipolytica YlTun15, “Journal of FisheriesSciences. com”, vol. 11, no. 4, pp. 19–24.

Best Available Techniques (BAT) Reference Document for Leather Tanning Joint Research Center Institute for Prospective Technological Studies Sustainable Production and Consumption Unit European IPPC Bureau 2013.

Bezerra F.M., Carmona O.G., Carmona C.G., Lis M.J., de Moraes F.F., (2016), Controlled release of microencapsulated citronella essential oil on cotton and polyester matrices, “Cellulose”, vol. 23, no. 2, pp. 1459–1470.

Bhullar S.K., Lala N.L., Ramkrishna S., (2015), Smart biomaterials – a review, “Reviews on Advanced Materials Science”, vol. 40, pp. 303–314.

Błuszkowski Ł., Midler D., (2007), Wywiad jako metoda badawcza, [in:] K. Kuciński (ed.), Doktoranci o metodologii nauk ekonomicznych, Szkoła Główna Handlowa, Warszawa, p. 211.

Bogey R., Gait analysis, updated 23.02.2023, Gait Analysis: Fundamentals, Methods Of Analysis, Normal Gait (medscape.com)

Boh B., Knez E., (2006), Microencapsulation of essential oils and phase change materials for applications in textiles products, “Indian Journal of Fibre and Textile Research”, vol. 31, no. 1, pp. 72–82.

Boh Podgornik B., Starešiníc M., (2016), Microencapsulation Technology and Applications in Added-Value Functional Textiles, “Physical Sciences Reviews”, vol. 1, no. 1, pp. 20150003.

Borkowska M., Gelleta-Mac I., (2009), Wady postawy i stóp u dzieci, Wydawnictwo PZWL, Warszawa.

Bufalo G., Florio C., Cinelli G., Lopez F., Cuomo F., Ambrosone L., (2018), Principles of minimal wrecking and maximum separation of solid waste to innovate tanning industries and reduce their environmental impact: The case of paperboard manufacture, “Journal of Cleaner Production”, vol. 174, pp. 324–332.

Bukowski A., Rudnicki S., Strycharz J., (2012), Społeczny wymiar innowacji, “Zarządzanie Publiczne” No 2(20), Uniwersytet Ekonomiczny w Krakowie, Kraków, pp. 14–15.

Carneiro VH., Meireles J., Puga H., (2013), Auxetic materials – a review, “Mater Sci – Poland”, vol. 31, pp. 561–571.

Central Statistical Office 2020, Statistical Yearbook of Industry 2019.

Chanana A., Kataria M.K., Sharma M., Bilandi A., (2013), Microencapsulation: Advantages in applications, “International Research Journal of Pharmacy”, vol. 4, no. 2, pp. 1–5.

Chan-Juan Z., Dan T., Ji-Huan H., (2018), What factors affect lotus effect?, “Thermal Science”, vol. 22, pp. 1737–1743.

Chauhan P., Kumar A., Bhushan B., (2019), Self-cleaning, stain-resistant and anti-bacterial superhydrophobic cotton fabric prepared by simple immersion technique, “Journal of Colloid and Interface Science”, vol. 535, pp. 66–74.

Chekkal I., Bianchi M., Remillat C., Becot F.X., Jaouen L., Scarpa F., (2010), Vibro-acoustic properties of auxetic open cell foam: model and experimental results, “Acta Acustica United Acustica”, vol. 96, pp. 266–274.

Cheng Q., Yan L., (2005), Nonwoven substrate finishing with essence microcapsules, “AATCC Review”, vol. 8, pp. 46–48.

Chi K-J., Schmitt D., (2005), Mechanical energy and effective foot mass during impact loading of walking and running, “Journal of Biomechanics “, vol. 38, no. 7, pp. 1387–1395.

Chirilă C., Crudu M., Deselnicu V., (2014), Comparative Study regarding Resistance of Wet-White and Wet-Blue Leather to the Growth of Fungi, “Leather and Footwear Journal”, vol. 14, no. 2, pp. 107–120.

Chirilă C., Deselnicu V., Berechet M.D., (2017), Footwear Protection against Fungi Using Thyme Essential Oil, “Leather and Footwear Journal”, vol. 17, no. 3, pp. 173–178.

Cho H., Seo D., Kim D.N., (2019), Mechanics of Auxetic Materials, [in:] Ch. Hsueh et al. (eds), Handbook of Mechanics of Materials, Springer, Singapore.

Choi J.B., Lakes R.S., (1996), Fracture toughness of re-entrant foam materials with a negative Poisson’s ratio: experiment and analysis, “International Journal of Fracture”, vol. 80, pp. 73–83.

Ciborowski R., (2012), Modele rozwoju innowacyjnego, [in:] Ekonomika i zarządzanie innowacjami w warunkach zrównoważonego rozwoju, edited by Andrzej H. Jasiński and Robert Ciborowski, Białystok, pp. 49–50.

Colla G., Hoagland L., Ruzzi M., Cardarelli M., Bonini P., Canaguier R., Rouphael Y., (2017), Biostimulant action of protein hydrolysates: unraveling their effects on plant physiology and microbiome, “Frontiers in Plant Science”, vol. 8, p. 2202.

Cross T.M., Hoffer K.W., Jones D.P., Kirschner P.B., Langvin E., Meschter J.C., US-9402439-B2, Auxetic structures and footwear with soles having auxetic structures.

Cuadros R., Solà A., Ollé I., Otero L., Bacardit A., (2016), Reducing the use of volatile organic compoundsin the leather industry, “Journal of the Society of Leather Technologists and Chemists Journal”, vol. 100, pp. 1–7.

Cuin T.A., Shabala S., (2007), Amino acids regulate salinity-induced potassium efflux in barley root epidermis, “Planta”, vol. 225, pp. 753–761.

Dąbrowska G., Zdziechowska E., (2015), The role of rhizobacteria in the stimulation of the growth and development processes and protection of plants against environmental factors, “Progress in Plant Protection”, vol. 55, no. 4, pp. 498–506.

Day E., Hahn M., (2020), Optimal footwear longitudinal bending stiffness to improve running economy is speed dependent, “Footwear Science”, vol. 12, no. 1, pp. 3–13.

De Castro Dutra F., Emrich M., Magela da Costa G., Dias A., (2016), Influence of drying temperature and atmosphere on the mechanical strength of iron-ore agglomerates and sodium silicates for application in sintering processes, “The Canadian Journal of Chemical Engineering”, vol. 94, pp. 75–80.

Dega W., Milanowska K., (1993), Rehabilitacja medyczna, Warszawa.

Deselnicu D.C., Vasilescu A.M., Purcarea A.A., Militaru G., (2014), Sustainable Consumption and Production in the Footwear Sector, “Leather and Footwear Journal”, vol. 14, no. 3, pp. 159–180.

Devi N., Sarmah M., Khatun B., Maji T., (2017), Encapsulation of active ingredients in polysaccharide-protein complex coacervates, “Advances in colloid and interface science”, vol. 239, pp. 136–145.

Diaa M., Hassabo A.G., (2022), Self-Cleaning Properties of Cellulosic Fabrics (A Review), “Biointerface Research in Applied Chemistry”, vol. 12, pp. 1847–1855.

Ding C., Zhang M., Dai L., Qi Y., Shi R., Yang J., (2017), Fabrication and characterization of regenerated leather using chrome shavings raw material, “The Journal of the American Leather Chemists Association”, vol. 112, pp. 145–152.

Document for the Best Available Technology: Leather tanning, Joint Research Center Institute for Prospective Technological Studies, Sustainable Production and Consumption Unit European IPPC Bureau 2013.

Domański W., Surgiewicz J., (2001), Chemical hazards in the tanning industry, “WORK SAFETY science and practice”, vol. 4, pp. 6–9.

Domínguez A., Deive F. J., Angeles Sanromán M., Longo M. A., (2010). Biodegradation and utilization of waste cooking oil by Yarrowia lipolytica CECT 1240. European Journal of Lipid Science and Technology, 112(11), pp. 1200–1208.

