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Editorial

Sustainability in Supply Chains with Behavioral Concerns

1
School of Business Administration, Zhongnan University of Economics and Law, Wuhan 430073, China
2
Glorious Sun School of Business and Management, Donghua University, Shanghai 200051, China
3
Faculty of Economics and Business, University of Groningen, Nettelbosje 2, 9747 AE Groningen, The Netherlands
*
Author to whom correspondence should be addressed.
Sustainability 2019, 11(15), 4051; https://doi.org/10.3390/su11154051
Submission received: 23 July 2019 / Accepted: 24 July 2019 / Published: 26 July 2019
(This article belongs to the Special Issue Sustainability in Supply Chains with Behavioral Concerns)

Abstract

:
Environmental sustainability has received considerable attention in industry and academia. Many firms have begun to adopt sustainability practices, such as investing in cleaner technology and using organic or recyclable materials, to enhance sustainability in supply chains. Such sustainability practices affect corporate social responsibility and business performance. On the other hand, when consumers and supply chain managers make decisions, they may be constrained by behavioral concerns. Behavioral concerns can significantly influence optimization in supply chains. Thus, it is critical to consider the impacts of behavioral concerns on sustainability in supply chains. In this paper, we concisely examine studies in sustainability issues in supply chains with behavioral concerns and introduce the papers featured in this Special Issue.

1. Introduction

With the emergence of environmental problems, such as global warming caused by carbon emissions, sustainability issues have received considerable attention [1,2]. Various policies related to the environment have been legislated to protect our environment and enhance environmental sustainability for our society [3,4,5]. Meanwhile, the triple bottom line indicates that in order to achieve sustainable development, firms should take into account social and environmental performance in addition to economic performance [6,7,8]. Increasingly, consumers are aware of environmental sustainability and are willing to pay a higher price for eco-friendly products [9,10]. To fulfill social and environmental responsibility and meet consumers’ expectations, firms in various industries have begun to invest in sustainability projects, such as reducing carbon/pollution emissions during the manufacturing process and improving the greenness of products by adopting recyclable materials [11,12]. For example, Apple has allocated a $1.5 billion green bond dedicated to financing sustainability projects since 2011, which has resulted in an 8.9-million-ton reduction of their carbon footprint in 2016 alone [13,14]. H&M, the Sweden fast fashion company, has introduced organic cotton into product development and clean technology to reduce pollution and carbon emissions in its manufacturing process [15]. Marks & Spencer, the largest retailing group in the UK, launched Plan A in 2007 to achieve its sustainability goal by sourcing responsibly, reducing waste, and helping communities [16]. All in all, environmental sustainability concerns and sustainability practices significantly affect the performance of all firms in supply chains [17,18].
On the other hand, there is no doubt that nowadays the role of human behavior in supply chain management is an important and timely topic. Individuals may have different behavioral concerns when they make decisions. In the context of the supply chain, a behavioral concern can exist at the individual (e.g., consumer) level or the organizational (e.g., firm) level. For example, consumers may have fairness concerns when they make purchasing decisions [19,20]. Firms may be imposed on different risk influences when they make operational decisions [21]. The aforementioned behavioral concerns are likely to affect the economic and environmental performance of the supply chain.
Motived by the importance of sustainability and the role of human/organizational behavior in supply chains, we thereby organize this Special Issue on “Sustainability in supply chains with behavioral concerns”. In this paper, we briefly discuss the literature related to sustainability issues in supply chains with the consideration of behavior, and summarize the key findings in the published articles in the Special Issue.

