月度归档: 2020年8月

发布于

来自影响力先行者的建议:马修

马修,DFUN 设计风尚志发行人兼总编辑,同时也是 ICON CLUB 顶尖设计师联盟的召集人。ICON CLUB 是个垂直整合文创产业链,囊括创意、资本、生产、市场等元素,为不同设计领域的精英提供跨界交流的平台。因为文创和创意的专业背景,他有着跳脱出一般传统的思维方式。在关注城市发展与社会生活的同时,他引用 “生活美学” 的概念,揭示创业的另一个层次。
在与我们的对谈中,马修提到了“跨领域”对创业者的重要性,为什么在这个行业前辈的眼中,“不专一”反而是件对的事情?到底“生活美学”和”跨领域“可以为想要在设计领域里发展的创业者们带来什么样的启发?来听听看马修的分享。

马修, DFUN 设计风尚志发行人兼总编辑

发布于

创业聚光灯 Vol.4:认缴制是创业的加速器还是紧箍咒?

 创业聚光灯 Makeable Spotlight 

由专注于提供可持续创新创业服务的线上平台 Makeable 倾情推出,旨在聚焦创业者所关注的、正经历的、想探索的创业过程中的实际问题,以期为可持续发展领域的创业者和未来创业者提供创业指导和支持,在全国范围内激荡起可持续发展的脉动。

 

2013年修正的《公司法》正式出台了认缴制,为李克强总理于2014年夏季达沃斯论坛上提出的“大众创业、万众创新”的大众创业浪潮奠定了法律的基础。创业的梦想不再受钱的牵制,注册公司的资金门槛几乎为零。

6年过去了,认缴制,真的如当初所想的那样,是创业者的加速神器吗? 

9月22日(周二),上海普世律师事务所高级合伙人周晓颖律师将为大家深度剖析“认缴制”,通过游戏和讲座结合的方式,带领创业者及感兴趣的伙伴共同探索认知“认缴制”带来的好处及挑战,修炼火眼金睛识别后续创业过程中的权利和责任,从而作出更适合的决策!

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本 期 导 师

周晓颖

 

上海普世律师事务所高级合伙人

普陀区优秀女律师

普陀区青年创业者联谊会常委

 

周律师凭借扎实的业务理论功底、丰富的实践经验,荣获“普陀区优秀女律师”荣誉称号。尤其擅长公司法、合同法、房地产、并购重组、知识产权等等法律领域,曾参与公司上市,收购兼并及资产重组项目的谈判及尽调服务,为多家公司提供专项法律服务及担任常年法律顾问,为公司经营中涉及的各类法律问题提供咨询及服务。同时,周律师曾在外资企业从事人力资源管理工作,具有丰富的企业管理经验,熟悉企业人力资源管理流程及具体管理事务操作,在人力资源管理有关法律文件的制作方面具有丰富的操作经验。
周律师的专业、敬业及丰富的经验使其在法律服务中能够迅速理解企业客户的需求和痛点,从而能够高效处理并化解各类企业经营中的纠纷、冲突。



活动详情

主办方

战略合作方

本次活动支持单位

发布于

About Brightlands Chemelot Campus

In order to allow innovators’ solutions to be better applied in practice and help companies obtain more sources of innovation, the 2020 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Competition has designated topic units. Participants can provide practical solutions and operable innovative solutions or entrepreneurial results based on specific issues.

At Brightlands Chemelot Campus in Sittard-Geleen, entrepreneurs, scientists and students work together in the fields of performance materials, process technology and biomedical solutions. This results in the building of bridges between fundamental scientific research and product and process innovations in companies. The campus and adjacent Chemelot industrial park form one giant laboratory where the brightest, highly qualified experts from universities and the business community work together.

In a short period of time, the campus has grown to become a place where more than 2700 knowledge workers and 1200 students work for more than 90 companies and knowledge institutes. The strategy focuses on accelerating the development of the campus to become an excellent community by 2023 with more than 100 companies and no fewer than 3900 knowledge workers and 1000 students.

Brightlands Chemelot Campus is part of Brightlands, an open innovation community made up of four campuses that are working on the major challenges in the fields of materials, circular chemistry, health, agri-food, data science and smart digital services. Brightlands has been made possible thanks to a partnership between the Province of Limburg, Maastricht University, Zuyd University of Applied Sciences, Fontys University of Applied Sciences together with APG, BASF, DSM and Maastricht UMC+.