Domoradzki M., Korpal W., (2005), Dobór materiałów do otoczkowania nasion rzodkiewki roztworem dekstryny, “Inżynieria Rolnicza”, vol. 11, no. 71, pp. 69–74.

Donoghue J.P., Alderson K.L., Evans K.E., (2009), The fracture toughness of composite laminates with a negative Poisson’s ratio, “Physica Status Solidi B.”, vol. 246, pp. 2011–2017.

Drucker P., (1992), Innowacja i przedsiębiorczość. Praktyka i zasady, PWE, Warsaw, p. 153.

Duda I., (2005), Comfort and safety issues in footwear, “Scientific Journals of the Cracow University of Economics”, vol. 685, Kraków, pp. 5–18.

Durá J.V., García A.C., Solaz J., (2002), Testing shock absorbing materials: the application of viscoelastic linear model, “Sports Engineering”, vol. 5, no. 1, pp. 9–14.

Dz.U. Nr 147, poz. 1033, 2007: Act of 10 July 2007 on fertilizers and fertilization.

Dz.Urz. WE, 24.11.2009: Regulation (EC) No. 1107/2009 of the European Parliament and of the Council of 21 October 2009 concerning the placing of plant protection products on the market and repealing Council Directives 79/117/EEC and 91/414 EEC.

Dzik T., Hryniewicz M., Janewicz A., Kosturkiewicz B., (2017), Agglomeration of solid fuels in a roll press, “Przemysł Chemiczny”, vol. 96, no. 6, pp. 1852–1855.

Dziuba R. (2014), Rola innowacyjności i konkurencyjności w rozwoju regionu Bałkanów Zachodnich na przykładzie Czarnogóry, „Studia i Prace Wydziału Nauk Ekonomicznych i Zarządzania” 37/2, Wydawnictwo Uniwersytetu Szczecińskiego, Szczecin 2014, p. 225.

Edwards-Schachter M., Wallace M.L., (2017). Shaken, but not stirred: Sixty years of defining social innovation, “Technological Forecasting and Social Change”, 119(4), pp. 64–79.

Emmerichs N., Wingender J., Flemming H-C., Mayer C., (2004), Interaction between alginates and manganese cations: identification of preferred cation binding sites, “International Journal of Biological Macromolecules”, vol. 34, pp. 73–79.

EN 1177, Impact Attenuating Playground Surfacing – Determination of Critical Fall Height (2008).

EN 14808, Surfaces for Sports Areas – Determination of Shock Absorption (2005).

EN ISO 20344, Personal Protective Equipment – Test Methods for Footwear (2004).

European Commission, Guide to Social Innovation 2013, pp. 6–7, 72; 30–36.

Evans K.E., Alderson A., (2000), Auxetic materials: functional materials and structures from lateral thinking, “Advanced Materials”, vol. 12, pp. 617–628.

Evans K.E., Caddock B.D., (1989), Microporous materials with negative Poisson’s ratios II, Mechanisms and interpretation, “Journal of Physics D: Applied Physics”, vol. 2, pp. 1877–1883.

Famielec S., (2014), Doctoral dissertation Tanning waste burning process In the tunnel furnace as their method Disposal, Politechnika Krakowska, Kraków.

FAO (2013), World Statistical Compendium for Raw Hides and Skins, Leather and Leather Footwear 1993–2012.

Fauzi M.A.R.D. et al., (2021), Preparation, Properties and Potential of Carrageenan-Based Hard Capsules for Replacing Gelatine: A Review, “Polymers”, vol. 13, no. 16, p. 2666.

Foorginezhad S., Zerafat M.M., (2018), Fabrication of stable fluorine-free superhydrophobic fabrics for anti-adhesion and self-cleaning properties, “Applied Surface Science”, vol. 464, pp. 458–471.

Framis C.P., (2018), Assessment of tannery solid waste management, A case of Sheba Leather Industry in Wukro (Ethiopia) – report, Wydawnictwo ETESEIB, pp. 2–92.

Furmanek W., (2017), Innovations as the Category of Contemporaneity, “Labor et Educatio”, no. 5, Kraków, p.17, 19.

The Future We Want, RIO+20, United Nations Conference on Sustainable Development, Rio de Janeiro, Brazil, June 20–22, 2011.

Gawroński, D., (2021), Reducing the effects of drought in crops by using humic acids and biohumus, “Agricultural advisory issues”, vol. 2, no. 104, pp. 48–59.

Ge Z., Hu H., Liu S., (2016), A novel plied yarn structure with negative Poisson’s ratio, “The Journal of the Textile Institute”, vol. 107, no. 5, pp. 578–588.

Gefen A., Megido-Ravid M., Itzchak Y., (2001), In vivo biomechanical behavior of the human heel pad during the stance phase of gait, “Journal of Biomechanics “, vol. 34, no. 12, pp. 1661–1665.

Gendaszewska D., Lasoń-Rydel M., Ławińska K., Grzesiak E., Pipiak P., (2021), Characteristics of collagen preparations from leather wastes by the high pressure liquid chromatography method, “Fibres & Textiles in Eastern Europe”, vol. 29, pp. 75–79.

Gendaszewska D., Wieczorek D., (2022), Solid tanning waste as secondary raw materials, “Environmental protection – new solutions and perspectives for the future”, TYGIEL Scientific Publishing House, Lublin, pp. 18–36.

Gibson L.J., (1981), The elastic and plastic behaviour of cellular materials, Churchill College, University of Cambridge, UK.

Gomułka S., (1998), Teoria innowacji i wzrostu gospodarczego, CASE, Warszawa, p. 17.

Goonetilleke R.S., (1999), Footwear cushioning: relating objective and subjective measurements, “Human Factors”, vol. 41, no. 2, pp. 241–256.

Grima J.N., Caruana-Gauci R., Dudek M.R., Wojciechowski K.W., Gatt R., (2013), Smart metamaterials with tunable auxetic and other properties, “Smart Materials and Structures”, vol. 22, 084016.

Grima J.N., Chetcuti E., Manicaro E., Attard D., Camilleri M., Gatt R., Evans K.E., (2011), On the auxetic properties of generic rotating rigid triangles, Proceedings of the Royal Society of London A, vol. 468, pp. 810–830.

Grima J.N., Evans K.E., (2000), Auxetic behavior from rotating squares, “Journal of Materials Science Letters”, vol. 19, pp. 1563–1565.

Grima J.N., Farrugia P.S., Gatt R., Attard D., (2008), On the auxetic properties of rotating rhombi and parallelograms: a preliminary investigation, “Physica Status Solidi B.”, vol. 245, pp. 521–529.

Grima J.N., Gatt R., Alderson A., Evans K.E., (2005), On the auxetic properties of rotating rectangles with different connectivity, “Journal of the Physical Society of Japan”, vol. 74, pp. 2866–2867.

Grima J.N., Gatt R., Farrugia P.S., (2008), On the properties of auxetic meta-tetrachiral structures, “Physica Status Solidi B.”, vol. 245, pp. 511–520.

Ha C.S., Plesha M.E., Lakes R.S., (2016), Chiral three-dimensional lattices with tunable Poisson’s ratio, “Smart Materials and Structures”, vol. 25, 054005.

Han C.H., Min B.G., (2020), Superhydrophobic and Antibacterial Properties of Cotton Fabrics Coated with Copper Nanoparticles through Sonochemical Process, “Fibers Polymers”, vol. 21, pp. 785–791.

Hara P., (2019), The importance of biostimulators in potato cultivation, “Polish potato”, vol. 2, pp. 18–24.

Hasan M.S., Nosonovsky M., (2020), Lotus Effect and Friction: Does Nonsticky Mean Slippery?, “Biomimetics”, vol. 5, p. 28.

He C., Liu P., Griffin A.C., (1998), Toward negative Poisson ratio polymers through molecular design, “Macromolecules”, vol. 31, pp. 3145–3147.

Hernández-Martínez R., Sancho-Solano A., Loera-Corral O., Rojo-Domínguez A., Regalado-González C., Huerta-Ochoa S., Prado-Barragán L.A., (2011), Purification and characterization of a thermostable alkaline protease produced by Yarrowia lipolytica, “Revista mexicana de ingeniería química”, vol. 10, no. 2, pp. 333–341.