2. Sustainability in Supply Chains with Behavioral Concerns

There is a growing literature focusing on sustainability in supply chains with behavioral concerns. Typical behavioral concerns in the context of sustainability in supply chains include consumer environmental awareness [5,12,22], risk attitude [23,24], loss aversion [25,26], fairness concern [27,28], and strategic behavior [29,30], etc. Many reports show that an increasing number of consumers are aware of environmental sustainability and social responsibility and are more willing to purchase sustainable products. For example, Bemporad and Baranowski [9] and the European Commission [10] show that more than half of consumers they surveyed were willing to pay a higher price for sustainable products. Nielsen [31] conducted a survey study across 60 countries and found that 66% of 30,000 consumers were willing to pay a premium price for sustainable products, which had increased from 55% when compared with the figure for the previous year. The extant literature has investigated sustainability in supply chains with environmentally concerned consumers. Nouira et al. [32] studied the selection of production processes and the choice of input products with environmental constraints and greenness-dependent demand. Du et al. [33] have examined emission reduction strategies for supply chains with consumer preference for low carbon. Dong et al. [5] investigated sustainability investment in a supply chain with environmental awareness consumers under cap-and-trade regulation. Yang and Chen [34]’s findings shed light on the effects of consumer environmental awareness on retailer-driven carbon emission abatement. Chen et al. [35] studied the impact of power structure on sustainable supply chains with environmental awareness consumers. Shi et al. [12] investigated the valuation of the bargaining contract for a sustainable supply chain with environmental awareness consumers. Shi et al. [1] examined the cleaner technologies investment in a supply chain with competing retailers facing environmental awareness consumers.
On the other hand, risk attitude has also received increasing attention in the context of sustainability in supply chains. Choi and Chiu [23] explored the mean-downside-risk and mean-variance newsvendor models for sustainable fashion retailing with the consideration of risk attitude. Lai et al. [24] studied sustainability investment in the supply chain with risk attitude and information sharing. Based on the type of the firm’s risk attitude, i.e., risk-neutral or risk-averse, and the information sharing decisions, i.e., without information sharing or with information sharing, they developed four game-theoretical models to study the effects of risk attitude and information sharing on sustainability investment. Bai and Meng [36] investigated the impact of the firm’s risk aversion for a supply chain with carbon emission reduction constraints by the mean-variance approach. They considered a supply chain with two competing manufacturers and one retailer in which one of the manufacturers invests sustainability efforts to reduce carbon emissions when either the manufacturers or the retailer is risk-averse.
In addition, firms and/or consumers may incur potential losses due to various uncertainties, e.g., supply uncertainty and demand uncertainty, in the supply chain. Firms/consumers have different attitudes towards the loss. Loss aversion is one of the typical types of loss attitudes existing in real practice. There are several papers which study sustainability in a supply chain with loss aversion. Niu et al. [26] studied the effects of power structures on a sustainable supply chain with a loss-averse supplier. Chen and Sheu [25] investigated the green product positioning problem with the consideration of loss-averse consumers. By developing two loss-averse newsvendor models, Choi [37] studied a loss-averse newsvendor with carbon emissions under cap-and-trade regulation. Feng and Tan [38] considered a sustainable supply chain with a loss-averse manufacturer and investigated the impact of risk aversion on the performance and the coordination of the supply chain.
Moreover, research works have shown that firms and/or consumers may exhibit fairness preference, under which firms/consumers not only care about their monetary payoffs but also the fairness outcome of profit allocation in the supply chain [19,28]. There are a few papers in the literature examining the effects of fairness concern on sustainability in supply chains. Li et al. [28] studied the effects of fairness concern on pricing and carbon emission reduction in a supply chain where the retailer has a fairness concern. Du et al. [27] and Liu et al. [39] investigated the effects of fairness concern on green technology investment in a supply chain. Both considered that either the upstream supply chain member or the downstream supply chain member had fairness concern. Zhang et al. [40] studied the joint effect of fairness concern and consumer environmental awareness on sustainability investment in a supply chain.