Topic
Interpretation

Process Electrification

Background

Chemical process electrification replaces the use of fossil fuels by enabling renewable energy. High-temperature applications are key in most chemical production methods and the power demand of a typical chemical process is enormous. The general trend in plant design is to replace rotating equipment based on steam turbines for electrical drives. Despite the higher costs for electricity, this process electrification reduces energy consumption and the plant’s carbon footprint significantly.

发布于

Brightlands切梅洛特园区命题解读

为了让创新者的方案能够更好地得到实践应用,帮助企业获得更多创新的来源,2020 “SCIP+”绿色化学化工创新创业大赛专设指定命题单元,参赛团队可根据具体问题提供具有实用性和可操作性的创新解决方案或创业实践成果。在未来的内容中,大赛组委会也将陆续发布来自大赛合作伙伴的命题解读,帮助参赛者们更好的了解企业的需求,优化打磨自己的项目。

在位于荷兰Sittard-GeleenBrightlands切梅洛特园区,创业者、科学家和学生们在功能化学品、工艺技术和生物医学解决方案领域开展广泛合作,架设起基础科学研究和企业产品以及工艺创新的桥梁。园区和相邻的切梅洛特工业区组成了一个巨大的实验室,汇集了大学和商业界的最聪明的头脑。

尽管成立时间不久,园区已经汇集了2700名知识工作者和1200名学生,为超过90家公司和研究院所工作。园区关注加快发展,目标是到2023年建成卓越园区,汇聚超过100家企业、3900名知识工作者和1000名学生。

Brightlands切梅洛特园区是开放创新社群Brightlands的一部分,后者包括四个园区,主要着力于材料、循环化学、健康、农产品、数据科学和智慧服务领域面临的挑战。Brightlands的建立也归功于林堡省、马城大学、南方应用科学大学、方提斯应用科学大学以及APG公司、巴斯夫公司、帝斯曼公司和马城大学医疗中心的合作。

命题解读

化工工艺电气化

背景描述

化工工艺电气化利用可再生能源替代化石燃料。众所周知,温度对于大多数化工生产至关重要,同时一般化工工艺都需较大耗电量。工厂设计的趋势是利用电力驱动替代基于蒸汽轮机的旋转设备设施。尽管电力成本较高,但化工工艺电气化将大幅度降低能耗和碳足迹。

发布于

About Shanghai Huayi

In order to allow innovators’ solutions to be better applied in practice and help companies obtain more sources of innovation, the 2020 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Competition has designated topic units. Participants can provide practical solutions and operable innovative solutions or entrepreneurial results based on specific issues.

Shanghai Huayi (Group) Company is a large-scale chemical enterprise group established via assets reorganization, which is authorized by Shanghai Municipal SASAC. Huayi’s core assets were listed in May 2016. Huayi adheres to the five development strategies of ‘Eco-friendly Development, Innovation-driven Development, High-end Development , Cross-city Development and Integrated Development’, and focuses on the five core businesses of ‘Energy Chemicals, Green Tire, Advanced Materials, Fine Chemicals and Chemical Services’. There are 40 factories and production bases of Huayi in 11 provinces of China and overseas such as Jiangsu, Anhui, Chongqing, Xinjiang, Inner Mongolia and Shandong.

In 2019, Huayi ranks 295th in Top 500 Enterprises of China, 132nd in Top 500 Manufactures of China, 28th in Top 100 Enterprises of Shanghai, 10th in Top 50 Manufactures of Shanghai and 5th in Top 100 Chemical Feedstock and Product Manufactures of China.

Topic
Interpretation

 

The Shanghai Huayi (Group) Company proposed 2 challenges for our candidates of 2020 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest. If you also love the environment and believe to win through innovation, if you have forward-looking vision and possess leading technologies, if you wish to joint hands with ExxonMobil and to accelerate the development and promotion of your projects, please do not hesitate to join the Contest! Let’s innovate for a graceful environment and paint a green and promising future!

 

Development and Application of New Green Technologies, Equipments and Processes in Chemical Production

 
Background

The environmental protection is an inevitable trend for chemical industry to achieve the sustainable development. In order to win the battle against environmental pollution, promote the ecological conservation as well as the high-quality development of the China’s manufacturing industry, the chemical enterprises should actively accelerate the development and application of new green technologies, equipment and processes.