Hilliou L., (2021), Structure-Elastic Properties Relationships in Gelling Carrageenans, “Polymers”, vol. 13, no. 23, p. 4120.

Howell B., Prendergast P., Hansen L., (1994), Examination of acoustic behavior of negative Poisson’s ratio materials, “Applied Acoustics”, vol. 43, pp. 141–148.

Hu M., Wu Z., Sun L., Guo S., Li H., Liao J., Wang B., (2019), Improving pervaporation performance of PDMS membranes by interpenetrating polymer network for recovery of bio-butanol, “Separation and Purification Technology”, vol. 228, no. 1, 115690.

Huang X., Yu F., Peng Q., Huang Y., (2018), Superb adsorption capacity of biochar derived from leather shavings for Congo red, “RSC Advances”, vol. 8, pp. 29781–29788.

Huczek M., Smolarek M., (2018), Innowacje społeczne w procesie zarządzania organizacjami, „Zeszyty Naukowe Wyższej Szkoły Humanitas. Zarządzanie”, Sosnowiec, p. 10.

Hurst B., Branthwaite H., Greenhalgh A. et al., (2017), Medical-grade footwear: the impact of fit and comfort, “Journal of Foot and Ankle Research”, vol. 10, no. 2.

Imbalzano G., Tran P., Ngo T.D., Lee P.V., (2017), Three-dimensional modelling of auxetic sandwich panels for localised impact resistance, “Journal of Sandwich Structures & Materials”, vol. 19, no. 3, pp. 291–316.

Innovation Leaders, European Innovation Scoreboard 2022.

Jabłońska M., Dziuba R., Hurak I., (2018), Czynniki rozwoju przedsiębiorczości w Polsce Wschodniej, „Wiadomości Statystyczne”, GUS, Warszawa, p. 57.

Jindorfer J., Kröll J., Schwameder H., (2020), Does enhanced footwear comfort affect oxygen consumption and running biomechanics?, “European Journal of Sport Science”, vol. 20, no. 4, pp. 468–476.

Johnston R., (1966), Technical Progress and Innovation, “Oxford Economic Papers”, vol. 18, iss. 2, pp. 158–176.

Jorgensen U., Bojsenmoller F., (1986), Joint forces in extension of the knee: Analysis of a mechanical model, “Acta Orthopaedica Scandinavica”, vol. 57, no. 1, pp. 41–46.

Jothi Sri S. et al., (2012), Microencapsulation: A Review, “International Journal of Pharma and Biosciences”, vol. 3, no. 1, pp. 509–531.

Kates R.W. et al., (2005), What is sustainable development? Goals, indicators, values, and practice, “Environment: Science and Policy for Sustainable Development”, vol. 47, no. 3, pp. 8–21.

Kędzierska Szczepaniak A., Szopik-Depczyńska K., Łazorko K., (2016), Innowacje w organizacjach, Texter, Warszawa, pp. 11, 16.

Kim J., Shin D., Yoo D.S., Ki K., (2017), Regularly configured structures with polygonal prisms for three-dimensional auxetic behavior, Proceedings of the Royal Society of London A, vol. 473, 20160926.

Konaković M., Crane K., Deng B., Bouaziz S., Piker D., Pauly M., (2016), Beyond developable: computational design and fabrication with auxetic materials, “ACM Transactions on Graphics (TOG)”, vol. 35, pp. 79–89.

Koozekonan A.G., Esmaeilpour M.R.M., Kalantary S., Karimi A., Azam K., Moshiran V.A., Golbabaei F., (2020), Fabrication and characterization of PAN/CNT, PAN/TiO2, and PAN/CNT/TiO2 nanofibers for UV protection properties, “The Journal of The Textile Institute”, vol. 112, pp. 946–954.

Kozak M.W. (2008). Czynniki determinujące możliwości wykorzystania polityki strukturalnej na potrzeby rozwoju polskich regionów, [in:]: K. Bondyra, M.S. Szczepański, P. Śliwa (red.), WieloPolska Regionalna. Regionalizm w Polsce a polityka strukturalna Unii Europejskiej, Poznań: Wydawnictwo Wyższej Szkoły Bankowej w Poznaniu, p. 33.

Kozioł K., (1992), Modele procesu innowacyjnego w przedsiębiorstwie, „Studia i Prace Wydziału Nauk Ekonomicznych i Zarządzania” No 6, 2008, p. 523, [in:] R. Rothwell, (1992), Successful Industrial Innovation: Critical Factors for the 1990’s, “R and D Management”, no 22.

Kraśnicka T., (2013), Innowacyjność przedsiębiorstw – uwarunkowania organizacyjne, Studia Ekonomiczne nr 136, Wydawnictwo Uniwersytetu Ekonomicznego w Katowicach, Katowice, p.168.

Kreml A., (2014), Innowacyjność w sferze bezpieczeństwa i higieny pracy jako czynnik rozwoju biznesu, “Państwo i Społeczeństwo Państwo i Społeczeństwo”, vol. 14, no. 3, Kraków, pp. 87.

Krifa M., Prichard C., (2020), Nanotechnology in textile and apparel research – an overview of technologies and processes, “The Journal of The Textile Institute”, vol. 111, pp. 1–16.

Kusz D., Bienek T., Cholewiński J., Cieliński Ł., Czeladzka-Krerowicz K., Dudko S., Nowak M., Wojciechowski P., (2009), Kompendium ortopedii, Warszawa.

Kwaśnicki W., (2013), Innowacje społeczne – nowy paradygmat czy kolejny etap w rozwoju kreatywności człowieka?, [in:] W. Kwaśnicki (ed.), Innowacyjność a samoorganizacja społeczna, Uniwersytet Wrocławski, Wrocław, p. 9.

Kwaśnicki W., (2014), Jak wspierać rozwój innowacji społecznych?, [in:] A. Olejniczuk-Merta (ed.), Innowacje społeczne od idei do upowszechniania efektu, Instytut Badań Rynku, Konsumpcji i Koniunktur, Warszawa, p. 29.

Lakes R.S., (1987), Foam structures with a negative Poisson’s ratio, “Science”, vol. 235, pp. 1038–1041.

Lakes R.S., (2007), Cellular solids with tunable positive or negative thermal expansion of unbounded magnitude, “Applied Physics Letters”, vol. 90, 221905.

Lakes R.S., (2017), Negative Poisson’s Ratio Materials: Auxetic Solids, “Annual Review of Materials Research”, vol. 47, pp. 63–81.

Lakes R.S., Witt R., (2000), Making and characterizing negative Poisson’s ratio materials, “International Journal of Metallurgical Engineering Education”, vol. 30, no. 1, pp. 50–58.

Lange O., (1961), Uwaga o innowacjach, [in:]: Pisma ekonomiczne i społeczne 1930–1960, PWN, Warszawa, p. 160.

Langmaier F., (1990), Hygiena a komfort obutenohy, “Kozarstvi”, vol. 12, pp. 345–349.

Langmaier F., Mladek M., (1973), Studie mikroklimatu obuvi, “Kozarstvi”, vol. 4, pp. 96–101.

Langmaier F., Mokrejs P., Kolomaznik K., Mladek M., (2008), Plasticizing collagen hydrolysate with glycerol and low-molecular weight poly(ethylene glycols), “Thermochimica Acta”, vol. 469, pp. 52–58.

Larsen U.D., Signund O., Bouwsta S., (1997), Design and fabrication of compliant micromechanisms and structures with negative Poisson’s ratio, “Journal of Micro-electromechanical Systems”, vol. 6, pp. 99–106.

Lawinska K., Modrzewski R., (2017), Analysis of sieve holes blocking in a vibrating screen and a rotary and drum screen, “Physicochemical Problems of Mineral Processing”, vol. 53, no. 2, pp. 812–828.

Lawinska K., Modrzewski R., Serweta W., (2018), The phenomenon of screen blocking for mixtures of varying blocking grain content, “Gospodarka Surowcami Mineralnymi – Mineral Resources Management”, vol. 34, pp. 83–96.