Furthermore, when making purchasing decisions, consumers may strategically decide when/how/where to buy products based on their behavior. Such strategic behavior should not be ignored by firms because it may significantly affect the firms’ operational decisions in the presence of consumer strategic behavior. There are a few papers which study sustainability in a supply chain with the consideration of strategic consumers. Jiang and Chen [29] studied green technology investment with the consideration of strategic consumer behavior and carbon-emissions-sensitive random demand. Huang and Wang [41]’s work shows the effects of strategic consumer behavior on the performance of a closed-loop supply chain by comparing three remanufacturing scenarios, i.e., no-remanufacturer, partial-remanufacturing, and full-remanufacturing. Chen et al. [30] investigated the joint optimization problem of production and pricing for green crowdfunding products in the presence of strategic consumers.
In this Special Issue, supply chain sustainability with behavioral concerns has been examined and we introduce the accepted articles as follows. Goswami et al. [42] studied the measurement of perceived corporate hypocrisy (PCH) in the context of U.S. retail employees. The role of corporate hypocrisy in sustainability achievements has been addressed in previous research with a focus on consumers’ and/or investors’ perceptions. Departing from the previous literature, the authors investigated PCH from the employees’ perspective. By using a three-stage Item Response Theory modeling approach, they developed a scale to measure employees’ perceived corporate hypocrisy where they could explore four salient components of the employees’ PCH, i.e., perceived lack of morality, perceived control breach, double standards, and a value-behavior gap. They also developed a nine-item PCH sale which was confirmed to be reliable, valid, and unbiased for different demographic groups.
Shao et al. [43] studied the optimal battery recycling strategy for electric vehicles under government subsidies. The authors developed a utility function to capture the feature of behavioral concerns. That is, they considered consumer environmental awareness associated with battery recycling for an electric vehicle. By exploring the interaction between the government and the electric vehicle manufacturer, they examined the effects of government subsidy on the optimal battery recycling strategy. The results demonstrate that in the case of an exogenous government subsidy, the manufacturer either recycles all the batteries or does not recycle batteries when the effect of the recycling scale on costs is unremarkable; otherwise, it recycles used batteries when the benefit from recycling is moderate. When the government subsidy is sufficiently large, the battery recycling rate will be decreased when the subsidy increases. The authors also analyzed a case with endogenous government subsidies and found that optimal recycling strategies are similar to those in the exogenous case, in which the optimal recycling rate depends on the related parameters.
Zhu and Yu [44] investigated the effects of warranty efficiency of remanufactured products on the performance of closed-loop supply chains. As consumers may not be confident in the quality of remanufactured products, closed-loop supply chains would provide warranty services for the remanufactured products to enhance consumers’ perceived value of the products. The authors suggested that the warranty service can be provided by the manufacturer, the retailer, or the remanufacturing system. They showed that which party should provide the warranty service depends on the cost of providing the warranty by a corresponding party. Specifically, when the cost of providing the warranty by the manufacturer is low, then the warranty service should be provided by a manufacturing system; otherwise, it should be provided by the retailer.
Finally, Zou et al. [45] examined the impacts of technology licensing on the performance of a closed-loop supply chain, which consists of one supplier, one manufacturer, and one third-party remanufacturer, with environmental awareness consumers. The authors developed a game-theoretical model to explicitly characterize the interplay between the supplier and the manufacturer upon the adoption of technology licensing. They found that remanufacturing by technology licensing will increase the manufacturer’s profit but decrease the supplier’s profit, and may not always improve environmental performance. In addition, they showed that the existence of remanufactured products does not reduce the quality of the new products.

