واکاوی مفاهیم پایداری و نوآوری در سطح زنجیره تأمین؛ روند گذشته، چشم‌انداز آینده

[1] Rajeev, A., Pati, R.K., Padhi, S.S., and Govindan, K. Evolution of sustainability in supply chain management: A literature review. Journal of Cleaner Production, 162, 299–314, 2017.

[2] Roscoe, S., Cousins, P.D., and Lamming, R.C. Developing eco-innovations: A three-stage typology of supply networks. Journal of Cleaner Production, 112, 1948–1959, 2016.

[3] Aragón-Correa, J.A., Hurtado-Torres, N., Sharma, S., and García-Morales, V.J. Environmental strategy and performance in small firms: A resource-based perspective. Journal of Environmental Management, 86, 88–103, 2008.

[4] Noci, G., and Verganti, R. Managing ‘green’ product innovation in small firms. RandD Management, 29, 3–15, 1999.

[5] Roome, N., and Hinnels, M. Environmental factors in the management of new product development: Theoretical framework and some empirical evidence from the white goods industry. Business Strategy and the Environment, 2, 12–27, 1993.

[6] Schiederig, T., Tietze, F., and Herstatt, C. Green innovation in technology and innovation management: An exploratory literature review. RandD Management, 42, 180–192, 2012.

[7] Huber, J. Technological environmental innovations (TEIs) in a chain-analytical and life-cycle-analytical perspective. Journal of Cleaner Production, 16, 1980–1986, 2008.

[8] Van Hemel, C., and Cramer, J. Barriers and stimuli for eco-design in SMEs. Journal of Cleaner Production, 10, 439–453, 2012.

[9] Von der Gracht, H.A., and Darkow, I.L. Energy-constrained and the low-carbon scenarios for the transportation and logistics industry. The International Journal of Logistics Management, 27, 142–166, 2016.

[10] Koster, M., Vos, B., and Schroeder, R. Management innovation driving sustainable supply management Process studies in exemplar MNEs. BRQ Business Research Quarterly, 20, 240–257, 2017.

[11] Srivastava, S.K. Green supply-chain management: A state-of-the-art literature review. International Journal of Management Reviews, 9, 53–80, 2007.

[12] Yan, M.R., Chien, K.M., and Yang, T.N. Green component procurement collaboration for improving supply chain management in the high technology industries: A case study from the systems perspective. Sustainability, 8, 105, 2016.

[13] Chiappetta Jabbour, C.J., Jugend, D., Lopes de Sousa Jabbour, A.B., Govindan, K., Kannan, D., and Leal Filho, W. There is no carnival without samba: Revealing barriers hampering biodiversity-based RandD and eco-design in Brazil. Journal of Environmental Management, 206, 236–245, 2018.

[14] Lopes de Sousa Jabbour, A.B., Cortegoso de Oliveira Frascarelli, F., and Chiappetta Jabbour, C.J. Green supply chain management and firms’ performance: Understanding potential relationship and the role of green sourcing and some other green practices. Resources, Conservation and Recycling, 104, 366–374, 2015.

[15] Koplin, J., Seuring, S., and Mesterham, M. Incorporating sustainability into supply management in the automotive industry, the case of the Volkswagen AG. Journal of Cleaner Production, 15, 1053–1062, 2007.

[16] Touboulic, A. Chicksand, D., and Walker, H. Managing imbalanced supply chain relationships for sustainability: A power perspective. Decision Sciences, 45, 577–619, 2014.

[17] Turki, S., and Rezg, N. Impact of the quality of returned-used products on the optimal design of a manufacturing/remanufacturing system under carbon emissions constraints. Sustainability, 10, 3197, 2018.

[18] Bottani, E., and Casella, G. Minimization OD the environmental emissions of closed-loop supply chains: A case study of returnable transport assets management. Sustainability, 10, 329, 2018

[19] Genovese, A., Acquaye, A.A., Figueroa, A., and Lenny Koh, S.C. Sustainable supply chain management and the transition towards a circular economy: Evidence and some applications. Omega, 66, 344–357, 2017.

[20] French, M.L., and La Forge, R.L. Closed-loop supply chains in process industries: An empirical study of producer re-use issues. Journal of Operations Management, 24, 271–286, 2006.

[21] Son, D., Kim, S., Park, H., and Jeong, B. Closed-loop supply chain planning model of rare metals. Sustainability, 10, 1061, 2018.