Lawinska K., Modrzewski R., Wodzinski P., (2015), Comparison of the potential of using drum and vibrating screens for segregating mineral and municipal waste, “Rocznik Ochrona Środowiska”, vol. 17, no. 2, pp. 1365–1388.

Lawinska K., Modrzewski R., Wodzinski P., (2016), Mathematical and empirical description of screen blocking, “Granular Matter”, vol. 18, no. 13.

Lempriere B.M., (1968), Poisson’s ratio in orthotropic materials, “AIAA J.”, vol. 6, no. 11, p. 2226.

Li D., Dong L., Lakes R.S., (2016), A unit cell structure with tunable Poisson’s ratio from positive to negative, “Materials Letters”, vol. 164, pp. 456–459.

Li D., Maa J., Dong L., Lakes R.S., (2016), A bi-material structure with Poisson’s ratio tunable from positive to negative via temperature control, “Materials Letters”, vol. 181, pp. 285–288.

Lin L., Regenstein J.M., Lv S. et al., (2017), An overview of gelatin derived from aquatic animals: properties and modification, “Trends in Food Science & Technology”, vol. 68, pp. 102–112.

Liu K., Jiang L., (2012), Bio-Inspired Self-Cleaning Surfaces, “Annual Review of Materials Research”, vol. 42, pp. 231–263.

Liu Q., (2006), Literature review: materials with negative Poisson’s ratios and potential applications to aerospace and defence, Defence Science and Technology Organisation, Victoria.

López-Pérez L., Zarubina V., Melián-Cabrera I., (2021), The Brunauer-Emmett-Teller model on alumino-silicate mesoporous materials. How far is it from the true surface area?, “Microporous and Mesoporous Materials”, vol. 319, 111065.

Łaczkowska M., Gendaszewska D., Grzesiak E., Lasoń-Rydel M., (2016), Review of collagen extraction methods from leather waste, “Technology and Quality of Products”, vol. 61, pp. 74–79.

Ławińska K., (2021), Production of agglomerates, composite materials, and seed coatings from tannery waste as new methods for its managemen, “Materials”, vol. 14, no. 21, p. 6695.

Ławińska K., Gendaszewska D., Grzesiak E., Jagiełło J., Obraniak A., (2017), Use of tanning waste in seed production, “Przemysł Chemiczny”, vol. 96/11, pp. 2344–2347.

Ławińska K., Gendaszewska D., Grzesiak E., Lasoń-Rydel M., Obraniak A., (2017), Coating legume seeds with collagen hydrolysates from tannery waste, “Chemical Industry”, vol. 96, no. 9, pp. 1877–1880.

Ławińska K., Gendaszewska D., Grzesiak E., Lasoń-Rydel M., Obraniak A., (2017), Coating of leguminosarum seeds with collagen hydrolyzates from tanning waste, “Przemysł Chemiczny”, vol. 96/9, pp. 1877–1880.

Ławińska K., Lasoń-Rydel M., Gendaszewska D., Grzesiak E., Sieczyńska K., Gaidau C., Epure D.G., Obraniak A., (2019), Coating of seeds with collagen hydrolysates from leather waste, “Fibres & Textiles in Eastern Europe”, vol. 27, no. 4(136), pp. 59–64.

Ławińska K., Modrzewski R., Obraniak A., (2020), Comparison of granulation methods for tannery shavings, “Fibres & Textiles in Eastern Europe”, vol. 28, no. 5(143), pp. 119–123.

Ławińska K., Modrzewski R., Serweta W., (2019), Tannery shavings and mineral additives as a basis of new composite materials, “Fibres & Textiles in Eastern Europe”, vol. 27, no. 5(137), pp. 89–93.

Ławińska K., Obraniak A., Modrzewski R., (2019), Granulation process of waste tanning shavings, “Fibres & Textiles in Eastern Europe”, vol. 27, no. 2(134), pp. 107–110.

Ławińska K., Serweta W., Modrzewski R., (2018), Qualitative evaluation of the possible application of collagen fibres: Composite materials with mineral fillers as insoles for healthy footwear, “Fibres & Textiles in Eastern Europe”, vol. 26, no. 5(131), pp. 81–85.

Ławińska K., Serweta W., Modrzewski R., (2019), Studies on water absorptivity and desorptivity of tannery shavings-based composites with mineral additives, “Przemysł Chemiczny”, vol. 98/1, pp. 106–109.

Ławińska K., Szufa S., Modrzewski R., Obraniak A., Wężyk T., Rostocki A., Olejnik T.P., (2020), Obtaining granules from waste tannery shavings and mineral additives by wet pulp granulation, “Molecules”, vol. 25, no. 22, p. 5419.

Ławińska K., Szufa S., Obraniak A., Olejnik T., Siuda R., Kwiatek J., Ogrodowczyk D., (2020), Disc granulation process of carbonation lime mud as a method of post-production waste management, “Energies”, vol. 13, 3419.

Mahdavi S.A., Jafari S.M., Assadpoor E. et al., (2016), Microencapsulation optimization of natural anthocyanins with maltodextrin, gum Arabic and gelatin, “International Journal of Biological Macromolecules”, vol. 85, pp. 379–385.

Maiti S.K., Ashby M.F., Gibson L.J., (1984), Fracture toughness of brittle cellular solids, “Scripta Metallurgica”, vol. 18, pp. 213–217.

Malinowski A., Lewicki T., Śniegowski Z., (1975), Antropometryczne pomiary stóp i możliwości ich zastosowania w przemyśle ortopedycznych, „Przegląd techniki ortopedycznej i rehabilitacyjnej”, vol. 3.

Mallavarapu G.R., Ramesh S., Chandrasekhara R.S., Rao B.R.P., Kaul P.N., Bhattacharya A.K., (1995), Investigation of the essential oil of cinnamon leaf growth at Bangalore and Hyderabad, “Flavour and Fragrance Journal”, vol. 10, pp. 239–242.

Mark A.G., Palagi S., Qiu T., Fischer P., (2016), Auxetic metamaterial simplifies soft robot design, “2016 IEEE International Conference on Robotics and Automation (ICRA)”, pp. 4951–4956.

Markowicz A., (2019), Innowacje społeczne jako determinanty rozwoju społeczności lokalnych, “Ekonomia Społeczna. Innowacje społeczne”, vol. 1, Uniwersytet Ekonomiczny w Krakowie, Kraków, pp. 32–40.

Masilamani D., Madhan B., Shanmugam G., Palanivel S., Narayan B., (2016), Extraction of collagen from raw trimming wastes of tannery: a waste to wealth approach, “Journal of Cleaner Production”, vol. 113, pp. 338–344.

Masłowska-Lipowicz I., Słubik A. (2022), Novel method of obtaining textile fabrics with self-cleaning and antimicrobial properties, “The Journal of the Textile Institute”. https://www.tandfonline.com/doi/abs/10.1080/00405000.2022.2131954 (accessed: 09.03.2023).

Masłowska-Lipowicz I., Wyrębska Ł., Szałek B., Olszewski P., Gajewski R., (2020), Materiały auksetyczne – struktury, potencjalne zastosowanie, „Technologia i Jakość Wyrobów”, vol. 65, pp. 116–128.

Masternak-Janus A., Rybaczewska-Błażejowska M., (2013), Analiza efektywność innowacyjnej przedsiębiorstw przemysłowych w Polsce z wykorzystaniem metody DEA, “Ekonomia i Zarządzanie”, no. 4, Oficyna Wydawnicza Politechniki Białostockiej, Bialystok, p. 494.

Masters I.G., Evans K.E., (1996), Models for the elastic deformation of honeycombs, “Composite Structures”, vol. 35, pp. 403–422.

Matysiak K., Kaczmarek S., Kierzek R., (2012), Effect of Ecklonia maxima (Kelpak SL) marine algae extract on winter oilseed rape plants, “OILSEED CROPS“, vol. 33, pp.43–49.

Matysiak K., Kaczmarek S., Leszczyska D., (2012), Influence Of Liquid Seaweed Extract of Ecklonia Maxima On Winter Wheat Cv Tonacja, “Journal of Research and Applications in Agricultural Engineering”, vol. 57, no. 4, pp. 44–47.