3. Concluding Remarks

In this paper, we discuss the importance of sustainability issues in supply chains with the consideration of behavior effects. We review the papers in this Special Issue. To summarize, Table 1 presents the core topics and some important findings in the featured papers of this Special Issue.
To conclude, we believe that this paper has highlighted several crucial areas of supply chain sustainability with behavioral concerns. This Special Issue sets out a promising starting point to promote future research in the following aspects. First, behavioral concerns also include social influence among consumers [46]. It would be worthwhile to investigate the impact of social influence on sustainability decisions in supply chains. Second, to improve performance and to better make decisions, information updating and supply chain contracting have been widely used in supply chains [47,48,49]. It would be interesting to examine how information updating and supply chain contracting improve sustainable operational decisions (e.g., adopting clean technologies, reducing carbon emissions, and eliminating water pollution). Third, it may be tricky to implement sustainable practices because they may harm the performance of supply chain members in the short term in outsourcing supply chains [50]. It is urgent and timely to design a sound mechanism to motivate all supply chain members in participating in a joint sustainability effort. Forth, our literature review suggests that previous research mainly focuses on one type of behavioral concerns. Consequently, it would be intriguing to incorporate several types of behavioral concerns in supply chains in future research.

Author Contributions

Four authors are guest editors of this Special Issue. They all have good contributions to the development and completion of this important Special Issue.

Funding

Ciwei Dong is partially supported by the National Science Foundation of China (71601187); Bin Shen is partially supported by the National Science Foundation of China (71871051, 71832001) and Alex von Humboldt Foundation; Qingying Li is partially supported by the National Science Foundation of China (71871052, 71832001), the Fundamental Research Funds for the Central Universities, and DHU Distinguished Young Professor Program; and Xun Tong is partially supported by a Tenure-Track Assistant Professor fund (147120310) from SOM Research Institute, Faculty of Economics and Business, University of Groningen, The Netherlands.

