BAN435 Blockchain Technology and Applications

• Topics

  Driven by the remarkable success of cryptocurrencies such as Bitcoin and Ethereum, blockchain technology has been hyped as a disruptive force that could challenge traditional financial structures and business models. Potential applications of blockchain technology have been explored far beyond cryptocurrencies and the financial sector. For instance, blockchain applications have been considered to improve the sustainability of supply chains and to increase the efficiency of public administration. On the other hand, thus far only few blockchain-based applications have been successful in companies and the public sector.

  The purpose of this course is to look beyond the hype and provide a balanced picture of what blockchain can do and what it cannot. Students will learn about its technical building blocks, important but often misunderstood characteristics such as energy consumption, transparency, and scalability, as well as areas of successful and unsuccessful application. Through term papers, students will investigate the potential pitfalls of using blockchain technology and how the technology can create value. The course will answer questions such as:

  • What are the core technical building blocks of blockchains and the characteristics of smart contracts?
  • Why are some blockchains highly energy-demanding while others are not, and can blockchain use reduce overall energy use?
  • What are NFTs and in which marketplaces can they be used?
  • What are the unique technical and organizational benefits and challenges of using blockchain?
  • What areas of applications have been explored so far and where and why have blockchains proven useful?

• Learning outcome

  Upon successful completion of the course, the students will have attained the following:

  Knowledge:

  • Understand blockchain’s technical foundations.
  • Understand key opportunities and challenges of blockchain.
  • Understand how blockchain can be used in specific applications.

  Skills:

  • Recognize misconceptions about blockchain.
  • Identify promising and less promising use cases.
  • Weigh the opportunities and challenges of using blockchain for an IT project.

  General competence:

  • Developed a "bullshit radar" that allows them to distinguish between hype and justified explorations of the technology.
  • Adapt the concepts behind blockchain to the specific requirements of different applications.
  • Capability to assess the effectiveness and sustainability characteristics of blockchain-based applications.

• Teaching

  This course combines lectures and a programming tutorial to become familiar with implementing smart contracts in Solidity. A laptop or desktop is required for students.

• Recommended prerequisites

  A basic programming experience in one of the popular higher-level programming languages, such as Python, C/C++, Java, Kotlin, JavaScript, Go, and others.

• Credit reduction due to overlap

  None.

• Compulsory Activity

  Mandatory participation in more than 60% of the lectures.

• Assessment

  Term paper (3500 - 4000 words) written in groups of 2-3 students within one month after the final lecture.

