Blockchain technology is a decentralized, distributed ledger that maintains a continuously growing list of records, called blocks, which are linked and secured using cryptography. Each block contains a cryptographic hash of the previous block, a timestamp, and transaction data. This technology is the backbone of cryptocurrencies, such as Bitcoin and Ethereum, and has a wide range of applications in various industries, including finance.
FinTech, or financial technology, refers to the use of technology to improve and automate financial services. FinTech has disrupted traditional financial services by introducing innovative solutions that are faster, more efficient, and more convenient. Examples of FinTech solutions include mobile payments, peer-to-peer lending, digital wallets, and robo-advisors.
Blockchain technology has the potential to transform the financial industry by making transactions faster, cheaper, and more secure. The use of blockchain technology in finance enables decentralized, peer-to-peer transactions that eliminate the need for intermediaries such as banks. It also provides greater transparency and accountability in financial transactions, reducing the risk of fraud and corruption.
Overall, blockchain technology has the potential to revolutionize the financial industry by making transactions faster, cheaper, and more secure. FinTech companies are at the forefront of this transformation, using blockchain technology to create innovative solutions that are disrupting traditional financial services.
After completing this course you will get your certificate and you can call yourself a certified Blockchain developer.
Blockchain technology: Why, What, How:
- Why Do We Need a Decentralised Ledger System? Part 1
- Why Do We Need a Decentralised Ledger System? Part 2
- Having a Centralised Trusted Party – Advantages and Disadvantages
- Security, Integrity and Privacy Issues of a Decentralized System
- Blockchain – A Technology that Makes Sense with Trust and Coordination
(An Interview with Charles d’Haussy from ConsenSys)
- What Are the Main Barriers to Blockchain Adoption?
(Charles d’Haussy from ConsenSys)
- Why Use Blockchain Technology?
(Henri Arslanian from PwC)
Technological and Cryptographic Elements in Blockchain
- Cryptographic Elements: Public Key & Private Key
- Cryptographic Elements: Digital Signature & Hash Value
- Cryptographic Elements: Real-life Scenario Challenges
- Cryptographic Technology: Key Questions for Blockchain
- Cryptographic Technology: Who can Modify Transactions?
- Cryptographic Technology: Who will Maintain Transactions?
- Cryptographic Technology: How to Protect Our Privacy?
- Public-key Cryptography
(Prasanna Mathiannal from MaGEHold)
- Classification of Blockchain Platforms (Part 1) – An Overview of the 5 Key Perspective
- Classification of Blockchain Platforms (Part 2) – Perspectives No. 1 and 2
- Classification of Blockchain Platforms (Part 3) – Perspective No. 3
- Classification of Blockchain Platforms (Part 4) – Perspectives No. 4 and 5
- Highlights of Major Blockchain Platforms
- What is Ethereum?
- What is Ethereum’s Place in Today’s FinTech Ecosystem?
- Trustlessness and Immutability of Blockchain Technology
- Proof of Work and Proof of Stake
- What is a Token?
- Tokenizing Shares and Fund Raising
- What is Hyperledger?
- 6 Selection Criteria for Blockchain Applications (Part 1) Key Factors 1, 2, 3
- 6 Selection Criteria for Blockchain Applications (Part 2) Key Factors 4, 5, 6
- 6 Selection Criteria for Blockchain Applications (Part 3) Best Fit Applications
- 6 Selection Criteria for Blockchain Applications (Part 4) Decision Making
- Blockchain and Enterprise – A Technology of Coordination
- Why Permissioned Blockchains Are Used in Enterprise Network?
- Use Case: Blockchains for Trade Finance
- Use Case: Blockchains for Supply Chain Financing
- Use Case: Cross Border Connectivity – Trusted Data Transfer
- How to Deploy an Application on the Ethereum Blockchain?
- Use Case: Bounties Award Ethereum for Cleaning Beaches
- ConsenSys and the Ethereum Platform
- ConsenSys Use Case: Project i2i
- Blockchain Use Case: More on Trade Finance and Supply Chain
- Blockchain Use Case: Capital Markets
- Blockchain Use Cases on General Government Services & Sustainable Livelihood
The Limitations, Opportunities and Challenges of Blockchain
- 5 modules in Blockchain system
- Limitations of Blockchains (Part 1)
- Limitations of Blockchains (Part 2)
- Risks and Limitations of Blockchain: Privacy
- Risks and Limitations of Blockchain: Security
- The Five Security Risks of Blockchain
- Applied Smart Contracts: Opportunities, Risks, and Applications for Enterprise
- Applied Smart Contracts (DAML): Step-by-Step Example
- Use Case: Blockchain for Health Insurance
- Use Case: Blockchain & PropTech
- What Are the Benefits of Blockchain in Banking?
- How Can Blockchain Technology Benefit the Healthcare Industry?
- Institutional Investment Opportunities in the Digital Asset Space
- Facebook’s Libra – Development in Blockchain, DLT and Cryptocurrency (Part 1)
- Facebook’s Libra – Development in Blockchain, DLT and Cryptocurrency (Part 2)
- Facebook’s Libra – Development in Blockchain, DLT and Cryptocurrency (Part 3)
- Facebook’s Libra – Development in Blockchain, DLT and Cryptocurrency (Part 4)
The “Evil Sides” of Blockchain and Legal Regulations for Blockchain
- The Evil Sides of Blockchains Part 1 Ransomware
- The Evil Sides of Blockchains Part 2: Money Laundering
- The Evil Sides of Blockchains Part 3: Cyber Currencies
- The Evil Sides of Blockchains Part 4 Cyber Security Exchanges
- The “Dark” Side of Blockchain
- Criminal Use of Payment Blockchains
- The Role of Financial Regulations for Blockchain
- Does Blockchain Need Legal Regulations?
- Global Digital Assets Regulatory Trends
|Monday||10:00 am – 9.00 pm|
|Tuesday||10:00 am – 9.00 pm|
|Wednesday||10:00 am – 9.00 pm|
|Thursday||10:00 am – 9.00 pm|
|Friday||10:00 am – 9.00pm|
|Saturday||10:00 am – 9.00 pm|
|Sunday||10:00 am – 9.00 pm|