Matysiak K., Kierzek R., Siatkowski I., Kowalska J., Krawczyk R., Miziniak W., (2020), Effect of Exogenous Application of Amino Acids L-Arginine and Glycine on Maize under Temperature Stress, “Agronomy”, vol. 10, no. 6, p. 769.

Michon C., Vigouroux F., Boulenguer P., Cuvelier G., Launay B., (2000), Gelatin/iota carrageenan interactions in non-gelling conditions, “Food hydrocolloids”, vol. 14, no. 3, pp. 203–208.

Miller W., Hook P.B., Smith C.W., Wang X., Evans K.E., (2009), The manufacture and characterisation of a novel, low modulus, negative Poisson’s ratio composite, “Composites Science and Technology”, vol. 69, pp. 651–655.

Mohamed O.A., Kassem N.F., (2010), Utilization of waste leather shavings as filler in paper making, “Journal of Applied Polymer Science”, vol. 118, pp. 1713–1719.

Muller D., Paluszekiw A., (2017), Towards better solutions. Good practices in the footwear industry – Report prepared as part of the international campaign Buy Responsibly Shoes. Publisher: Buy Responsibly Foundation, Cracow/Warsaw, https://www.ekonsument.pl/materialy/publ_660_strone_lepszych_praktyk_strony.pdf (accessed: 07.08.2023).

Nadi A., Boukhriss A., Bentis A., Jabrane E., Gmouh S., (2018), Evolution in the Surface Modification of Textiles: A Review, “Textile Progress”, vol. 50, pp. 67–108.

Nazari A., (2019), Superior Self-cleaning and Antimicrobial Properties on Cotton Fabrics Using Nano Titanium Dioxide along with Green Walnut Shell Dye, “Fibers Polymers”, vol. 20, pp. 2503–2509.

Nelson G., (2002), Application of Microencapsulation in Textiles, “International Journal of Pharmaceutics”, vol. 242, pp. 55–62.

Niculescu O., Leca M., Moldovan Z., Deselnicu D.C., (2015), Obtaining and Characterizing of a Product with Antifungal Properties Based on Essential Oils and Natural Waxes for Finishing Natural Leathers, “Revista de Chimie – Bucharest”, vol. 66, no. 11, pp. 1733–1736.

Nigg B.M., Stefanyshyn D., Cole G., Stergiou P., Miller J., (2003), The effect of material characteristics of shoe soles on muscle activation and energy aspects during running, “Journal of Biomechanics”, vol. 36, no. 4, p.569.

Novak N., Vesenjak M., Ren Z., (2016), Auxetic cellular materials – a review, “Strojniški Vestnik – Journal of Mechanical Engineering”, vol. 62, pp. 485–493.

Obraniak A., Gluba T., Ławińska K., Derbiszewski B., (2018), Minimisation of environmental efects related with storing fly ash from combustion of hard coal, “Environment Protection Engineering”, vol. 44, pp. 177–189.

Obraniak A., Lawinska K., (2017), Spectrophotometric analysis of disintegration mechanisms (abrasion and crushing) of agglomerates during the disc granulation of dolomite, “Granular Matter”, vol. 20, p. 7.

OECD, Eurostat 2008.

OECD, Podręcznik Frascati 2015, Główny Urząd Statystyczny, Warszawa 2015, pp. 47, 48, 56.

OECD, (2005), Oslo Manual, Principles of collecting and interpreting innovation data. Third Edition, European Commission, pp. 50–53.

Olejniczuk-Merta A., (2013), Innowacje społeczne, „Konsumpcja i Rozwój”, nr 1/2013, Warszawa, pp. 23–26.

Olszewski P. K., Kwiecień J., (2017), Slow fashion in the footwear industry – consumer and entrepreneur perception in the light of sustainable development policy, “Product Technology and Quality”, vol. 62, pp. 39–52.

Painter R., US-6685746-B1, Impregnation of leather with micro-encapsulated material.

Pakdel E., Zhao H., Wang J. et al., (2021), Superhydrophobic and photocatalytic self-cleaning cotton fabric using flower-like N-doped TiO2/PDMS coating, “Cellulose”, vol. 28, pp. 8807–8820.

Parisi M., Nanni A., Colonna M., (2021), Recycling of Chrome-Tanned Leather and Its Utilization as Polymeric Materials and in Polymer-Based Composites: A Review, “Polymers (Basel)”, vol. 13, pp. 2–23.

Park D., Lee J., Romo A., (2015), Poisson’s Ratio Material Distributions, [in:] Y. Ikeda, C.M. Herr, D. Holzer, S. Kaijima, M.J. Kim, A. Schnabel (eds), In Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia CAADRIA 2015, Hong Kong, pp. 725–744.

Parker J., (1974), The Economics of Innovation, London.

Pati A., Chaudhary R., Subramani S., (2014), A review on management of chrome-tanned leather shavings: a holistic paradigm to combat the environmental issues, “Environmental Science and Pollution Research”, vol. 21, pp. 11266–11282.

Pérez-Limiñana M.Á., Payá-Nohales F.J., Arán-Ais F., Orgilés-Barceló C., (2013), Effect of the shell-forming polymer ratio on the encapsulation of tea tree oil by complex coacervation as a natural biocide, “Journal of Microencapsulation”, vol.31, no. 2, pp. 176–83.

Pietrelli L., Ferrom S., Reverberi A.P., Vocciante M., (2020), Removal and recovery of heavy metals from tannery sludge subjected to plasma pyro-gasification process, “Journal of Cleaner Production”, vol. 273, p. 23166.

Pillai P., Archana G., (2012), A novel process for biodegradation and effective utilization of chrome shavings, a solid waste generated in tanneries, using chromium resistant Bacillus subtilis P13, “Process Biochemistry”, vol. 47, pp. 2116–2122.

Pinheiro N.S.C., Perez-Lopez O.W., Gutterres M., (2020), Solid leather wastes as adsorbents for cationic and anionic dye removal, “Environmental Technology”, vol. 43, no. 9, pp. 1285–1293.

Pipiak P., Skwarek M., (2020), The use of amino acid fertilizers in agriculture, “Technology and Quality of Products”, vol. 65, pp. 144–157.

Pisano R., Arsiccio A., Capozzi L.C. et al., (2019), Achieving continuous manufacturing in lyophilization: technologies and approaches, “European Journal of Pharmaceutics and Biopharmaceutics”, vol. 142, pp. 265–279.

PN-EN 14119:2005, Badania tekstyliów. Ocena działania mikrogrzybów. Metoda B1 oraz metoda B2.

PN-EN ISO 20645:2006, Płaskie wyroby włókiennicze. Wyznaczanie aktywności antybakteryjnej. Metoda dyfuzji na płytce z agarem.

Podgornik B.B., Šandríc S., Kert M., (2021), Microencapsulation for Functional Textile Coatings with Emphasis on Biodegradability—A Systematic Review, “Coatings”, vol. 11, no. 11, p. 1371.

Pol E., Ville S., Pol, S. Ville, (2009). Socialinnovation: Buzz word or enduring term?, “The Journal of Socio-Economics”, Vol 38(6), pp. 878–885.

Pomykalski A., (2001), Zarządzanie innowacjami, PWN, Warszawa, p.56.

Pooryousef M., Alizadeh K., (2014), Effect of foliar application of free amino acids on alfalfa performance under rainfed conditions, “Research on Crops”, vol. 15, pp. 254–258.

Popplow, M., (1998), Protection and Promotion: Privileges for Inventions and Books for Machines in the Early Modern Period. History of Technology, No 20, Bloomsbury, Londyn, pp. 103–124;

Portellaa E.H., Romanzinib D., Angrizanib C.C., Amicob S.C., Zatteraa A.J., (2016), Influence of Stacking Sequence on the Mechanical and Dynamic Mechanical Properties of Cotton/Glass Fiber Reinforced Polyester Composites, “Material Research”, vol. 19, no 3, pp. 542–547.

Portich P., Footwear Industry, ILO [MOP], 29 March 2011, http://iloencyclopaedia.org/part-xiv-42166/leather-fur-and-footwear/143-88-leather-fur-and-footwear/footwear-industry (accessed: 07.08.2023).