Acknowledgments

We sincerely thank the editor-in-chief Marc A. Rosen and the managing editor Guoshui Liu for their kind support of the development and completion of this meaningful Special Issue. We are also indebted to all reviewers and authors for their excellent work in providing comments and revising manuscripts.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Shi, X.; Dong, C.; Zhang, C.; Zhang, X. Who should invest in clean technologies in a supply chain with competition? J. Clean. Prod. 2019, 215, 689–700. [Google Scholar] [CrossRef]
  2. Shen, B.; Choi, T.M.; Chan, H.L. Selling green first or not? A Bayesian analysis with service levels and environmental impact considerations in the big data era. Technol. Forecast. Soc. Chang. 2019, 144, 412–420. [Google Scholar] [CrossRef]
  3. Chan, H.L.; Choi, T.M.; Cai, Y.; Shen, B. Environmental taxes in newsvendor supply chains: A mean-downside risk analysis. IEEE Trans. Syst. Man Cybern. Syst. 2018. [Google Scholar] [CrossRef]
  4. Cheng, Y.; Kuang, Y.; Shi, X.; Dong, C. Sustainable investment in a supply chain in the big data era: An information updating approach. Sustainability 2018, 10, 403. [Google Scholar] [CrossRef]
  5. Dong, C.; Shen, B.; Chow, P.S.; Yang, L.; Ng, C.T. Sustainability Investment under Cap-and-Trade Regulation. Ann. Oper. Res. 2016, 240, 509–531. [Google Scholar] [CrossRef]
  6. Choi, T.M.; Chow, P.S.; Lee, C.H.; Shen, B. Used intimate apparel collection programs: A game-theoretic analysis. Transp. Res. Part E Logist. Transp. Rev. 2018, 109, 44–62. [Google Scholar] [CrossRef]
  7. Shen, B.; Ding, X.M.; Chen, L.Z.; Chan, H.L. Low carbon supply chain with energy consumption constraints: Case studies from china’s textile industry and simple analytical model. Supply Chain Manag. Int. J. 2017, 22, 258–269. [Google Scholar] [CrossRef]
  8. Tong, X.; Lai, K.; Zhu, Q.; Zhao, S.; Chen, J.; Cheng, T.C.E. Multinational enterprise buyers’ choices for extending corporate social responsibility practices to suppliers in emerging countries: A multi-method study. J. Oper. Manag. 2018, 63, 25–43. [Google Scholar] [CrossRef]
  9. Bemporad, R.; Baranowski, M. Conscious Consumers are Changing the Rules of Marketing: Are You Ready? Highlights from the BBMG Conscious Consumer Report. Available online: http://www.fmi.org/docs/sustainability/BBMG_Conscious_Consumer_White_Paper.pdf (accessed on 20 July 2019).
  10. European Commission. Attitudes of Europeans Citizens Towards the Environment. Available online: http://www.ec.europa.eu/public_opinion/archives/ebs/ebs_295_en.pdf (accessed on 20 July 2019).
  11. Chan, H.L.; Shen, B.; Cai, Y. Quick response strategy with cleaner technology in a supply chain: Coordination and win-win situation analysis. Int. J. Prod. Res. 2018, 56, 3397–3408. [Google Scholar] [CrossRef]
  12. Shi, X.; Chan, H.L.; Dong, C. Value of bargaining contract in a supply chain system with sustainability investment: An incentive analysis. IEEE Trans. Syst. Man Cybern. Syst. 2018, 1–13. [Google Scholar] [CrossRef]
  13. Apple. Environmental Responsibility Report 2017. Available online: https://images.apple.com/environment/pdf/Apple_Environmental_Responsibility_Report_2017.pdf (accessed on 20 July 2019).
  14. Shi, X.; Zhang, X.; Dong, C.; Wen, S. Economic performance and emission reduction of supply chains in different power structures: Perspective of sustainable investment. Energies 2018, 11, 983. [Google Scholar] [CrossRef]
  15. Shen, B. Sustainable Fashion Supply Chain: Lessons from H&M. Sustainability 2014, 6, 6239–6249. [Google Scholar]
  16. Marks & Spencer. Marks & Spencer Plan A Report 2018. Available online: http://corporate.marksandspencer.com/annual-report-2018/mands_plan_a_2018.pdf (accessed on 20 July 2019).
  17. Li, Q.; Shen, B. Sustainable design operations in the supply chain: Non-profit manufacturer vs. for-profit manufacturer. Sustainability 2016, 8, 639. [Google Scholar] [CrossRef]
  18. Shen, B.; Li, Q. Impacts of returning unsold products in retail outsourcing fashion supply chain: A sustainability analysis. Sustainability 2015, 7, 1172–1185. [Google Scholar] [CrossRef]
  19. Cui, H.T.; Raju, J.S.; Zhang, Z.J. Fairness and channel coordination. Manag. Sci. 2007, 53, 1303–1314. [Google Scholar]
  20. Li, Q. The optimal multi-period modular design with fairness concerns. Int. J. Prod. Econ. 2018, 206, 233–249. [Google Scholar] [CrossRef]