Target

We are exploring the applicable and propagable green technologies, equipments and processes in chemical production, such as the VOCs testing technology and hazardous waste identification and evaluation, bioremediation of soil pollution in chemical production sites, the synergistic pollution prevention and control of VOCs, nitrogen oxide and PM, the efficient denitrification and organic degradation of chemical wastewater, the solid waste treatment and resource utilization, the green and energy-saving technologies, etc.

Development and
Application of Advanced Chemical Materials

 
Background

The advanced chemical materials have been widely used in many fields of national economy and national defense. However, due to the insufficient support capacity of some high-end varieties, there is a big gap between the China’s advanced chemical material industry and that of developed countries. With the urbanization and the upgrading of manufacturing industry, the China’s advanced chemical material industry, especially the high-end advanced chemical materials, is of great opportunity.

Target

To fill the short slab and blank of China’s advanced chemical material industry, we are focusing on the innovation and technological breakthrough as well as the application development of the high-end polyolefin, high performance epoxy resin, special engineering plastic, high-end film material, electronic chemical, etc.

发布于

华谊集团命题解读

为了让创新者的方案能够更好地得到实践应用,帮助企业获得更多创新的来源,2020 “SCIP+”绿色化学化工创新创业大赛专设指定命题单元,参赛团队可根据具体问题提供具有实用性和可操作性的创新解决方案或创业实践成果。在未来的内容中,大赛组委会也将陆续发布来自大赛合作伙伴的命题解读,帮助参赛者们更好的了解企业的需求,优化打磨自己的项目。

上海华谊(集团)公司(以下简称“集团”)是由上海市政府国有资产监督管理委员会授权,通过资产重组建立的大型化工企业集团。2016年5月,集团核心资产实现整体上市。集团坚持“绿色发展、创新发展、高端发展、跨市发展和一体化发展”五大发展战略,形成“能源化工、绿色轮胎、先进材料、精细化工、化工服务”五大核心业务。在江苏、安徽、重庆、新疆、内蒙古、山东等11个省市自治区及海外拥有40余个工厂及生产基地。

2019年,集团名列中国企业500强第295位、中国制造业500强第132位,上海企业100强第28位、上海制造业50强第10位,中国化工原料及化学制品100强第5位。

命题解读

上海华谊为本次 2020“SCIP+” 绿色化学化工创新创业大赛准备了2个挑战议题。如果你从事化学化工、新材料等领域,如果你也对创新创业充满热情,我们欢迎你加入产业共创,为共同推进材料创新和循环利用增加力量!

化工生产中的环保新技术、

新装备和新工艺开发与应用

 
背景描述

环保是化工产业实现持续稳步发展的必然趋势。化工生产企业应积极加快环保新技术、新装备和新工艺的开发和推广应用,积极培育绿色发展新动能,为我国打赢污染防治攻坚战、推进生态文明建设、推动制造业高质量发展提供支撑。

目标

挖掘和探索在化工生产中可应用、可推广的环保新技术、新装备和新工艺,开发和寻找在生产过程中涉及的VOCs检测技术与危险废物鉴定与评价、化工生产场地土壤污染生物修复、化工废气VOCs与氮氧化物、颗粒物的协同污染防治、化工废水高效脱氮与有机物降解、固废处理与资源化利用以及绿色节能等方面的创新和应用。

特种高端化工

新材料开发与应用

 
背景描述

化工新材料已广泛应用于国民经济和国防军工的众多领域中。但受到技术水平的制约,我国化工新材料发展水平与发达国家仍有较大差距,存在整体保障能力不足、供应短板明显等突出问题。随着新型城镇化和制造业升级,我国化工新材料产业,尤其特种高端化工新材料面临良好的发展机遇。

目标

聚焦集成电路、航空航天等领域,围绕高端聚烯烃、高性能环氧树脂、特种工程塑料、高端膜材料、电子化学品等特种高端化工新材料领域的技术攻关、应用开发、创新业务及平台等,填补国内化工新材料短板和空白。

