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丝路员工成长记⑩ | 中ob电竞 工程:“太阳女神”贝蒂娜&热爱中国的德国工程师海因里希

来源:中ob电竞 工程  发布时间:2023-11-13

2021是结对共建“节节高升节节高升”倡仪书提起10周年纪念。15年来,国内ob电竞 实业肯定不移走亚太化路,连续不断去创新“踏入去”状态,保持秉持着“为国家实惠作出具、与国家中小型企业公司媒体合作共利、为国家人们服务培训于”的媒体合作共利共利“三要素”,为“节节高升节节高升”铁路沿线我国和国家出具优质化量ob电竞 和项目工程方法服务培训于。ob电竞 遍布全国全球排名的2万数百名淘宝员工离职,在行稳致远拼搏进取中填写非常精彩作答,在中小型企业公司发展壮大中实现目标互相成长的,用一點一份的悄悄坚守贴切普写“美美哒与共”迷人宏伟蓝图。小料向用户 分享一下用户在“三廊二路”规划中播撒想法迅雷种子、获取开心浆果、英文书写充裕绚丽多彩我的人生的精彩瞬间经典故事……
为碲化镉太阳穴能电瓶插上辉煌的羽翅

贝蒂娜·施帕斯博士研究生
2015年填加中国大ob电竞 在职中华ob电竞 施工子工厂CTF Solar技术部部副办公室副主任贝蒂娜的学科职涯早在英国达姆施塔特

对科学课强烈的的兴趣

促使她进入材料科学领域

读博期間

她专注于研究太阳能电池相关领域

博士毕业后

贝蒂娜带着材料科学专业知识

踏入半导体行业

后因兴趣使然

她回归太阳能行业

在20十多年与CTF Solar广结善缘在 CTF Solar

她发挥了重要作用

利用自己的知识与经验

推动了碲化镉薄膜太阳能电池技术的进步

她还阻止建立半个个深入分析和的开发岗位

以变现的提升太阳星能电池板高效率的工艺设计研发

2016年

她与同事的研发成果被转化到国内生产线上

2017年她被提升为研发部门副总监后

领导了一个 20 人团队

2016—2022年

她领导了两个受资助项目

总财政资金为500万英镑

自2016年以来

在 CTF Solar 研发部门的努力下

碲化镉薄膜太阳能电池的效率

从17.8% 提高到20.85%

她相信

在大家的共同努力下

聚酯薄膜太阳星能市場的趋势将十分美好
(升降精密怎么查看日语版)
Contributing to the Development of Cadmium Telluride  Solar Cells