  21. Shen, B.; Choi, T.M.; Wang, Y.L.; Lo, K.Y. The coordination of fashion supply chains with a risk-averse supplier under markdown money policy. IEEE Trans. Syst. Man Cybern. Syst. 2013, 43, 266–276. [Google Scholar] [CrossRef]
  22. Shi, X.; Qian, Y.; Dong, C. Economic and environmental performance of fashion supply chain: The joint effect of power structure and sustainable investment. Sustainability 2017, 9, 961. [Google Scholar] [CrossRef]
  23. Choi, T.M.; Chiu, C.H. Mean-downside-risk and mean-variance newsvendor models: Implications for sustainable fashion retailing. Int. J. Prod. Econ. 2012, 135, 552–560. [Google Scholar] [CrossRef]
  24. Lai, X.; Tao, Y.; Wang, F.; Zou, Z. Sustainability investment in maritime supply chain with risk behavior and information sharing. Int. J. Prod. Econ. 2019, 218, 16–29. [Google Scholar] [CrossRef]
  25. Chen, Y.; Sheu, J.B. Non-differentiated green product positioning: Roles of uncertainty and rationality. Transp. Res. Part E Logist. Transp. Rev. 2017, 103, 248–260. [Google Scholar] [CrossRef]
  26. Niu, B.; Chen, L.; Zhang, J. Sustainability analysis of supply chains with fashion products under alternative power structures and loss-averse supplier. Sustainability 2017, 9, 995. [Google Scholar] [CrossRef]
  27. Du, B.; Liu, Q.; Li, G. Coordinating leader-follower supply chain with sustainable green technology innovation on their fairness concerns. Int. J. Environ. Res. Public Health 2017, 14, 1357. [Google Scholar] [CrossRef] [PubMed]
  28. Li, Q.; Xiao, T.; Qiu, Y. Price and carbon emission reduction decisions and revenue-sharing contract considering fairness concerns. J. Clean. Prod. 2018, 190, 303–314. [Google Scholar] [CrossRef]
  29. Jiang, W.; Chen, W. Optimal strategies for manufacturer with strategic customer behavior under carbon emissions-sensitive random demand. Ind. Manag. Data Syst. 2016, 116, 759–776. [Google Scholar] [CrossRef]
  30. Chen, Y.; Zhang, R.; Liu, B. Joint decisions on production and pricing with strategic consumers for green crowdfunding products. Int. J. Environ. Res. Public Health 2017, 14, 1090. [Google Scholar] [CrossRef]
  31. Nielsen, C. The Sustainability Imperative: New Insights on Consumer Expectations. Available online: https://www.nielsen.com/wp-content/uploads/sites/3/2019/04/Global20Sustainability20Report20DIGITAL20FINAL.pdf (accessed on 20 July 2019).
  32. Nouira, I.; Frein, Y.; Hadj-Alouane, A.B. Optimization of manufacturing systems under environmental considerations for a greenness-dependent demand. Int. J. Prod. Econ. 2014, 150, 188–198. [Google Scholar] [CrossRef]
  33. Du, S.; Zhu, J.; Jiao, H.; Ye, W. Game-theoretical analysis for supply chain with consumer preference to low carbon. Int. J. Prod. Res. 2015, 53, 3753–3768. [Google Scholar] [CrossRef]
  34. Yang, H.; Chen, W. Retailer-driven carbon emission abatement with consumer environmental awareness and carbon tax: Revenue-sharing versus cost-sharing. Omega 2018, 78, 179–191. [Google Scholar] [CrossRef]
  35. Chen, X.; Wang, X.; Chan, H.K. Manufacturer and retailer coordination for environmental and economic competitiveness: A power perspective. Transp. Res. Part E Logist. Transp. Rev. 2017, 97, 268–281. [Google Scholar] [CrossRef] [Green Version]
  36. Bai, Q.; Meng, F. Impact of risk aversion on two-echelon supply chain systems with carbon emission reduction constraints. J. Ind. Manag. Optim. 2017, 13, 1–23. [Google Scholar] [CrossRef]
  37. Choi, S. A loss-averse newsvendor with cap-and-trade carbon emissions regulation. Sustainability 2018, 10, 2126. [Google Scholar] [CrossRef]
  38. Feng, Z.; Tan, C. Pricing, green degree and coordination decisions in a green supply chain with loss aversion. Mathematics 2019, 7, 239. [Google Scholar] [CrossRef]
  39. Liu, Z.; Zheng, X.-X.; Gong, B.G.; Gui, Y.-M. Joint decision-making and the coordination of a sustainable supply chain in the context of carbon tax regulation and fairness concerns. Int. J. Environ. Res. Public Health 2017, 14, 1464. [Google Scholar] [CrossRef] [PubMed]
  40. Zhang, L.; Zhou, H.; Liu, Y.; Lu, R. Optimal environmental quality and price with consumer environmental awareness and retailer’s fairness concerns in supply chain. J. Clean. Prod. 2019, 213, 1063–1079. [Google Scholar] [CrossRef]
  41. Huang, Y.; Wang, Z. Pricing and production decisions in a closed-loop supply chain considering strategic consumers and technology licensing. Int. J. Prod. Res. 2019, 57, 2847–2866. [Google Scholar] [CrossRef]
