
SUI
Sui价格
$2.9429
+$0.26000
(+9.69%)
过去 24 小时的价格变化

免责声明
本页面的社交内容 (包括由 LunarCrush 提供支持的推文和社交统计数据) 均来自第三方,并按“原样”提供,仅供参考。本文内容不代表对任何数字货币或投资的认可或推荐,也未获得欧易授权或撰写,也不代表我们的观点。我们不保证所显示的用户生成内容的准确性或可靠性。本文不应被解释为财务或投资建议。在做出投资决策之前,评估您的投资经验、财务状况、投资目标和风险承受能力并咨询独立财务顾问至关重要。过去的表现并不代表未来的结果。您的投资价值可能会波动,您可能无法收回您投资的金额。您对自己的投资选择自行承担全部责任,我们对因使用本信息而造成的任何损失或损害不承担任何责任。提供外部网站链接是为了用户方便,并不意味着对其内容的认可或控制。
请参阅我们的 使用条款 和 风险警告,了解更多详情。通过使用第三方网站(“第三方网站”),您同意对第三方网站的任何使用均受第三方网站条款的约束和管辖。除非书面明确说明,否则欧易及其关联方(“OKX”)与第三方网站的所有者或运营商没有任何关联。您同意欧易对您使用第三方网站而产生的任何损失、损害和任何其他后果不承担任何责任。请注意,使用第三方网站可能会导致您的资产损失或贬值。本产品可能无法在所有司法管辖区提供或适用。
请参阅我们的 使用条款 和 风险警告,了解更多详情。通过使用第三方网站(“第三方网站”),您同意对第三方网站的任何使用均受第三方网站条款的约束和管辖。除非书面明确说明,否则欧易及其关联方(“OKX”)与第三方网站的所有者或运营商没有任何关联。您同意欧易对您使用第三方网站而产生的任何损失、损害和任何其他后果不承担任何责任。请注意,使用第三方网站可能会导致您的资产损失或贬值。本产品可能无法在所有司法管辖区提供或适用。
Sui 市场信息
市值
市值是通过流通总应量与最新价格相乘进行计算。市值 = 当前流通量 × 最新价
流通总量
目前该代币在市场流通的数量
市值排行
该资产的市值排名
历史最高价
该代币在交易历史中的最高价格
历史最低价
该代币在交易历史中的最低价格
24 小时最高
$2.9590
24 小时最低
$2.6487
历史最高价
$5.3681
-45.18% (-$2.4252)
最后更新日期:2025年1月7日 (UTC+8)
历史最低价
$0.10000
+2,842.89% (+$2.8429)
最后更新日期:2023年5月3日 (UTC+8)
您认为 SUI 今天会涨还是会跌?
您可以点赞或点踩来表达对该币种今日涨跌的预测
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Sui 动态资讯
以下内容源自 。

THEDEFIPLUG
BTCFi Alpha 文件 #01
BTCFi 生态系统的 TVL 年同比激增 543%,从 2024 年 7 月 1 日的 9.87 亿美元跃升至今天的 63.5 亿美元。
这并不是由空投元或短暂叙事炒作推动的浪潮。
这是深厚基础设施的结果:
> 时间戳最终性
> LST 抽象
> 模块化安全层
这些不仅仅是为比特币构建的,它们是内置于比特币中的。
在引擎盖下?一堆协议解决比特币基础设计的结构性限制。
这是为 DeFi 重新架构的比特币。
◢ 这是我最喜欢的 BTCFi 协议推荐:
1️⃣ @babylonlabs_io
TVL:48 亿美元
叙事:比特币原生再质押。
Babylon 通过时间戳证明实现自我保管的 $BTC 质押。$BTC 保留在 L1,但为 PoS 链提供安全性并赚取 $BABY 奖励。
为什么它独特:
• 无需桥接或包裹的 $BTC
• 使用比特币共识的原生再质押
• 80% 的 BTCFi TVL 通过它流动
Babylon 使 BTC 再质押变得无信任且可组合。
2️⃣ @Lombard_Finance
TVL:16.3 亿美元
叙事:流动质押 + 收益金库。
Lombard 建立在 Babylon 之上,发行 $LBTC 并通过在以太坊、Sui 和 Berachain 等链上的金库将其部署到 DeFi 策略中(@Morpholabs、@pendle_fi 和 DEXs)。
为什么它独特:
• 解锁质押 $BTC 的流动性
• 与真实收益市场集成
• 从第一天起就跨链
