- You will support our business development team and management with marketing activities
- Writing editorial teasers for the social media channels
- Independent supervision of smaller social media projects
- You are involved in all processes as a full team member and actively shape the future of CAPHENIA.
- Monitoring activities to ensure the quality of the content
- Support in the operational execution of campaigns
Social Media student (w/m/x)
Bernau am Chiemsee
Part-time
Working Student
15 € per hour
Your mission
Your profile
- You are a registered student in the field of media and communication sciences or a comparable course of study.
- You have a keen sense for online content
- LinkedIn, Twitter, Instagram, and YouTube are your daily companions u
- You have a team-oriented and creative personality.
- You have excellent knowledge of German spelling and grammar.
- Likewise, you have a high willingness to learn as well as an independent and result-oriented work ethic
- Ideally, you have some experience in the conceptualization and/or implementation of common digital marketing measures.
Why us?
- Collaboration in a visionary team in a young company
- An exciting position in a strong growth organization that focuses on sustainability and forward-looking technology
- Exciting tasks and excellent development prospects
- Varied work on a future technology with high-growth potential
- Exciting subject areas: Renewable fuels, energy transition, climate protection
- Flexible working hours
- Results-oriented culture with plenty of scope for personal initiative and ideas
- Open and diverse corporate culture
About us
CAPHENIA wants to play its part in reducing carbon emissions: by producing renewable synthetic fuels at competitive prices.
CAPHENIA is following nature’s example by turning CO2 in a useful resource. CAPHENIA uses a globally patented Power-and-Biogas-to-Liquid (PBtL) process to convert CO2 and biogas into renewable synthetic fuels. These fuels can then be used to power existing engines and propulsion systems, so that no costly conversions or new infrastructure are required. The electricity required for the conversion process is generated from renewable energy sources, and the CAPHENIA process is able to respond quickly to fluctuations in its availability.