发布于

「博见Meetup+」Vol.6: 新塑料经济背景下的挑战与机遇

  • 图源:艾伦·麦克阿瑟基金会

线 Makeable  Impact Hub Shanghai 广动。

白色污染问题正在得到越来越多利益相关方的关注:今年年初,继2007年的《国务院办公厅关于限制生产销售使用塑料购物袋的通知》后,我国发改委、生态环境部又联合印发了《关于进一步加强塑料污染治理的意见》;从全球来看,加拿大、韩国等国家都开始逐步禁止一次性塑料的使用,日前欧盟委员会成员也同意将对塑料包装废物征收新的欧盟税。但无论是从新材料替代、回收、还是循环利用的角度,塑料问题的解决仍旧充分兼具机遇与挑战。在新冠肺炎疫情防控期间,一次性塑料垃圾使用量显著增多。根据法国行业机构统计,在此期间,仅大型零售企业中用于食品和卫生用品的塑料包装就增长了20%-30%。
在此境况下,对于建立一种需要多方广泛参与和通力合作的新经济模式的需求愈发迫切。其实,达沃斯世界经济论坛早在2016年就发布了题为《新塑料经济——重新思考塑料的未来》的报告,首次提出运用循环经济的原理,让塑料永远不会变为废料。2018年,全球循环经济思想领袖艾伦·麦克阿瑟基金会也与联合国环境规划署共同发起了“新塑料经济全球承诺”行动倡议。而像“终止塑料废弃物联盟”(The Alliance to End Plastic Waste,简称 AEPW)成员巴斯夫、彤程新材等企业也一直在致力于推动化工产业可持续发展,并积极地推动创新材料让地球和人类生活更美好。
在“新塑料经济”被提出后的第五年,我们期待与上述重要利益相关方的代表一起,了解新塑料经济的发展现状及未来趋势,探讨其中的痛点、难点与创新机遇。

本 期 嘉 宾

王韧 艾伦·麦克阿瑟基金会中国塑料项目负责人

王韧先生现任艾伦·麦克阿瑟基金会中国塑料项目负责人。拥有厦门大学化学学士学位和美国亚利桑那州立大学雷鸟商学院 MBA 学位。在加入基金会之前,曾在特种材料公司美国罗门哈斯公司、创新塑料制造商博禄公司、包装材料企业美国特种胶带公司以及垃圾收集系统公司瑞典恩华特等担任市场推广和产品负责人。
艾伦·麦克阿瑟基金会(Ellen MacArthur Foundation)自2010年成立以来,致力于推进世界经济向循环经济的转型。本次王韧先生也将分享艾伦·麦克阿瑟基金会作为全球循环经济思想领袖的全球愿景,以及相关倡议和实践成果。

赵燕超 博士 彤程新材副总裁

赵燕超博士毕业于华东理工大学,获材料学博士学位。2008-2010年在法国国家实验室 CNRS UMR 5223(Ingénierie des Matériaux Polymères)高分子材料工程国家重点实验室从事博士后研究。具有15年以上的高分子材料研究开发经验,重点研究轮胎用酚醛树脂以及可降解材料的合成及应用,已申请相关发明专利10余项。作为主要参与人的《万吨级轮胎工业用功能树脂产业化关键技术》项目获得2016年度中国石油和化学工业联合会科技进步一等奖。
彤程新材料集团是 AEPW(The Alliance to End Plastic Waste)组织的成员之一,也是第二家加入该组织的中国企业。集团成立十多年来,一直秉承“材料让地球更美好”的绿色发展观,确立了“以创新和负责任的方式,推动新材料产业的可持续发展”的企业愿景。在本次分享中,赵燕超博士也将从其科研及战略视角,与大家探讨新材料的相关应用,分享彤程目前的实践经验和思考。
李 莉 巴斯夫创投投资总监

 

李莉女士毕业于复旦大学经济学专业。于2018年加入巴斯夫创投,她在中国地区负责风险投资以及被投企业管理。其投资职业生涯从普华永道中国并购咨询部门开始,当时她服务的客户包括大型投资机构如华平、TPG、平安、红杉等,也包括跨国公司战略投资方。离开普华永道之后,她加入福伊特中国,组建了中国的并购及企业战略部门,专注研究亚洲地区轨道交通、能源造纸等制造业的机会。加入巴斯夫创投之前,李莉还曾服务于沙特基础工业公司的风险投资部门,推动完成了该团队在中国的第一笔风险投资。
巴斯夫是中国化工领域重要的外商投资企业,在大中华区的业务几乎涵盖日常生活的所有领域:从房屋、汽车、食品、农作物、医药、纺织、运动服装、家居用品、电子设备到包装等不一而足。巴斯夫迄今在大中华区投资超过60亿欧元(与合作伙伴共同投资逾90亿欧元)。在本场活动的圆桌环节,李莉女士也将从其资深投资人的视角,分享巴斯夫在“新塑料经济”背景下的实践以及她对于该领域创新机遇的观察和思考。