[22] Damanpour, F. Organizational innovation: A meta-analysis of effects of determinants and moderators. Academy of Management Journal, 34, 555–590, 1991.

[23] Teipal, T., Garg, R.K., and Sachdeva, A. Trust among supply chain partners: A review. Measuring Business Excellence, 17, 51–71, 2013.

[24] Gao, D., Xu, Z., Ruan, Y.Z., and Lu, H. From a systematic literature review to integrated definition for sustainable supply chain innovation (SSCI). Journal of Cleaner Production, 142, 1518–1538, 2017.

[25] Khalid, R.U., Seuring, S., Beske, P., Land, A., Yawar, S.A., and Wagner, R. Putting sustainable supply chain management into base of the pyramid research. Supply Chain Management: An International Journal, 20, 681–696, 2015.

[26] OECD and Eurostat, Published by Oslo Manual OECD and Eurostat. Guidelines for Collecting and Interpreting Innovation Data, third ed. OECD Publishing, Paris, 2010.

[27] Lewis, H., Verghese, K., and Fitzpatrick, L. Evaluating the sustainability impacts of packaging: The plastic carry bag dilemma, Packaging Technology and Science, 23 (3), 145-160, 2010.

[28] Lorenzinia, G.C., Mostaghel, R., and Hellström, D. Drivers of pharmaceutical packaging innovation: A customer-supplier relationship case study, Journal of Business Research, 2018.

[29] Pablos, P. O., Turró, L. J., Tennyson, R. D., and Zhao, J. Knowledge management for competitive advantage during economic crisis. IGI Global, 2014.

[30] Coles, R. C., and Beharrell, B. Packaging innovation in the food industry. British Food Journal, 92 (9), 21–32, 1990.

[31] Sonneveld, K. What drives (food) packaging innovation? Packaging Technology and Science, 13(1), 29–35, 2000.

[32] Becheikh, N., Landry, R., and Amara, N. Lessons from innovation empirical studies in the manufacturing sector: A systematic review of the literature from 1993–2003, Technovation, 6(5–6), 644–664, 2006

[33] Vernuccio, M., Cozzolino, A., and Michelini, L. An exploratory study of marketing, logistics, and ethics in packaging innovation. European Journal of Innovation Management, 13(3), 333–354, 2010.

[34] Dos Santos, M.J.P.L. Smart cities and urban areas: Aquaponics as innovative urban agriculture. Urban For. Urban Green, 20, 402–406, 2016.

[35] Giuggioli, N.R., Girgenti, and V., Peano, C. Qualitative Performance and Consumer Acceptability of Starch Films for the Blueberry Modified Atmosphere Packaging Storage. Polish Journal of Food and Nutrition Sciences 67, 129–136, 2017.

[36] Sun, J., Sabbaghi, N., and Ashton, W. Green supply chain formation through by-product synergies. IEEE Trans. Engineering Management Journal, 64, 70–82, 2017.

[37] Tencati, A., Pogutz, S., Mode, B., Brambilla, M., and Cacia, C. Prevention policies addressing packaging and packaging waste: Some emerging trends. Waste Management. 56, 35–45, 2016.

[38] Dangelico, R.M., and Vocalelli, D. Green Marketing: An analysis of definitions, strategy steps, and tools through a systematic review of the literature. Journal of Cleaner Production. 165, 1263–1279, 2017.

[39] Mayring, P. Qualitative content analysis, 8th ed., Beltz Verlag: Weinheim, Germany, 2003.

[40] Thomé, A.M.T., Scavarda, A., Ceryno, P.S., and Remmen, A. Sustainable new product development: A longitudinal review. Clean Technologies and Environmental Policy, 18, 2195–2208, 2016.

[41] Rajiani, I., Musa, H., and Hardjono, B. Ability, motivation and opportunity as determinants of green human resources management innovation. Research Journal of Business Management, 10, 51–57, 2016.

[42] RandD Magazine, Supplement. Global Funding of Research and Development Overview, RandD Magazine: Rockaway, NJ, USA, 2017.

[43] Kucht Campos, J., Straube, F., Wutke, S., and Alcântara Cardoso, P. Creating value by sustainable manufacturing and supply chain management practices: A cross-country comparison. Procedia Manufacturing, 8, 686–690, 2017.

[44] Sirilli, G. Innovazione Tecnologica. Istituto della Enciclopedia Italiana fondata da Giovanni Treccani. Voce Encicl. Novecento, XIII, 44–53, 2004.

