| Title | 直接收集-辐射电离-光电-热电同位素电池及其制备方法 |
| Alternative Title | Direct collection-radiation ionization-photoelectric-thermoelectric isotope battery and preparation method thereof
|
| Author | |
| First Inventor | 何佳清
|
| Original applicant | 南方科技大学
|
| First applicant | 南方科技大学
|
| Address of First applicant | 518055 广东省深圳市南山区西丽学苑大道1088号
|
| Current applicant | 南方科技大学
|
| Address of Current applicant | 518055 广东省深圳市南山区西丽学苑大道1088号 (广东,深圳,南山区)
|
| First Current Applicant | 南方科技大学
|
| Address of First Current Applicant | 518055 广东省深圳市南山区西丽学苑大道1088号 (广东,深圳,南山区)
|
| Application Number | CN201711066355.0
|
| Application Date | 2017-11-02
|
| Open (Notice) Number | CN108039219A
|
| Date Available | 2018-05-15
|
| Status of Patent | 驳回
; 复审
|
| Legal Date | 2022-02-25
|
| Subtype | 发明申请
|
| SUSTech Authorship | First
|
| Abstract | 本发明公开了直接收集‑辐射电离‑光电‑热电同位素电池及其制备方法。该同位素电池包括:换能结构、正极、负极、缓冲垫、内封装层、外封装散热层和绝缘环。其中,换能结构包括:金属衬底、放射源镀层、耐高温绝热密封垫、透明电荷收集板、电解质溶液、第一透明绝缘衬底、光电组件、第一电学输出电极、第二透明绝缘衬底、热电组件和第二电学输出电极。耐高温绝热密封垫包括第一密封垫和第二密封垫。该直接收集‑辐射电离‑光电‑热电同位素电池能够突破传统静态型同位素电池存在单一换能、能损较大的技术瓶颈,具有能量转换效率高、输出功率大、工作稳定性好等特点。 |
| Other Abstract | The invention discloses a direct collection-radiation ionization-photoelectric-thermoelectric isotope battery and a preparation method thereof. The isotope battery comprises an energy transducing structure, a positive electrode, a negative electrode, a cushion pad, an internal packaging layer, an external packaging heat radiation layer and an insulating ring. The energy transducing structure comprises a metal substrate, a radioactive source coating layer, a high-temperature-resistant heat-insulating sealing gasket, a transparent charge collection plate, an electrolyte solution, a first transparent insulating substrate, a photoelectric component, a first electrical output electrode, a second transparent insulating substrate, a thermoelectric component and a second electrical output electrode. The high-temperature-resistant heat-insulating sealing gasket comprise a first sealing gasket and a second sealing gasket. According to the direct collection-radiation ionization-photoelectric-thermoelectric isotope battery, the technical bottleneck of single energy transducing and high energy loss of the conventional static isotope battery can be broken through so as to have the characteristics of high energy conversion efficiency, high output power and great working stability. |
| CPC Classification Number | G21H1/103
; G21H1/12
|
| IPC Classification Number | G21H1/10
; G21H1/12
|
| INPADOC Legal Status | (-REJECTION OF INVENTION PATENT APPLICATION AFTER PUBLICATION)[2022-02-25][CN]
|
| INPADOC Patent Family Count | 1
|
| Extended Patent Family Count | 1
|
| Priority date | 2017-11-02
|
| Patent Agent | 赵天月
|
| Agency | 北京清亦华知识产权代理事务所(普通合伙)
|
| URL | [Source Record] |
| Data Source | PatSnap
|
| Document Type | Patent |
| Identifier | http://kc.sustech.edu.cn/handle/2SGJ60CL/532871 |
| Department | Department of Physics |
| Recommended Citation GB/T 7714 |
何佳清,周毅,李公平,等. 直接收集-辐射电离-光电-热电同位素电池及其制备方法.
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