吕秀娟 Impact Hub Shanghai

联合创始人、创投合伙人

吕秀娟女士作为社会创新及影响力投资人、倡导者、实践者,将作为本场活动的主持人,从其咨询、管理、指导经验出发, 与其他嘉宾一起探讨她眼中的塑料议题的难点与创业创新机会。更多观察与思考都将在「博见 Meetup+」生发、碰撞……

活 动 详 情

时间:2020年8月19日(周三)
晚7点-8点30分
参与方式:线上平台直播互动

报 名 填 写 表 单

如有疑问
可添加 Makeable 小博的同事 Host 
进行咨询

「博见Meetup+」主办方

发布于

About Red Avenue New Materials Group

In order to allow innovators’ solutions to be better applied in practice and help companies obtain more sources of innovation, the 2020 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Competition has designated topic units. Participants can provide practical solutions and operable innovative solutions or entrepreneurial results based on specific issues.

The Red Avenue New Materials Group Co., Ltd. is the world’s leading comprehensive service provider of new materials. The company is located in China (Shanghai) Pilot Free Trade Zone. It has three lean manufacturing plants and two national laboratory R&D centers in China, and its business scope covers more than 40 countries and regions around the world. The Red Avenue upholds the green development concept of “materials make the planet better”, and has established the corporate vision of “promoting the sustainable development of the new material industry in an innovative and responsible manner”. It also adheres to technological innovation and management innovation, contributing to customers and cooperation partners’ development. 

The Red Avenue New Materials Group is a member of AEPW (Alliance to End Plastic Waste),the second Chinese enterprise to join the organization. Our service scope covers chemical materials, automotive materials, medical materials, electronic materials, environmental protection materials etc.

Topic
Interpretation

 

The Red Avenue New Materials Group proposed 2 challenges for our candidates of 2020 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest. If you also love the environment and believe to win through innovation, if you have forward-looking vision and possess leading technologies, if you wish to joint hands with ExxonMobil and to accelerate the development and promotion of your projects, please do not hesitate to join the Contest! Let’s innovate for a graceful environment and paint a green and promising future!

 

Industrial solutions for biodegradable buffer materials

 
Background

With the continuous development of packaging industry, the demand for buffer packaging materials is growing up for the past decades. Expanded Polyethylene foam (EPE), Expanded polypropylene (EPP), expanded polystyrene (EPS) and foamed-polyvinyl alcohol (PVOH) are commonly used as buffer packaging materials. However, the degradable rate of traditional foaming material in the soil is very slow, causing the environment pollution. Many countries have issued the plastic ban to restrict the use of buffer packaging materials such as polyethylene (PE) and polypropylene (PP). The biodegradable materials show an increasing demand for the disposable packaging materials.

Target

Proposing industrial solutions through the structural designing, formulation development, process optimization for the biodegradable buffer materials, which can not only meet performance requirements, but also adapt to industrial production.

Capability Required

Polymer engineering

Biodegradable wearable electronic devices

 
 Background

Wearable electronic devices such as smart bracelets and smart watches are rapidly integrating into our lives. However, e-waste is non-degradable and harmful, resulting in serious ecological pollution. The design and development of flexible, organic, biodegradable new electronic equipment is environmentally-friendly and has good biocompatibility, which can be applied to wearable devices, implantable devices and other electronic products.

Target

Designing and developing new polymers that can be both conductive and biodegradable. Inventing the electronic devices such as biodegradable circuit board and substrate materials. It is expected to be used for flexible biodegradable wearable devices to measure heart disease, blood pressure, glucose value and sweat content.