Prakash B., Kujur A., Yadav A. et al., (2018), Nanoencapsulation: an efficient technology to boost the antimicrobial potential of plant essential oils in food system, “Food Control”, vol. 89, pp. 1–11.

Prall D., Lakes R.S., (1997), Properties of a chiral honeycomb with a Poisson’s ratio of –1, “International Journal of Mechanical Sciences”, vol. 39, pp. 305–314.

Praszkier R., Nowak A., (2012), Przedsiębiorczość społeczna. Teoria i praktyka, Oficyna a Wolters Kluwer business, Warszawa, pp. 60–75.

Przybysławska M., Winnicka K., (2012), Technologie otrzymywania mikrokapsułek, „Farmacja Polska”, vol. 68, no. 4, pp. 283–289.

Radwan I.A., Abed A.H., Abeer M.R., Ibrahim R.A., Abdallah A.S., (2014), Effect of Thyme, Clove and Cinnamon Essential Oils on Candida albicans and Moulds Isolated from Different Sources, “American Journal of Animal and Veterinary Sciences”, vol. 9, no. 4, pp. 303–314.

Rakoczy B., (2015), The procedural dimension of the principle of sustainable development, “Białostockie Studia Prawnicze”, vol. 18, pp. 35–44.

Ramamurthy G., Ramalingam B., Katheem M.F., Sastry T.P., Inbasekaran S., Thanveer V., Jayaramachandran S., Das S.K., Mandal A.B., (2015), Total elimination of polluting chrome shavings, chrome, and dye exhaust liquors of tannery by a method using keratin hydrolysate, “ACS Sustainable Chemistry & Engineering”, vol. 3, pp. 1348–1358.

Rani S., Goel A., (2021), Microencapsulation technology in textiles: A review study, “The Pharma Innovation Journal”, vol. 10, no. 5, pp. 660–663.

Raufflet E. (2009), Mobilizing business for post-secondary education: CIDA University, South Africa, “Journal of Business Ethics”, Vol. 89, pp. 191–202;

Ravindran B., Wong J.W.C., Selvam A., Thirunavukarasu K., Sekaran G., (2016), Microbial biodegradation of proteinaceous tannery solid waste and production of a novel value added product – Metalloprotease, “Bioresource Technology”, vol. 217, pp. 150–156.

Rigueto C.V.T., Nazari M.T., De Souza C.F., Cadore J.S., Brião V.B., Piccin J.S., (2020), Alternative techniques for caffeine removal from wastewater: an overview of opportunities and challenges, “Journal of Water Process Engineering”, vol. 35, pp. 1–12.

Rocznik Statystyczny Przemysłu. Statistical Yearbook of Industry – Poland, Warsaw 2020.

Rodrigues R.F., Leite S.R., Santos D.A., Barrozo M.A.S., (2017), Drum granulation of single super phosphate fertilizer: Effect of process variables and optimization, “Powder Technology”, vol. 321, pp. 251–258.

Rostocki A., Ławińska K., Modrzewski R., Siegień G., Hejft R., Obraniak A., (2022), Methods for treatment of animal and plant-based biomass waste, “Fibres & Textiles in Eastern Europe”, vol. 30, no. 4, pp. 32–42.

Rostocki A., Unyay H., Ławińska K., Obraniak A., (2023), Granulates based on bio and industrial waste and biochar in a sustainable economy, “Energies”, vol. 16, p. 56.

Rudnicka A., Kostrzewska M., (2020), Sewn with class. The clothing industry in the face of social and environmental challenges, University of Lodz Publishing House, Lodz [Available at: https://wydawnictwo.uni.lodz.pl/wpcontent/uploads/2020/07/Rudnicka_UszyteZklasa_ONLINE-.pdf (accessed: 07.08.2023)].

Rutkowska A., (2016), Biostimulators in modern plant cultivation, “ISSUE”, vol. 48, pp. 65–80.

Sadak M.S.H., Abdelhamid M.T., Schmidhalter U., (2015), Effect of foliar application of aminoacids on plant yield and some physiological parameters in bean plants irrigated with seawater, “Acta Biologica Colombiana”, vol. 20, pp. 141–152.

Salwa A.R. Hammad, Osama A.M. Ali, (2014), Physiological and biochemical studies on drought tolerance of wheat plants by application of amino acids and yeast extract, “Annals of Agricultural Sciences”, vol. 59, no. 1, pp. 133–145.

Sánchez-Navarro M.M., Pérez-Limiñana M.Á., Arán-Ais F., Orgilés-Barceló C., (2015), Scent properties by natural fragrance microencapsulation for footwear applications, “Polymer International”, vol. 64, no. 10, pp. 1458–1464.

Sanjay M.S., Sudarsanam D., Raj G.A., Baskar K., (2020), Isolation and identification of chromium reducing bacteria from tannery effluent, “Journal of King Saud University – Science”, vol. 32, no. 1, pp. 265–271.

Scarpa F., Ciffo L.G., Yates J.R., (2003), Dynamic properties of high structural integrity auxetic open cell foam, “Smart Materials and Structures”, vol. 13, p. 49.

Schmidt E., (2020), Production of essential oils, [in:] K. Hüsnü Can Başer, G. Buchbauer (eds), Handbook of Essential Oils, CRC Press, Boca Raton, p. 36.

Semenova M., (2017), Protein-polysaccharide associative interactions in the design of tailor made colloidal particles, “Current Opinion in Colloid and Interface Science”, vol. 28, pp. 15–21.

Serweta W., Olejniczak Z., Matusiak M., (2019), Improve of Footwear Comfort Sensation with Material Packages and Knitted Fabrics, “FIBRES & TEXTILES in Eastern Europe”, vol.27, no. 3(135), pp. 85–90.

Serweta W., Wójcik J., Matusiak M., Ławińska K., Szałek B., (2020), Research on the Possibilities of Polymer Textile Applications as Footwear Packages to Improve Health Properties, “Fibres & Textiles in Eastern Europe”, vol. 4, no. 142, pp. 89–94.

Shadrivov I.V., Lapine M., Kivshar Y.S. (eds), (2015), Nonlinear, Tunable and Active Metamaterials, Nonlinear, Tunable and Active Metamaterials, Springer International Publishing, Switzerland.

Shan S., Kang S.H., Zhao Z., Fang L., Bertoldi K., (2015), Design of planar isotropic negative Poisson’s ratio structures, “Extreme Mechanics Letters”, vol. 4, pp. 96–102.

Shanthi C. Babu, Banerjee P., Babu N.K., Rajakumar G., (2013), Recovery and characterization of protein hydrolysate from chrome shavings by microbial degradation, “Journal of the American Leather Chemists Association”, vol. 108, pp. 231–239.

Shao Y., Zhao J., Fan Y., Wan Z., Lu L., Zhang Z., Ming W., Ren L., (2020), Shape memory superhydrophobic surface with switchable transition between “Lotus Effect” to “Rose Petal Effect”, “Chemical Engineering Journal”, vol. 382, 122989.

Sharkawy A., Fernandes I.P., Barreiro M.F., Rodrigues A.E., Shoeib T., (2017), Aroma-Loaded Microcapsules with Antibacterial Activity for Eco-Friendly Textile Application: Synthesis, Characterization, Release, and Green Grafting, “Industrial & Engineering Chemistry Research”, vol. 56, no. 19, pp. 5516–5526.

Sharma R., Goel A., (2018), Development of insect repellent finish by a simple coacervation microencapsulation technique, “International Journal of Clothing Science and Technology”, vol. 30, no. 2, pp. 152–158.

Silva R.M., Rodrigues J.L., Pinto V.V., Ferreira M.J., Russo R., Pereira C.M., (2009), Evaluation of shock absorption properties of rubber materials regarding footwear applications, “Polymer Testing”, vol. 28, no. 6, pp. 642–647.

Sing C.E., (2017), Development of the modern theory of polymeric complex coacervation, “Advances in Colloid and Interface Science”, vol. 239, pp. 2–16.