[45] Govindan, K., Seuring, S., Zhu, Q., and Azevedo, S.G. Accelerating the transition towards sustainability dynamics into supply chain relationship management and governance structures. Journal of Cleaner Production, 112, 1813–1823, 2016.

[46] Bhardwaj, B.R. Role of green policy on sustainable supply chain management: A model for implementing corporate social responsibility. Benchmarking: An International Journal, 23, 456–468, 2016.

[47] Eveleens, C., van Rijnsoever, F., and Niesten, E. How network-based incubation helps start-up performance: A systematic review against the background of management theories. The Journal of Technology Transfer, 42, 676–713, 2016.

[48] Lavie, D. The competitive advantage of interconnected firms: An extension of the resource-based view. Academy of Management Review, 31, 638–658, 2006.

[49] Collier, Z.A., Connelly, E.B., Polmateer, T.L., and Lambert, J.H. Value chain for next-generation biofuels: Resilience and sustainability of the product life cycle. Environment Systems and Decisions, 37, 22–33, 2017.

[50] Taneja, S., Golden Pryor, M., and Hayek, M. Leaping innovation barriers to small business longevity. Journal of Business Strategy, 37, 44–51, 2016.

[51] Luthra, S., Kumar, S., Kharb, R., Ansari, M.F. and Shimmi, S.L. Adoption of smart grid technologies: an analysis of interactions among barriers. Renewable and Sustainable Energy Reviews, 33, 554-565, 2014.

[52] Luthra, S., Kumar, V., Kumar, S., and Haleem, A. Barriers to implement green supply chain management in automobile industry using interpretive structural modeling technique: An Indian perspective. Journal of Industrial Engineering and Management, 4, 231–257, 2011.

[53] Chen, L., Zhao, X., Tang, O., Price, L., Zhang, S., and Zhu, W. Supply chain collaboration for sustainability: A literature review and future research agenda. International Journal of Production Economics, 194, 73–87, 2017.

[54] Yenipazarli, A. To collaborate or not to collaborate: Prompting upstream eco-efficient innovation in a supply chain. European Journal of Operational Research, 260, 571–587, 2017.

[55] Niesten, E., Jolink, A., Lopes de Sousa Jabbour, A.B., Chappin, M., and Lozano, R. Sustainable collaboration: The impact of governance and institutions on sustainable performance. Journal of Cleaner Production, 155, 1–6, 2017.

[56] Zeng, H., Chen, X., Xiao, X., and Zhou, Z. Institutional pressures, sustainable supply chain management, and circular economy capability: Empirical evidence from Chinese eco-industrial park firms. Journal of Cleaner Production, 155, 54–65, 2017.

[57] Berti, G., and Mulligan, C. Competitiveness of small farms and innovative food supply chains: The role of food hubs in creating sustainable regional and local food systems. Sustainability, 8, 616, 2016.

[58] Kate, J.T., Teunter, R., Kusumastuti, R.D., and van Donk, D.P. Bio-diesel production using mobile processing units: A case in Indonesia. Agric. Syst. 152, 121–130, 2017.

[59] Schumpeter, J.A. The theory of economic development: an inquiry into profits, capital, credit, interest, and the business cycle. Social Science Electronic Publishing: New York, NY, USA, 1934.

[60] Iacovidou, E., Purnell, P., and Lim, M.K. The use of smart technologies in enabling construction components reuse: A viable method or a problem creating solution? Journal of Environmental Management, 216, 214–223, 2016.

[61] Gallico, D. E-learning sustainability: Creation of a new platform for designing new community identity through lifelong learning. World Review of Science, Technology and Sustainable Development, 12, 67–76, 2015.

[62] Clarysse, B., Van-Dierdonck, R., Gabriels, W., Lambrechts, J., and Uytterhaegen, M. Strategische verschillen tussen innovative kmos: een kijkje in de zwarte doos, Publication No. 5, IWT: Brussels, Belgium, 1998.

[63] Bigliardi, B., and Dormio, A.I. An empirical investigation of innovation determinants in food machinery enterprises. European Journal of Innovation Management, 12, 223–242, 2009.

[64] Perrin, A., Wohlfahrt, J., Morandi, F., Østergård, H., Flatberg, T., De La Rua, C., and Gabrielle, B. Integrated design and sustainable assessment of innovative biomass supply chains: A case-study on miscanthus in France. Applied Energy, 204, 66–77, 2016.