Lombard 将 $BTC 转变为生产性、可组合的资本。
3️⃣ @SolvProtocol
TVL:4.61 亿美元
叙事:跨链 BTC 流动性抽象。
Solv 引入 $SolvBTC 和 SolvBTC.LSTs,可以在 @babylonlabs_io、@eigenlayer 和 @symbioticfi 上质押。质押抽象层 (SAL) 协调验证者路由、LST 发行和收益流。
为什么它独特:
• 双储备 $BTC 架构
• SAL 抽象质押基础设施
• 默认可互操作
Solv 构建了以太坊的 $BTC 桥梁从未拥有的抽象层。
4️⃣ @b14g_network
TVL:1.82 亿美元
叙事:具有双代币安全性的模块化再质押。
用户质押 BTC 和 b14g 代币,调整激励并允许协议插入可定制的再质押层。
为什么它独特:
• 双代币模型减少抛售压力
• 模块化安全设计
• 从一开始就可持续的代币经济学
b14g 扩展了 BTCFi 设计表面的再质押灵活性。
✍️ 我的看法
BTCFi 并没有追逐以太坊的可组合性军备竞赛。
它是以保管为先,最小化信任,并且结构上稳健。
这五个协议中的每一个都解锁了金融功能的关键部分:
• Babylon → 自我保管再质押
• Lombard → $BTC 的跨链 DeFi
• Solv → 流动性抽象与 LST 路由
• b14g → 应用链的模块化再质押轨道
比特币不再仅仅是硬通货。
它正在缓慢、安全且不可逆转地演变为一个全栈经济系统。
PS:我没有包括 $CORE,因为它是一个独立的链。但它仍然是我最喜欢的之一。
查看原文

58
2

Lsb108
InfoFi 将用户参与转化为财务价值。在当今的数字世界中,声誉是最有价值的货币 🌠
得益于 Galxe Starboard,像 @SuiNetwork、@0G_labs、@plumenetwork 等前瞻性品牌正在积极奖励有意义的贡献——无论是链上还是链下。
下一个增长浪潮?一切都在于利用数据来推动实际结果。@Galxe #Starboard

Galxe
InfoFi 将参与转化为资本。声誉是新的货币 🌠
通过 Galxe Starboard,像 @SuiNetwork、@0G_labs、@plumenetwork 等品牌奖励链上和链下的影响力。未来的增长是数据驱动的。
20
0
USD 兑换 SUI


Sui 价格表现 (美元)
Sui 当前价格为 $2.9429。Sui 的价格在过去 24 小时内上涨了 +9.69%。目前,Sui 市值排名为第 0 名,实时市值为 $101.40亿,流通供应量为 3,455,015,253 SUI,最大供应量为 10,000,000,000 SUI。我们会实时更新 Sui/USD 的价格。
今日
+$0.26000
+9.69%
7 天
+$0.17470
+6.31%
30 天
-$0.33540
-10.24%
3 个月
+$0.67910
+29.99%
关于 Sui (SUI)
此评级是欧易从不同来源收集的汇总评级,仅供一般参考。欧易不保证评级的质量或准确性。欧易无意提供 (i) 投资建议或推荐;(ii) 购买、出售或持有数字资产的要约或招揽;(iii) 财务、会计、法律或税务建议。包括稳定币和 NFT 的数字资产容易受到市场波动的影响,风险较高,波动较大,可能会贬值甚至变得一文不值。数字资产的价格和性能不受保证,且可能会发生变化,恕不另行通知。您的数字资产不受潜在损失保险的保障。 历史回报并不代表未来回报。欧易不保证任何回报、本金或利息的偿还。欧易不提供投资或资产建议。您应该根据自身的财务状况仔细考虑交易或持有数字资产是否适合您。具体情况请咨询您的专业法务、税务或投资人士。
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关于第三方网站
关于第三方网站
通过使用第三方网站(“第三方网站”),您同意对第三方网站的任何使用均受第三方网站条款的约束和管辖。除非书面明确说明,否则 OKX 及其关联方(“OKX”)与第三方网站的所有者或运营商没有任何关联。您同意 OKX 对您使用第三方网站而产生的任何损失、损害和任何其他后果不承担任何责任。请注意,使用第三方网站可能会导致您的资产损失或贬值。
Sui 常见问题
Sui 今天值多少钱?