Singh A.K., Raj A., (2020), Emerging and eco-friendly approaches for waste management, “Environmental Sciences Europe”, vol. 32, p.107.

Singh N., Sheikha J., (2020), Microencapsulation and its application in production of functional textiles, “Indian Journal of Fibre & Textile Research”, vol. 45, pp. 495–509.

Skonieczny J., Innowacja Społeczna, „Zeszyty Naukowe Uniwersytetu Ekonomicznego w Poznaniu”, nr (246), Poznań 2022, p. 99.

Skubiak B., (2016), Innowacje społeczne w teorii i praktyce, „Barometr Regionalny”, tom 14, nr 1, Wyższa Szkoła Zarządzania i Administracji w Zamościu, Zamość 2016, p. 29–30.

Skwarek M., Nawrocka J., Lasoń-Rydel M., Ławińska K., (2020), Diversity of plant biostimulants in plant growth promotion and stress protection in crop and fibrous plants, “Fibres & Textiles in Eastern Europe”, vol. 28, pp. 34–41.

Skwarek M., Wala M., Kołodziejek J., Sieczyńska K., Lasoń-Rydel M., Ławińska K., Obraniak A., (2021), Seed coating with biowaste materials and biocides—environment-friendly biostimulation or threat?, “Agronomy”, vol. 11, p. 1034.

Starešiníc M., Šumiga B., Boh B., (2011), Microencapsulation for Textile Applications and Use of SEM Image Analysis for Visualisation of Microcapsules, “Tekstilec”, vol. 54, pp. 80–103.

Statistics of the footwear industry for 2019, source: annual collection of the Department of the Analytical Center of the Tax Administration Chamber in Warsaw approved by the Central Statistical Office, Poland, 2019, pp. 1–13.

Steviæ T., Beriæ T., Šavikin K., Sokoviæ M., Goðevac D., Dimkiæ I., Stankoviæ S., (2014), Antifungal Activity of Selected Essential Oils against Fungi Isolated from Medicinal Plant, “Industrial Crops and Products”, vol. 55, pp. 116–122.

Stojmanovski Mercieca L.A., Formosa C., Grima J.N., Chockalingam N., Gatt R., Gatt A., (2017), On the Use of Auxetics in Footwear: Investigating the Effect of Padding and Padding Material on Forefoot Pressure in High Heels, “Physica Status Solidi B”, vol. 254, no. 12, 1700528.

Strong Innovators, European Innovation Scoreboard 2022.

Tailby S. (2003), Falling mass shock absorption test, “SATRA Bulletin”, October, p. 17.

Theocaris P.S., Stavroulakis G.E., Panagiotopoulos P.D., (1997), Negative Poisson’s ratios in composites with star-shaped inclusions: a numerical homogenization approach, “Archive of Applied Mechanics”, vol. 67, pp. 274–286.

Thi V.H.T., Lee B.K., (2017), Development of multifunctional self-cleaning and UV blocking cotton fabric with modification of photoactive ZnO coating via microwave method, “Journal of Photochemistry and Photobiology A: Chemistry”, vol. 338, pp. 13–22.

Timilsena Y.P., Akanbi T.O., Khalid N. et al., (2019), Complex coacervation: principles, mechanisms and applications in microencapsulation, “International Journal of Biological Macromolecules”, vol. 121, pp. 1276–1286.

Tonnesen H.H., Karlsen J., (2002), Alginate in drug delivery system, “Drug Development and Industrial Pharmacy”, vol. 28, no. 6, pp. 621–630.

Tu J., Bolla S., et al. (2005), Alginate microparticles prepared by spray-coagulation method: preparation, drug loading and release characterization, “International Journal of Pharmaceutics”, vol. 303, no. 1–2, pp. 171–181.

Tudu B.K., Sinhamahapatra A., Kumar, A., (2020), Surface Modification of Cotton Fabric Using TiO2 Nanoparticles for Self-Cleaning, Oil-Water Separation, Antistain, Anti-Water Absorption and Antibacterial Properties, “ACS Omega”, vol. 5, pp. 7850–7860.

Tulshyan A., Dedhia E., (2021), An overview of microencapsulation technology in the application of aroma and antibacterial finishes, “International Journal of Home Science”, vol. 7, no. 1, pp. 34–39.

Türkoğlu G.C., Sariişik A.M., Erkan G., Kayalar H., Kontart O., Öztuna S., (2017), Determination of antioxidant capacity of capsule loaded textiles, “Indian Journal of Fibre & Textile Research”, vol. 42, pp. 189–195.

Tutaj J., (2019), Innowacje – próba pomiaru, [in:] Z. Malar, J. Tutaj (eds), Innowacje a dobrostan społeczeństwa, gospodarki i przedsiębiorstw:próba pomiaru, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław, p. 12.

Underhill R.S., (2014), Defense applications of Auxetic materials, “Advanced Materials”, vol. 1, pp. 7–13.

Valdes A., Ramos M., (2018), Recent Trends in Microencapsulation for Smart and Active Innovative Textile Products, “Current Organic Chemistry”, vol. 22, no. 12, pp. 1237–1248.

Verdejo R., Mills N.J., (2004), Simulating the effects of long distance running on shoe midsole foam, “Polymer Testing”, vol. 23, no. 4, pp. 567–574.

Vidaurre-Arbizu M., Pérez-Bou S., Zuazua-Ros A., Martín-Gómez C., (2021), From the leather industry to building sector: Exploration of potential applications of discarded solid wastes, “Journal of Cleaner Production”, vol. 291, 125960.

Voigt W., (1928), Lehrbuch der Kristallphysik, B. G. Teubner-Verlag, Leipzig, Berlin.

Wacławski Z., Rola innowacji społecznych w rozwoju regionu województwa lubelskiego – przykłady dobrych praktyk, “Nierówności Społeczne a Wzrost Gospodarczy”, No 50 (2/2017), Uniwersytet Rzeszowski, Rzeszów, pp. 463–368.

Walocha J., Skawina A., Gorczyca J., (2006), Anatomia prawidłowa człowieka. Miednica. Podręcznik dla studentów i lekarzy. Wydanie II poprawione, Wydawnictwo Uniwersytetu Jagiellońskiego, Kraków, pp. 13–19.

Wan J., Xu L.H., Pan H. et al., (2021), Green water-based fabrication of SiO2-TiO2 aerogels with superhydrophobic and photocatalytic properties and their application on cotton fabric, “Journal of Porous Materials”, vol. 28, pp. 1501–1510.

Wang X.T., Wang B., Li X.W., Ma L., (2017), Mechanical properties of 3D re-entrant auxetic cellular structures, “International Journal of Mechanical Sciences”, vol. 131, pp. 396–407.

Wang Z., Hu H., (2014), Auxetic materials and their potential applications in textiles, “Textile Research Journal”, vol. 84, pp. 1600–1611.

Wang Z.P., Poh L.H., Dirrenberger J., Zhu Y., Forest S., (2017), Isogeometric shape optimization of smoothed petal auxetic structures via computational periodic homogenization, “Computer Methods in Applied Mechanics and Engineering”, vol. 323, pp. 250–271.

Weijers R.E., Kessels A.G., Kemerink G.J., (2005), The damping properties of the venous plexus of the heel region of the foot during simulated heelstrike, “Journal of Biomechanics”, vol. 38, no. 12, pp. 2423–2430.

Whittle M.W., (1999), Generation and attenuation of transient impulsive forces beneath the foot: a review, “Gait Posture”, vol. 10, no. 3, p. 264.

Wieczorek D., Lasoń-Rydel M., Gendaszewska D., (2021), The influence of the presence of tanning shavings on the growth of yeast from the Dipodascaceae family, “Technology and Quality of Products”, vol. 66, pp. 170–184.

Wiktorska-Święcka A., Klimowicz M., Moroń D., (2015), Zarządzanie innowacjami społecznymi, Difin, Warszawa, p. 11.

Wojciechowski K.W., (1987), Constant thermodynamic tension Monte Carlo studies of elastic properties of a two-dimensional system of hard cyclic hexamers, “Molecular Physics”, vol. 61, p. 1247.