Dr. Bettina Späth

Joined CNBM in 2010

Vice Director of the R&D Department at CTF SolarDr. Bettina Späth's distinguished career in science began in Darmstadt, Germany. Growing up in  the picturesque town of Bensheim in Hessia,  she developed a keen interest in science, which propelled her into the field of material science. Her academic journey started at Darmstadt University,  where she honed her expertise in semiconductors,  guided by Professor Jaegermann. Dr. Späth's impressive understanding of material science led to her completing her diploma thesis  on CdTe thin film solar cells within Professor  Jaegermann's "surface science" research group. She then continued her research under the professor's mentorship, pursuing a PhD focused on the interface and back contact properties of CdTe solar cells. Post-PhD, Dr. Späth moved to Dresden, Germany,  to apply her material science expertise in the semiconductor industry. Her primary responsibility  was to improve and adapt plasma etching  processes for the production of memory chips. Her interest in solar technology drew her back to the solar industry, where she worked on silicon solar cell characterization. Her significant contributions in this field led to her shifting focus back to CdTe (Cadmium Telluride) solar cells, a technology gaining attention  for its high conversion efficiency and potential  for mass production. In 2010, Dr. Späth joined Roth&Rau/CTF Solar, where she leveraged her understanding of materials and semiconductor technology to drive advancements in CdTe solar  cell technologies. At CTF Solar, she took on a significant role,  utilizing her knowledge and experience to drive  advancements in CdTe solar cell technologies.  During this time, she established a close  cooperation with the German Fraunhofer Institute  FEP.  She set up a research and development department  in CTF Solar. This department, initially consisting  of 3-4 scientists, laid the foundation for today's  20-person research and development department. Initially located at Fraunhofer FEP/Dresden,  Germany, the entire front-end process chain was  developed. CTF Solar specified and developed  several pilot tools to enable the development on processes to increase the solar cell efficiency.  First, the heart tool CSS coating was put into  operation. A chemical department was established  and the latest chemical processes were tested. Dr Bettina Späth was mainly responsible for the sputtering processes and metrology tools.  At that time, Dr Bettina Späth was able to drive  forward the development of the metallic copper-free  back contact. The first copper-free solar cells with  an efficiency of >13% were developed. Several tools  from the former laboratory in Kelkheim, Germany  were transferred to Dresden and put into operation.  In 2011, CTIEC, part of the Chinese CNBM Group, acquired CTF Solar. The research and development department was growing and therefor moved to  a bigger laboratory in the north of Dresden. The laboratory covered an area of 300 m². Together  with her colleagues, Dr. Bettina Späth organized  the transfer of the tools to the new location. New tools were specified and purchased and a complete  upgraded laboratory was established.Dr. Bettina Späth contributed in several founded projects in 2012-2015 and with this help, the  CdTe conversion efficiency was rised to >15%.  The laboratory processes were transferred into  specifications of production tools. As a scientist  and process engineer, Dr. Bettina Späth supported  the specification of the sputtering, lasering and annealing machines as well the metrology tools.  This included a close interaction with suppliers as  well as several acceptance procedures at several  location. The results of the developments and investigations  of Dr. Bettina Späth and her colleagues were  transferred onto the first production line of CTF Solar  in China in 2016. In recognition of her expertise, Dr. Späth was promoted to the role of Vice Director in  the R&D department of CTF Solar in 2017. She led  a team of 20 employees, shaping the company's research agenda and fostering an innovative environment. Her leadership skills and scientific  acumen were instrumental in driving the company's  success and furthering its reputation. From 2016- 2022 Dr. Bettina led two funded projects, each with  a duration of 3 years and a funding of € 1.5 million.  In 2020 CTF Solar moved again to a new location,  covering an area of 1000 m².

Since 2016, the efficiency of CdTe solar cells has  been improved from 17.8% to the remarkable value  of 20.85% and that of 10*10 cm² modules from  14.4% to 18.3% in the R&D department of CTF  Solar. After Dr. Späth visited the Handan production line  in April, she fully supported introducing the ZnTe  process. With the technical support from CTF  Solar team, the efficiency of CdTe thin film solar  module reached 17%. Dr. Späth highly commended  the hard work of HDN team. With the success of  this cooperation, she has full confidence that we  together can meet all challenges in the future. She believes that the prospect of CdTe solar cells market will be broader through everyone's efforts.在文化课相辅相成中汽车碰撞有差的的火苗

延斯·海因里希2017年融入华人ob电竞 第一任中国现代ob电竞 项目子司CTF Solar 高技术发展进步上长光电器件市场的制做和工艺流程施工师

工艺集成和技术转化工程师

是海因里希博士后曾经的我的工做英雄

2016年

他加入CTF  Solar

旨在将自己的经验技能应用于不同的行业

他与领导组建了一个新团队

从零开始设计大规模光伏组件工厂

他曾前往成都

参与启动首个大尺寸

碲化镉火力发电玻璃板生产制造线公司楼盘

与中国团队合作的经历顺利且愉快

他们克服中德之间的文化障碍

秉持开放态度

互相包容学习

促进了项目的顺利建成

他后又多次往返成都

切实保障工作线顺利进行试作业

不会中文的海因里希博士

曾在新冠疫情期间两次到访中国驻厂

关心CTF  Solar壮大在我国工业师销售团队

如今海因里希博士已成为CTF Solar管理委员会的成员

对团队继续创新充满信心

将再继续为ob电竞 集成型太阳能光伏(BIPV)餐饮市场添砖加瓦奖
(上下两边拖动核实日文版)
Generating Creative Ideas in Cultural Fusion 