[65] Kircher, M. Sustainability of biofuels and renewable chemicals production from biomass. Current Opinion in Chemical Biology, 29, 26–31, 2015.

[66] Long, T.B., Blok, V., and Coninx, I. Barriers to the adoption and diffusion of technological innovations for climate-smart agriculture in Europe: Evidence from the Netherlands, France, Switzerland and Italy. Journal of Cleaner Production, 112, 9–21, 2016.

[67] Brunke, J.C., Johansson, M., and Thollander, P. Empirical investigation of barriers and drivers to the adoption of energy conservation measures, energy management practices and energy services in the Swedish iron and steel industry. Journal of Cleaner Production, 2014.

[68] Del Río González, P. Analyzing the factors influencing clean technology adoption: a study of the Spanish pulp and paper industry. Business Strategy and the Environment, 14, 20-37, 2005.

[69] Naspetti, S., Mandolesi, S., Buysse, J., Latvala, T., Nicholas, P., Padel, S., and Zanoli, R. Determinants of the acceptance of sustainable production strategies among dairy farmers: Development and testing of a modified technology acceptance model. Sustainability, 9, 1805, 2017.

[70] Van Bommel, H.W.M. A conceptual framework for analyzing sustainability strategies in industrial supply networks from an innovation perspective. Journal of Cleaner Production, 19, 895–904, 2011.

[71] Parris, T.M., and Kates, R.W. Characterizing and measuring sustainable development. Annual Review of Environment and Resources, 28, 77–83, 2003.

[72] Labuschagne, C., Brent, A.C., and van Erck, R.P.G. Assessing the sustainability performances of industries. Journal of Cleaner Production, 13, 373–385, 2015.

[73] Despeisse, M., Baumers, M., Brown, P., Charnely, F., Ford, S.J., Garmulewicz, A., Knowles, S., Minshall, T.H.W., Mortara, L., Reed-Tsochas, F.P., et al. Unlocking value for a circular economy through 3D printing: A research agenda. Technological Forecasting and Social Change, 115, 75–84, 2017.

[74] Chen, X., Wang, X., and Chan, H.K. Manufacturer and retailer coordination for environmental and economic competitiveness: A power perspective. Transportation Research Part E: Logistics and Transportation Review, 97, 268–281, 2017.

[75] Greenspan, A. The growing need for skills in the 21st century. BIS Review, 56, 1–3, 2001.

[76] Deif, A.M. A system model for green manufacturing. Journal of Cleaner Production, 19, 1553–1559, 2011.

[77] Vermeulen, W.J.V., and Seuring, S. Introduction: Sustainability through the market- the impacts of sustainable supply chain management. Sustainable Development, 17, 269–273, 2009.

[78] Pero, M., Moretto, A., Bottani, E., and Bigliardi, B. Environmental collaboration for sustainability in the construction industry: An exploratory study in Italy. Sustainability, 9, 125, 2017.

[79] Fugiel, A., Burchart-Korol, D., Czaplicka-Kolarz, K., and Smolinski, A. Environmental impact and damage categories caused by air pollution emissions from mining and quarrying sectors of European countries. Journal of Cleaner Production, 143, 159–168, 2017.

[80] Upstill-Goddard, J., Glass, J., Dainty, A., and Nicholson, I. Implementing sustainability in small and medium-sized construction firms: The role of absorptive capacity. Engineering, Construction and Architectural Management, 23, 407–427, 2016.

[81] Silvestre, B.S. A hard nut to crack! Implementing supply chain sustainability in an emerging economy. Journal of Cleaner Production, 96, 171–181, 2015.

[82] Silvestre, B.S. Sustainable supply chain management in emerging economies: Environmental turbulence, institutional voids and sustainability trajectories. International Journal of Production Economics, 167, 156–169, 2015.

[83] Chung, C., Chao, L., and Lou, S. The establishment of a green supplier selection and guidance mechanism with the ANP and IPA. Sustainability, 8, 259, 2016.

[84] Xia, D., Yu, Q., Gao, Q., and Cheng, G. Sustainable technology selection decision-making model for enterprise in supply chain: Based on a modified strategic balanced scorecard. Journal of Cleaner Production, 141, 1337–1348, 2017.

[85] Schaltegger, S., Etxeberria, I.Á., and Ortas, E. Innovating corporate accounting and reporting for sustainability, attributes and challenges. Sustainable development, 25, 113–122, 2017.