Wojdyła A.T., Sobolewski J., (2016), The possibility of using agents containing amino acids in the protection of beans against black rot, “Scientific Journals Institute of Horticulture”, vol. 24, pp. 131–140.

Wolański N., (2005), Rozwój biologiczny człowieka, Wydawnictwo PWN, Warszawa, p. 125.

Wronka-Pośpiech M., (2015), Innowacje społeczne w procesie zarządzania organizacjami, “Zeszyty Naukowe Uniwersytetu Ekonomicznego w Katowicach”, Katowice, p. 11.

Wspólna odpowiedzialność. Rola innowacji, edited by N. Ćwik, Forum Odpowiedzialnego Biznesu, 2013, pp. 115–130.

Wu Z., Fang K., Chen W., Zhao Y., Xu Y., Zhang C., (2021), Durable superhydrophobic and photocatalytic cotton modified by PDMS with TiO2 supported bamboo charcoal nanocomposites, “Industrial Crops and Product”, vol.171, 113896.

Yang L., Harrysson O., West H., Cormier D., (2015), Mechanical properties of 3D re-entrant honeycomb auxetic structures realized via additive manufacturing, “International Journal of Solids and Structures”, vol. 69, pp. 475–490.

Yang M., Liu W., Jiang C. et al., (2019), Robust fabrication of superhydrophobic and photocatalytic self-cleaning cotton textile based on TiO2 and fluoroalkylsilane, “Journal of Materials Science”, vol. 54, pp. 2079–2092.

Yick K., Yu A., Li P., (2019), Insights into footwear preferences and insole design to improve thermal environment of footwear, “International Journal of Fashion Design, Technology and Education”, vol. 12, no. 3, pp. 325–334.

Yılmaz B., Karavana H.A., (2020), Application of Chitosan-Encapsulated Orange Oil onto Footwear Insock Leathers, “Johnson Matthey Technology Review”, vol. 64, no. 4, p. 443.

Zainescu G., (2018), Polymer Compositions from Leather Fibers (Leather Shavings) for Mortar in Constructions, In Proceedings of the 18th SGEM International Multidisciplinary Scientific GeoConference SGEM2018, Energy and Clean Technologies Stef92 Technology, Albena, Bulgaria, 2–8 July 2018, pp. 79–86.

Zajda K., (2014), Uwarunkowania innowacji społecznych w społecznościach wiejskich i metody ich stymulowania, [in:] E. Psyk-Piotrowska (ed.), Nowe mechanizmy rozwoju obszarów wiejskich, Uniwersytet Łódzki, Łódź, p. 145.

Zalewska A., Średzińska K., Kułak W., (2021), Postawa ciała a siła mięśniowa u dzieci w wieku szkolnym, Uniwersytet Medyczny w Białymstoku, Białystok, p.19.

Zastępowski M., (2017), Model procesu innowacyjnego Polskich małych i średnich Przedsiębiorstw, „Organizacja i Kierowanie”, nr 2, SGH, Warszawa, p. 372.

Zhang J., Wang F., Yalamarty S.S.K., Filipczak N., Jin Y., Li X., (2022), Nano Silver-Induced Toxicity and Associated Mechanisms, “International Journal of Nanomedicine”, vol. 26, no. 17, pp. 1851–1864.

Zhang J., Yan Z., Liu X., Zhang Y., Zou H., Le Y., Chen J.-F., (2020), Conductive skeleton-heterostructure composites based on chrome shavings for enhanced electromagnetic interference shielding, “ACS Applied Materials & Interfaces”, vol. 12, pp. 53076–53087.

Zhu C., Shi J., Xu S. et al., (2017), Design and characterization of self-cleaning cotton fabrics exploiting zinc oxide nanoparticle-triggered photocatalytic degradation, “Cellulose”, vol. 24, pp. 2657–2667.

Żero S., (2018), Różnice w interpretacji pojęć innowacji oraz imitacji, [in:] E. Gruszewska, A. Matel, E. Kuzionko-Ochrymiuk (eds), Współczesne problemy ekonomiczne w badaniach młodych naukowców. T. 2, Zarządzanie organizacją, finanse i inwestycje, Polskie Towarzystwo Ekonomiczne, Białystok, p. 41.

http://www.life-shoebat.eu/pl/ (accessed: 07.02.2023).

http://www.socialinnovator.info/process-social-innovation (accessed: 12.02.2023).

http://www.wildsingapore.com/wildfacts/plants/seaweed/phaeophyta/phaeophyta.html (accessed: 07.08.2023).

https://badam.poznan.pl/2018/ii_nasza-przestrzen/08_bezpieczenstwo/programy-w-zakresie-zwiekszenia-bezpieczenstwa-mieszkancow-poznania/ (accessed: 02.04.2023).

https://ec.europa.eu/research-and-innovation/en/statistics/ performance-indicators/european-innovation-scoreboard/eis# (accessed: 06.01.2023).

https://ekonsument.pl/s56_co_robimy.html (accessed: 07.08.2023).

https://en.wikipedia.org/wiki/Rhizobacteria (accessed: 07.08.2023).

https://eskulap.olsztyn.pl/leczona-choroba/wrodzona-stopa-przywiedziona/ (accessed: 12.12.2023).

https://fizjo-gabinet.pl/stopa-konsko-szpotawa-fizjoterapia/ (accessed: 12.12.2023).

https://histmag.org/Ekologia-spoleczenstwo-gospodarka-koncepcja-zrownowazonego-rozwoju.-952 (accessed: 07.08.2023).

https://izrs.eu/aktualnosci/prawnik-przyszlosci---lider-zrownowazonego-rozwoju (accessed: 07.08.2023).

https://obamawhitehouse.archives.gov/administration/eop/sicp/about (accessed: 18.03.2023).

https://obamawhitehouse.archives.gov/administration/eop/sicp/initiatives/social-innovation-fund (accessed: 18.03.2023).

https://poland.representation.ec.europa.eu/strategies-and-priorytety/key-dzialania-eu-for-polskie/polityka-spojnosci_pl (accessed: 09.03.2023).

https://s3platform.jrc.ec.europa.eu/documents/20182/84453/Guide_to_Social_Innovation.pdf (accessed: 12.02.2023).

https://stat.gov.pl/files/gfx/portalinformacyjny/pl/defaultaktualnosci/5496/18/1/1/podrecznik_oslo_2018_internet.pdf (accessed: 02.04.2023).

https://www.fundusze Europejskie.gov.pl/media/109449/umowa_partnerstwa_broszura_210x210_nowa_3-small.pdf (accessed: 09.03.2023).

https://www.globalinnovationindex.org/analysis-economy (accessed: 07.01.2023).

https://www.google.com/url?sa=i&url=https%3A%2F%2Fwww.bryk.pl%2F wypracowania%2Fpozostale%2Frehabilitacja%2F18677-wady-wrodzone-w-obrebie-kkd.html&psig=AOvVaw2Xf4oLqogGLEck5vXaxC_R&ust=1681543402919000&source=images&cd=vf e&ved=0CA4QjRxqFwoTCKjXzvfqqP4CFQAAAAAdAAAAABAK (accessed: 12.12.2023).

https://www.nowoczesnagospodarka.gov.pl/media/111296/FENG_zatwiertowani_przed_KE.pdf (accessed: 09.03.2023).

https://www.parp.gov.pl/csr (accessed: 07.08.2023).

https://www.parp.gov.pl/storage/publications/pdf/sektor-moda_raport_24-06-2020.pdf (accessed: 07.08.2023).

https://www.poir.gov.pl/media/113708/harmonogram_naboru_świadcz_FENG_11012023.pdf (accessed: 18.03.2023).

https://www.poir.gov.pl/strony/about-the-program/fe-dla-nowoczesnaj-gospodarki/aktualnosci/schedule-naborow-realizatorch-w-ramach-programu-fundusze-european-dla-nowoczesnaj-gospodarki- na-2023-r/ (accessed: 18.03.2023).

https://www.pracujwlogistyce.pl/raporty/21-raporty/7372-polskie-firmy-produkuja-46-5-mln-par-butow-rocznie-a-wartosc-tego-rynku-wynosi-3-3-mld-euro (accessed: 07.08.2023).