Dr. Jens Heinrich

Joined CNBM in 2016

Director od Technology Development of CTF SolarIn 1990, Jens Heinrich started studies in chemistry  at Chemnitz University of Technology in Germany.  After getting a master’s degree in chemistry, he  continued to get a PhD in physical chemistry, focusing on the studies of chemical vapor  deposition. Starting his career in the semiconductor  industry as a manufacturing and process engineer,  he then assumed several other roles including a process integration engineer and a technology  transfer engineer in companies like AMD/ Global  Foundries and Intel, gaining technical and cultural  experiences in different countries.In early 2016, Dr. Heinrich decided to move into a different technology area with the aim of learning  new technologies and providing support to the new company. He joined CTF Solar as a process transfer manager with the aim of applying his experience and skillsets to a different industry. He described  the start at CTF Solar as really exciting, developing  a new team together with head of the process  engineering department – and designing a factory  for large scale PV modules based on CTF’s CdTe  technology – almost from scratch. Together with  the colleagues from CTIEC, they started the project  of the 1st CdTe factory for large size modules (>  1m² – almost 2m²) in Chengdu, southwest China’s  Sichuan Province. His 1st trip to China for CTF Solar was totally different from his previous experiences.  He was impressed by a very warm welcome and  great hospitality he received, as well as open  discussions about the best way to achieve the shared goals of the project. Of course, it was not  all easy and very soon the team realized that the  cultural differences between Germany and China  could cause problems and misunderstandings, but  everyone was open minded and willing to learn and  adapt. In a very short time, the goals were set to  try to combine the strengths of both cultures for the  success of the project. Soon after the start of the  construction, the 1st project milestone (equipment  design reviews, initial acceptance tests) was  passed and by the end of the year 2016, the 1st  part of the production line had been moved into  the factory building, while construction work still in progress. Together with most of the CTF Solar’s  engineers, scientists and managers, Dr. Heinrich  travelled to Chengdu multiple times, supervising  the equipment’s installation and commissioning, solving problems onsite, ensuring the support and  collaboration from the different suppliers. Finally, in  August 2017, less than one year after completing  the design review, the main deposition equipment  (CSS – a co-development between CTF Solar and equipment supplier) successfully completed trial operation and produced the first functional midule on Agust 24, 2017. It was the 1st CdTe module for  CNBM group and the 1st large size thin film module worldwide. After the successful demonstration of the  CdTe technologies capabilities on manufacturing  scale, more CdTe factory projects for CTIEC and CTF  Solar have been launched.In 2018, Dr. Heinrich got promoted to deputy head  of process engineering. His focus and work tasks  shifted more to building and developing the CTF  Solar’s engineering team, implementing technology  changes as well as ramping up and improving  current and future factory projects. These new  challenges required an even deeper collaboration  with the colleagues and partners from CTIEC and  with the CNBM factory operations teams. Here,  support from Chinese colleagues within CTF Solar,  especially from the CTIEC management, project team  and the engineering team played an important role in  his success.2020 and the following years were packed with challenges for each team member of CTF Solar  and for Dr Heinrich himself. Despite the impact of  COVID-19 to the personal life, especially the CTF  factory project business was affected. Most of the  projects got delayed due to this pandemic situation  and CTF Solar had to adapt to the new situation  where they could not go to the sites. In this process,  the benefits of a multinational team became obvious. Despite the impact of the COVID-19 pandemic, Dr. Heinrich and his team persevered and adapted to  new circumstances, receiving significant support  from CTIEC and CNBM colleagues. As one of the two non-Chinese speaking CTF employees, he  visited the factory in China twice during COVID-19  outbreak. This crisis highlighted the strength of their  multinational team. Now technical development of factory sites has been continuously improved and  enhanced, and the team and most of the projects  are back on track. With the support from Mr. Yin,  CTF Solar started to build a team of engineers within  China and introduced new process and equipment to  the Handan factory, which will dramatically improve  the performance of the PV modules with respect to  efficiency and stability.

Through the efforts of the HDOM, CTIEC and CTF teams, the heromodule with photoelectric conversion efficiency of more than 330W were produced, which  is 10% more efficient than the previous record, and  15% more effienct than the current product average. This major achievement makes all the CTF Solar  colleagues proud of being a member of this CNBM  team.In early 2023, Dr. Heinrich became a member of the  CTF Solar Management board, allowing him to have  a substantial say on CTF's further development and business, and contribute to CTIEC's and CNBM's success. He now looks forward to future challenges  and is confident in the team's ability to continue  innovating and contributing to the rapidly growing  market of Building Integrated Photovoltaic (BIPV).

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