[86] Diana, G.C., Chiappetta Jabbour, C.J., Lopes de Sousa Jabbour, A.B., and Kannan, D. Putting environmental technologies into the mainstream: Adoption of environmental technologies by medium-sized manufacturing firms in Brazil. Journal of Cleaner Production, 142, 4011–4018, 2017.

[87] Gualandris, J., and Kalchschmidt, M. Developing environmental and social performance: The role of suppliers’ sustainability and buyer-supplier trust. International Journal of Production Research, 54, 2470–2486, 2016.

[88] Chinomona, E., and Omoruyi, O. The influence of CSR, innovation and supply chain partnership on firm competitiveness. Risk Governance and Control: Financial Markets and Institutions, 6, 345–354, 2016.

[89] Furlan Matos Alves, M.W., Lopes de Sousa Jabbour, A.B., Kannan, D., and Chiappetta Jabbour, C.J. Contingency theory, climate change, and low-carbon operations management. Supply Chain Management: An International Journal, 22, 223–236, 2017.

[90] Espinoza Pïrez, A.T., Camargo, M., Narvïez Rincïn, P.C., and Alfaro Marchant, M. Key challenges and requirements for sustainable and industrialized bio refinery supply chain design and management: A bibliographic analysis. Renewable and Sustainable Energy Reviews, 69, 350–359, 2017.

[91] Hwang, B.N., Huang, C.Y., and Wu, C.H. A TOE approach to establish a green supply chain adoption decision model in the semiconductor industry. Sustainability, 8, 168, 2016.

[92] Korhonen, J., Pätäri, S., Toppinen, A., and Tuppura, A. The role of environmental regulation in the future competitiveness of the pulp and paper industry: The case of the sulfur emissions directive in Northern Europe. Journal of Cleaner Production, 108, 864–872, 2015.

[93] Cui, L. Fuzzy approach to eco-innovation for enhancing business functions: A case study in China. Industrial Management and Data Systems, 117, 967–987, 2017.

[94] Ravi, V. Analysis of interactions among barriers of eco-efficiency in electronics packaging industry. Journal of Cleaner Production, 101, 16–25, 2015.

[95] Kulak, M., Nemecek, T., Frossard, E., and Gaillard, G. Eco-efficiency improvement by using integrative design and life cycle assessment. The case study of alternative bread supply chains in France. Journal of Cleaner Production, 112, 2452–2461, 2016.

[96] Beh, L., Ghobadian, A., He, Q., Gallear, D., and O’Regan, N. Second-life retailing: A reverse supply chain perspective. Supply Chain Management: An International Journal, 21, 259–272, 2016.

[97] Pipatprapa, A., Huang, H., and Huang, C. A novel environmental performance evaluation of Thailand’s food industry using structural equation modeling and fuzzy analytic hierarchy techniques. Sustainability, 8, 246, 2016.

[98] Tseng, M.L., and Bui, T.D. Identifying eco-innovation in industrial symbiosis under linguistic preferences: A novel hierarchical approach. Journal of Cleaner Production, 140, 1376–1389, 2017.

[99] Sellitto, M.A., and Hermann, F.F. Prioritization of green practices in GSCM: Case study with companies of the peach industry. Gestao Prod, 23, 871–886, 2016.

[100] Sala, S., Anton, A., McLaren, S.J., Notarnicola, B., Saouter, E., and Sonesson, U. In quest of reducing the environmental impacts of food production and consumption. Journal of Cleaner Production, 140, 387–398, 2017.

[101] Du, B., Liu, Q., and Li, G. Coordinating leader-follower supply chain with sustainable green technology innovation on their fairness concerns. International Journal of Environmental Research and Public Health, 14, 1357, 2017.

[102] Xie, G., Yue, W., and Wang, S. Energy efficiency decision and selection of main engines in a sustainable shipbuilding supply chain. Transportation Research Part D: Transport and Environment, 53, 290–305, 2017.

[103] Hayami, H., Nakamura, M., and Nakamura, A.O. Economic performance and supply chains: The impact of upstream firms’ waste output on downstream firms’ performance in Japan. International Journal of Production Economics, 160, 47–65, 2015.

[104] Dong, L., Liang, H., Zhang, L., Liu, Z., Gao, Z., and Hu, M. Highlighting regional eco-industrial development: Life cycle benefits of an urban industrial symbiosis and implications in China. Ecological Modelling, 361, 164–176, 2017.