  42. Goswami, S.; Ha-Brookshire, J.; Bonifay, W. Measuring perceived corporate hypocrisy: Scale development in the context of U.S. retail employees. Sustainability 2018, 10, 4756. [Google Scholar] [CrossRef]
  43. Shao, Y.; Deng, X.; Qing, Q.; Wang, Y. Optimal battery recycling strategy for electric vehicle under government subsidy in china. Sustainability 2018, 10, 4855. [Google Scholar] [CrossRef]
  44. Zhu, X.; Yu, L. The impact of warranty efficiency of remanufactured products on production decisions and green growth performance in closed-loop supply chain: Perspective of consumer behavior. Sustainability 2019, 11, 1420. [Google Scholar] [CrossRef]
  45. Zuo, Z.; Wang, F.; Lai, X.; Hong, J. How does licensing remanufacturing affect the supply chain considering customer environmental awareness? Sustainability 2019, 11, 1898. [Google Scholar] [CrossRef]
  46. Chiu, C.H.; Choi, T.M.; Dai, X.; Shen, B.; Zheng, J. Optimal advertising budget allocation in luxury fashion markets with social influences. Prod. Oper. Manag. 2018, 27, 1611–1629. [Google Scholar] [CrossRef]
  47. Shen, B.; Choi, T.M.; Minner, S. A review on supply chain contracting with information considerations: Information updating and information asymmetry. Int. J. Prod. Res. 2018. [Google Scholar] [CrossRef]
  48. Dong, C.; Yang, Y.; Zhao, M. Dynamic selling strategy for a firm under asymmetric information: Direct selling vs. agent selling. Int. J. Prod. Econ. 2018, 204, 204–213. [Google Scholar] [CrossRef]
  49. Shi, X.; Dong, C.; Cheng, T.C.E. Does the buy-online-and-pick-up-in-store strategy with pre-orders benefit a retailer with the consideration of return? Int. J. Prod. Econ. 2018, 206, 134–145. [Google Scholar] [CrossRef]
  50. Shen, B.; Li, Q.; Dong, C.W.; Quan, V. Design outsourcing in fashion supply chain: OEM versus ODM. J. Oper. Res. Soc. 2016, 67, 259–268. [Google Scholar] [CrossRef]
Table 1. Features of the papers in this special issue.
Table 1. Features of the papers in this special issue.
PaperTopicsCore Insights/Contributions
Goswami et al. [42]Measuring employees’ perceived corporate hypocrisy
  • Discovering four salient components of the employees’ perceived corporate hypocrisy (PCH), i.e., the perceived lack of morality, perceived control breach, double standards, and a value-behavior gap.
  • Developing a nine-item PCH sale that was confirmed to be reliable, valid, and unbiased for different demographics groups.
Shao et al. [43]Optimal battery recycling strategy for an electric vehicle under government subsidy
  • In both cases, i.e., with the exogenous government subsidy and with the endogenous government subsidy, the manufacturer’s optimal battery recycling strategy depends on related parameters.
  • When the government subsidy is sufficiently large, the battery recycling rate will be decreased if the subsidy increases.
Zhu and Yu [44]The effects of warranty efficiency of remanufactured products on the performance of a closed-loop supply chain
  • Whether the manufacturer or retailer should provide the warranty service depends on the cost of providing the warranty by each party. Specifically, if the cost of providing the warranty by the manufacturer is low, then the warranty service should be provided by the manufacturing system; otherwise, it should be provided by the retailer.
Zou et al. [45]The impacts of technology licensing on the performance of a closed-loop supply chain with environmental awareness consumers
  • The remanufacturing by technology licensing will increase the manufacturer’s profit while decreasing the supplier’s profit.
  • The existence of remanufactured products does not reduce the quality of new products.
  • The remanufacturing by technology licensing may not always improve the environment.

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MDPI and ACS Style

Dong, C.; Li, Q.; Shen, B.; Tong, X. Sustainability in Supply Chains with Behavioral Concerns. Sustainability 2019, 11, 4051. https://doi.org/10.3390/su11154051

AMA Style

Dong C, Li Q, Shen B, Tong X. Sustainability in Supply Chains with Behavioral Concerns. Sustainability. 2019; 11(15):4051. https://doi.org/10.3390/su11154051

Chicago/Turabian Style

Dong, Ciwei, Qingying Li, Bin Shen, and Xun Tong. 2019. "Sustainability in Supply Chains with Behavioral Concerns" Sustainability 11, no. 15: 4051. https://doi.org/10.3390/su11154051

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