目前,一个 Sui 价值是 $2.9429。如果您想要了解 Sui 价格走势与行情洞察,那么这里就是您的最佳选择。在欧易探索最新的 Sui 图表,进行专业交易。
数字货币是什么?
数字货币,例如 Sui 是在称为区块链的公共分类账上运行的数字资产。了解有关欧易上提供的数字货币和代币及其不同属性的更多信息,其中包括实时价格和实时图表。
数字货币是什么时候开始的?
由于 2008 年金融危机,人们对去中心化金融的兴趣激增。比特币作为去中心化网络上的安全数字资产提供了一种新颖的解决方案。从那时起,许多其他代币 (例如 Sui) 也诞生了。
Sui 的价格今天会涨吗?
查看 Sui 价格预测页面,预测未来价格,帮助您设定价格目标。
ESG 披露
ESG (环境、社会和治理) 法规针对数字资产,旨在应对其环境影响 (如高能耗挖矿)、提升透明度,并确保合规的治理实践。使数字代币行业与更广泛的可持续发展和社会目标保持一致。这些法规鼓励遵循相关标准,以降低风险并提高数字资产的可信度。
资产详情
名称
OKCoin Europe Ltd
相关法人机构识别编码
54930069NLWEIGLHXU42
代币名称
Sui
共识机制
The Sui blockchain utilizes a Byzantine Fault Tolerant (BFT) consensus mechanism optimized for high throughput and low latency. Core Components 1. Mysten Consensus Protocol: The Sui consensus is based on Mysten Labs' Byzantine Fault Tolerance (BFT) protocol, which builds on principles of Practical Byzantine Fault Tolerance (pBFT) but introduces key optimizations for performance. Leaderless Design: Unlike traditional BFT models, Sui does not rely on a single leader to propose blocks. Validators can propose blocks simultaneously, increasing efficiency and reducing the risks associated with leader failure or attacks. Parallel Processing: Transactions can be processed in parallel, maximizing network throughput by utilizing multiple cores and threads. This allows for faster confirmation of transactions and high scalability. 2. Transaction Validation: Validators are responsible for receiving transaction requests from clients and processing them. Each transaction includes digital signatures and must meet the network’s rules to be considered valid. Validators can propose transactions simultaneously, unlike many other networks that require a sequential, leader-driven process. 3. Optimistic Execution: Optimistic Consensus: Sui allows validators to process certain non-contentious, independent transactions without waiting for full consensus. This is known as optimistic execution and helps reduce transaction latency for many use cases, allowing for fast finality in most cases. 4. Finality and Latency: The system only requires three rounds of communication between validators to finalize a transaction. This results in low-latency consensus and rapid transaction confirmation times, achieving scalability while maintaining security. Fault Tolerance: The system can tolerate up to one-third of validators being faulty or malicious without compromising the integrity of the consensus process.
奖励机制与相应费用
Security and Economic Incentives: 1. Validators: Validators stake SUI tokens to participate in the consensus process. They earn rewards for validating transactions and securing the network. Slashing: Validators can be penalized (slashed) for malicious behavior, such as double-signing or failing to properly validate transactions. This helps maintain network security and incentivizes honest behavior. 2. Delegation: Token holders can delegate their SUI tokens to trusted validators. In return, they share in the rewards earned by validators. This encourages widespread participation in securing the network. Fees on the SUI Blockchain 1. Transaction Fees: Users pay transaction fees to validators for processing and confirming transactions. These fees are calculated based on the computational resources required to process the transaction. Fees are paid in SUI tokens, which is the native cryptocurrency of the Sui blockchain. 2. Dynamic Fee Model: The transaction fees on Sui are dynamic, meaning they adjust based on network demand and the complexity of the transactions being processed.