[105] Chappin, M.M.H., Cambre, B., Vermeulen, P.A.M., and Lozano, R. Internalizing sustainable practices: A configurational approach on sustainable forest management of the Dutch wood trade and timber industry. Journal of Cleaner Production, 107, 760–774, 2015.

[106] Zander, S., Trang, S., and Kolbe, L.M. Drivers of network governance: A multi theoretic perspective with insights from case studies in the German wood industry. Journal of Cleaner Production, 110, 109–120, 2016.

[107] Dev, N.K., and Shankar, R. Using interpretive structure modeling to analyze the interactions between environmental sustainability boundary enablers. Benchmarking, 23, 601–617, 2016.

[108] Jin, M., Tang, R., Ji, Y., Liu, F., Gao, L., and Huisingh, D. Impact of advanced manufacturing on sustainability: An overview of the special volume on advanced manufacturing for sustainability and low fossil carbon emissions. Journal of Cleaner Production, 161, 69–74, 2017.

[109] Polizzi di Sorrentino, E., Woelbert, E., and Sala, S. Consumers and their behavior: State of the art in behavioral science supporting use phase modeling in LCA and eco-design. The International Journal of Life Cycle Assessment, 21, 237–251, 2016.

[110] Peano, C., Girgenti, V., Baudino, C., and Giuggioli, N.R. Blueberry supply chain in Italy: Management, innovation and sustainability. Sustainability, 9, 261, 2017.

[111] Testa, F., Nucci, B., Iraldo, F., Apolloni, A., and Daddi, T. Removing obstacles to the implementation of LCA among SMEs: A collective strategy for exploiting recycled wool. Journal of Cleaner Production, 156, 923–931, 2017.

[112] Vagnoni, E., Franca, A., Porqueddu, C., and Duce, P. Environmental profile of Sardinian sheep milk cheese supply chain: A comparison between two contrasting dairy systems. Journal of Cleaner Production, 165, 1078–1089, 2017.

[113] Horton, P., Koh, L., and Guang, V.S. An integrated fuzzy theoretical framework to enhance resource efficiency, sustainability and human health in agri-food systems. Journal of Cleaner Production, 120, 164–169, 2016.

[114] Flores Hernandez, U., Jaeger, D., and Islas Samperio, J. Bioenergy potential and utilization costs or the supply of forest woody biomass for energetic use at a regional scale in Mexico. Energies, 10, 1192, 2017.

[115] Artsiomchyk, Y., and Zhivitskaya, H. Designing sustainable supply chain under innovation influence. IFAC-Papers Online, 28, 1695–1699, 2015.

[116] Asokan, V.A., Yarime, M., and Esteban, M. Introducing flexibility to complex, resilient socio-ecological systems: A comparative analysis of economics, flexible manufacturing systems, evolutionary biology, and supply chain management. Sustainability, 9, 1091, 2017.

[117] Grekova, K., Calantone, R.J., Bremmers, H.J., Trienekens, J.H., and Omta, S.W.F. How environmental collaboration with suppliers and customers influences firm performance: Evidence from Dutch food and beverage processors. Journal of Cleaner Production, 112, 1861–1871, 2016.

[118] Tseng, B., and Huang, C. Sustainable service and energy provision based on agile rule induction. International Journal of Production Economics, 181, 273–288, 2016.

[119] Khan, S.A.R., and Dong, Q. Impact of green supply chain management practices on firms’ performance: An empirical study from the perspective of Pakistan. Environmental Science and Pollution Research, 24, 16829–16844, 2017.

[120] Bocken, N.M.P., Rana, P., and Short, S.W. Value mapping for sustainable business thinking. Journal of Industrial and Production Engineering, 32, 88–102, 2015.

[121] Zailani, S., Govindan, K., Iranmanesh, M., Shaharudin, M.R., and Chong, Y.S. Green innovation adoption in automotive supply chain: The Malaysian case. Journal of Cleaner Production, 108, 1115–1122, 2015.

[122] Hooks, T., Macken-Walsh, A., McCarthy, O., and Power, C. The impact of a value-based supply chain (VBSC) on firm-level viability, sustainability and resilience: Case study evidence. Sustainability, 9, 267, 2017.

[123] Seetharaman, A., Sandanaraj, L.L., Moorthy, M.K., and Saravanan, A.S. Enterprise framework for renewable energy. Renewable and Sustainable Energy Reviews, 54, 1368–1381, 2016.

[124] Wang, L., and Watanabe, T. Influence of trust on biomass supply decision-making in China. Energies, 10, 1749, 2017.