Capability Required

Chemistry

Material

lectronic

发布于

彤程新材命题解读

为了让创新者的方案能够更好地得到实践应用,帮助企业获得更多创新的来源,2020 “SCIP+”绿色化学化工创新创业大赛专设指定命题单元,参赛团队可根据具体问题提供具有实用性和可操作性的创新解决方案或创业实践成果。在未来的内容中,大赛组委会也将陆续发布来自大赛合作伙伴的命题解读,帮助参赛者们更好的了解企业的需求,优化打磨自己的项目。

彤程新材料集团股份有限公司是全球领先的新材料综合服务商,公司位于中国(上海)自由贸易试验区,在中国拥有3家精益制造工厂和2个研发中心,业务范围覆盖全球40多个国家和地区。彤程秉承“材料让地球更美好”的绿色发展观,确立了“以创新和负责任的方式,推动新材料产业的可持续发展”的企业愿景,坚持技术创新和管理创新,为客户和合作伙伴的事业发展持续贡献力量。

彤程新材是AEPW(The Alliance to End Plastic Waste)组织的成员之一,也是第二家加入该组织的中国企业。我们的服务范围:化工材料、汽车材料、医疗材料、电子材料和环保材料等。

命题解读

 

 

彤程新材为本次 2020“SCIP+” 绿色化学化工创新创业大赛准备了2个挑战议题。如果你从事化学化工、新材料等领域,如果你也对创新创业充满热情,我们欢迎你加入产业共创,为共同推进材料创新和循环利用增加力量!

 

 

可降解缓冲材料的

工业化解决方案

 
背景描述

随着包装行业的不断发展,我国对于缓冲包装材料的需求量逐年上升,其中发泡聚乙烯(EPE)、发泡聚丙烯(EPP)、发泡聚苯乙烯(EPS)、发泡聚乙烯醇(PVOH)等是常见的缓冲包装材料。但其在土壤中的自然分解速度极慢,由此给环境带来了很大的压力,许多国家严令限制使用聚乙烯(PE)、聚丙烯(PP)等缓冲包装材料,提倡使用可降解材料来代替塑料产品大量一次性包装材料。

目标

通过高分子材料的结构设计、配方开发、工艺优化,提出既能满足性能需求,也能够适应工业化生产的可降解缓冲材料的解决方案。

所需能力

高分子材料工程

生物降解可穿戴电子设备

 
 
背景描述

以智能手环、智能手表等可穿戴电子设备正快速渗透到我们的生活中。然而电子废品不可降解,毒性大,导致严重的生态污染。设计开发柔性、有机、可生物降解的新一代电子设备不仅环保,且生物相容性好,可应用于可穿戴设备、植入性设备等电子产品领域。

目标

通过化学结构设计开发既能导电又能快速降解的聚合物材料,开发可生物降解电路板、可生物降解的新型基底材料等电子设备,有望用于监测心脏疾病、血压、血糖、汗液成分的柔性可降解穿戴设备。

所需能力

化学 材料 电子

发布于

2019 SCIP+ Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest has Successfully Completed!

★ 27 provinces and cities, 101 universities and 259 teams participated
★ In the finals, 53 teams competed, 7 teams competed for the first prize
★ The SupergreenCO2 team won the award with the work “Development of a complete set of equipment for preparing large-size microporous polymer lightweight materials by supercritical CO2 compression foaming” [Entrepreneurship and Innovation Group]
★ Huancheng (Shanghai) New Material Technology Development Co., Ltd. team aspires with “green inorganic optical materials” work [Entrepreneurship Practice Group]
★ The contest has a special French division, and the works of the Minorga team won the first prize
2019 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest is hosted by China Petroleum and Chemical Industry Federation, China Chemical Industry Association, Shanghai Chemical Industry Park, East China University of Science and Technology, and co-organized by Suez NWS, French Business and Investment Agency, and Impact Hub Shanghai. The contest aims to promote the development of green chemistry and chemical industry, improve the level of environmental friendliness, and facilitate the collaborative development of “production, learning, research, use, and capital” in the field of green chemistry and chemical engineering, and further enhance the level of technological innovation and independent innovation capabilities of the chemical and chemical industry. Enhance the international competitiveness of China’s chemical industry.