• Grading Scale

  Pass-Fail

• Literature

  • Arun, J., Cuomo, J., & Gaur, N (2019). Blockchain for Business 1st Edition.
  • Barbereau, T., Ermolaev, E., Brennecke, M., Hartwich, E., & Sedlmeir, J. (2023). Beyond a fistful of tumblers: Toward a taxonomy of Ethereum-based mixers. Proceedings of the 44th International Conference on Information Systems.https://aisel.aisnet.org/icis2023/cyber_security/cyber_security/13/https://aisel.aisnet.org/icis2023/cyber_security/cyber_security/13/
  • Butijn, B.J., Tamburri, D.A. and Heuvel, W.J.V.D., 2020. Blockchains: a systematic multivocal literature review. ACM Computing Surveys, 53(3). https://doi.org/10.1145/3369052https://doi.org/10.1145/3369052
  • Drescher, D. (2017). Blockchain Basics: A Non-Technical Introduction in 25 Steps.
  • Jensen, T., Hedman, & Henningsson, S. (2019). How TradeLens delivers business value with blockchain technology. MIS Quarterly Executive, 18(4). https://aisel.aisnet.org/misqe/vol18/iss4/5https://aisel.aisnet.org/misqe/vol18/iss4/5
  • Gramlich, V., Jelito, D., & Sedlmeir, J. (2024). Maximal extractable value: Current understanding, categorization, and open research questions. Electronic Markets, 34(1), 49. https://doi.org/10.1007/s12525-024-00727-xhttps://doi.org/10.1007/s12525-024-00727-x
  • Lacity, M. (2018). Addressing key challenges to making enterprise blockchain applications a reality. MIS Quarterly Executive, 17(3). https://aisel.aisnet.org/misqe/vol17/iss3/3https://aisel.aisnet.org/misqe/vol17/iss3/3
  • Lumineau, F., Wang, W., & Schilke, O. (2021). Blockchain governance—A new way of organizing collaborations?. Organization Science, 32(2), 500-521. https://doi.org/10.1287/orsc.2020.1379https://doi.org/10.1287/orsc.2020.1379
  • Napirata, S., Sedlmeir, J., Rieger, A., Fridgen, G., & Zimmermann, S. (2023). The competition effect of decentralized platforms: An analytical model. Proceedings of the 44th International Conference on Information Systems. https://aisel.aisnet.org/icis2023/sharing_econ/sharing_econ/16/https://aisel.aisnet.org/icis2023/sharing_econ/sharing_econ/16/
  • Pedersen, A.B., Risius, M., & Beck, R. (2019). A ten-step decision path to determine when to use blockchain technologies. MIS Quarterly Executive, 18(2). https://doi.org/10.17705/2msqe.00010https://doi.org/10.17705/2msqe.00010
  • Rieger, A., Guggenmos, F., Lockl, J., Fridgen, G., & Urbach, N. (2019). Building a blockchain application that complies with the EU General Data Protection Regulation. MIS Quarterly Executive, 18(4), 263-279. https://doi.org/10.17705/2msqe.00020https://doi.org/10.17705/2msqe.00020
  • Rossi, M., Müller-Bloch, C., Thatcher, J.B., & Beck, R. (2019). Blockchain research in Information

  Systems: Current trends and an inclusive future research agenda. Journal of the Association for

  Information Systems, 20(9), 1388-1403. https://doi.org/10.17705/1jais.00571https://doi.org/10.17705/1jais.00571

  • Roth, T., Utz, M., Baumgarte, F., Rieger, A., Sedlmeir, J., & Strüker, J. (2022). Electricity powered by blockchain: A review with a European perspective. Applied Energy, 325, 119799. https://doi.org/10.1016/j.apenergy.2022.119799https://doi.org/10.1016/j.apenergy.2022.119799
  • Roth, T., Stohr, A., Amend, J., Fridgen, G., & Rieger, A. (2022). Blockchain as a driving force of federalism: Insights from the German asylum procedure. International Journal of Information Management. https://doi.org/10.1016/j.ijinfomgt.2022.102476https://doi.org/10.1016/j.ijinfomgt.2022.102476
  • Sedlmeir, J., Buhl, H. U., Fridgen, G., & Keller, R. (2020). The energy consumption of blockchain technology: Beyond myth. Business & Information Systems Engineering, 62(6), 599-608. https://doi.org/10.1007/s12599-020-00656-xhttps://doi.org/10.1007/s12599-020-00656-x
  • Sedlmeir, J., Lautenschlager, J., Fridgen, G., & Urbach, N. (2022). The transparency challenge of blockchain in organizations. Electronic Markets. https://doi.org/10.1007/s12525-022-00536-0https://doi.org/10.1007/s12525-022-00536-0
  • Sunyaev, A., Kannengießer, N., Beck, R., Treiblmaier, H., Lacity, M., Kranz, J., ... & Luckow, A. (2021). Token economy. Business & Information Systems Engineering, 63(4), 457-478. https://doi.org/10.1007/s12599-021-00684-1https://doi.org/10.1007/s12599-021-00684-1
  • Zavolokina, L., Miscione, G. & Schwabe, G. Buyers of ‘lemons’: How can a blockchain platform address buyers’ needs in the market for ‘lemons’? Electronic Markets 30, 227-239 (2020). https://doi.org/10.1007/s12525-019-00380-9https://doi.org/10.1007/s12525-019-00380-9