信息披露时间段的开始日期
2024-07-01
信息披露时间段的结束日期
2025-07-01
能源报告
能源消耗
385264.80000 (kWh/a)
可再生能源消耗
26.538687083 (%)
能源强度
0.00001 (kWh)
主要能源来源与评估体系
To determine the proportion of renewable energy usage, the locations of the nodes are to be determined using public information sites, open-source crawlers and crawlers developed in-house. If no information is available on the geographic distribution of the nodes, reference networks are used which are comparable in terms of their incentivization structure and consensus mechanism. This geo-information is merged with public information from Our World in Data, see citation. The intensity is calculated as the marginal energy cost wrt. one more transaction.
Ember (2025); Energy Institute - Statistical Review of World Energy (2024) - with major processing by Our World in Data. “Share of electricity generated by renewables - Ember and Energy Institute” [dataset]. Ember, “Yearly Electricity Data Europe”; Ember, “Yearly Electricity Data”; Energy Institute, “Statistical Review of World Energy” [original data]. Retrieved from https://ourworldindata.org/grapher/share-electricity-renewables.
能源消耗来源与评估体系
The energy consumption of this asset is aggregated across multiple components:
For the calculation of energy consumptions, the so called 'bottom-up' approach is being used. The nodes are considered to be the central factor for the energy consumption of the network. These assumptions are made on the basis of empirical findings through the use of public information sites, open-source crawlers and crawlers developed in-house. The main determinants for estimating the hardware used within the network are the requirements for operating the client software. The energy consumption of the hardware devices was measured in certified test laboratories. When calculating the energy consumption, we used - if available - the Functionally Fungible Group Digital Token Identifier (FFG DTI) to determine all implementations of the asset of question in scope and we update the mappings regulary, based on data of the Digital Token Identifier Foundation. The information regarding the hardware used and the number of participants in the network is based on assumptions that are verified with best effort using empirical data. In general, participants are assumed to be largely economically rational. As a precautionary principle, we make assumptions on the conservative side when in doubt, i.e. making higher estimates for the adverse impacts.
To determine the energy consumption of a token, the energy consumption of the network(s) sui is calculated first. For the energy consumption of the token, a fraction of the energy consumption of the network is attributed to the token, which is determined based on the activity of the crypto-asset within the network. When calculating the energy consumption, the Functionally Fungible Group Digital Token Identifier (FFG DTI) is used - if available - to determine all implementations of the asset in scope. The mappings are updated regularly, based on data of the Digital Token Identifier Foundation. The information regarding the hardware used and the number of participants in the network is based on assumptions that are verified with best effort using empirical data. In general, participants are assumed to be largely economically rational. As a precautionary principle, we make assumptions on the conservative side when in doubt, i.e. making higher estimates for the adverse impacts.
排放报告
DLT 温室气体排放范围一:可控排放
0.00000 (tCO2e/a)
DLT 温室气体排放范围二:外购排放
128.22116 (tCO2e/a)
温室气体排放强度
0.00000 (kgCO2e)
主要温室气体来源与评估体系
To determine the GHG Emissions, the locations of the nodes are to be determined using public information sites, open-source crawlers and crawlers developed in-house. If no information is available on the geographic distribution of the nodes, reference networks are used which are comparable in terms of their incentivization structure and consensus mechanism. This geo-information is merged with public information from Our World in Data, see citation. The intensity is calculated as the marginal emission wrt. one more transaction.
Ember (2025); Energy Institute - Statistical Review of World Energy (2024) - with major processing by Our World in Data. “Carbon intensity of electricity generation - Ember and Energy Institute” [dataset]. Ember, “Yearly Electricity Data Europe”; Ember, “Yearly Electricity Data”; Energy Institute, “Statistical Review of World Energy” [original data]. Retrieved from https://ourworldindata.org/grapher/carbon-intensity-electricity Licenced under CC BY 4.0.
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