On December 7, 2019, the final of the 2019 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest was successfully held in Shanghai Chemical Industry Park. Ma Jing, Director of the Management Committee of Shanghai Chemical Industry Park, Fu Xiangsheng, Vice President of China Petroleum and Chemical Industry Federation, and Situ Feng, Counselor of Transportation, Environment and Energy of the French Embassy in China attended the final and award ceremony and delivered speeches. Zhang Chun, general manager of Shanghai Chemical Industry Park Development Co., Ltd., and Xin Zhong, vice president of East China University of Science and Technology, delivered speeches on behalf of the organizers of the competition. Hua Wei, vice chairman and secretary-general of the China Chemical Industry Society, Zhang Yongzhong, deputy director of the Shanghai Municipal Intellectual Property Protection Bureau, and Zhu Xilin, deputy director of the Standing Committee of the Jinshan District People’s Congress attended the ceremony. Lei Huanli, President of Covestro China, was invited to give a keynote speech.

Representatives from the Municipal Commission of Economy and Information Technology, the Municipal Science and Technology Commission, the Municipal Education Commission, the Municipal Science and Technology Entrepreneurship Center, Jinshan District, Fengxian District, the Management Committee of the Chemical Industry Zone, the development company system, management units and park enterprises attended the finals and awards ceremony.

“This is an important part of the Shanghai Chemical Industry Park’s acceleration of the establishment of science and technology. It is a grand event in the process of building the Shanghai International Chemical New Material Innovation Center. It will also be a practical benchmark for promoting the green development and innovative development of the chemical park and petrochemical industry.” Director Ma Jing said in his speech that he also sent out a sincere invitation, “Welcome everyone to our park to carry out entrepreneurship and realize their dreams, and to add infinite vitality and impetus to the scientific establishment and innovative development of the chemical industry zone.”

In his speech, Vice President Fu Xiangsheng highly affirmed the fruitful results of this contest, and proposed, “I hope that the Shanghai Chemical Industry Park will regard the The 2019 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest as an important platform for the innovation and green development of the petrochemical industry, and as an innovative center for new chemical materials. Important support, focusing on the field of green chemistry and chemical engineering, discovering and training a group of passionate entrepreneurial teams and innovation leaders, creating space for high-level innovation teams, accelerating collaborative innovation and achieving win-win cooperation.”

“The purpose of this contest is to provide an open and fair competitive platform for young talents and innovative teams in the field of chemistry and chemical engineering, to create a practical opportunity for innovation and entrepreneurship, and to build a stage for displaying.” General Manager Zhang Chun said and wished the gold-competing teams have good results, high levels, and new styles in the contest. I wish all final teams a bridge of friendship and make friends with like-minded friends.

Vice President Xin Zhong once again interpreted the theme of the contest “Green Chemicals Innovate the Future.” He pointed out that “The contest has received enthusiastic responses from a total of 259 teams from universities, research institutes, and start-ups from 27 provinces and cities across the country. The French division also attracted many start-ups to register for the contest, which fully demonstrated everyone’s recognition of the concept of green development and innovative development. These two core keywords are of great significance to the future development of the chemical industry and the cultivation of high-level chemical talents.

This contest focuses on soliciting creative products and innovative services in the fields of new materials, new energy, environmental protection, smart manufacturing, process control, or entrepreneurial practices, highlighting greener synthesis paths and greener reaction conditions, greener chemical design concept.

Through multiple rounds of selection, including auditions, preliminary rounds, semi-finals and expert reviews, 53 teams emerged as the finalists. After the final selection on the morning of December 7th, SupergreenCO2, helping each other in the same boat, creating micro, smart detection guards, Huancheng (Shanghai) New Material Technology Development Co., Ltd., Shanghai Maximum Chemical Technology Co., Ltd., Shanghai Huiyixin Seven teams including Material Technology Co., Ltd. advanced to the final “gold-competing” phase.

In the afternoon, after an exciting and fierce competition, in the entrepreneurial innovation group, the SupergreenCO2 team won the first prize with the work “Development of a complete set of equipment for preparing large-size microporous polymer lightweight materials by supercritical CO2 molded foam”; Huancheng (Shanghai) New Material Technology Development Co., Ltd. in the entrepreneurial practice group aspires with the work of “Green Inorganic Optical Materials”. The other teams won the second prize, third prize and honorable prize.

In the crowded arena, the wonderful performance and professionalism of the participants, as well as many excellent innovations and insights, all impressed the judges and guests at the conference. They were deeply impressed by the innovative potential of green chemicals and the petrochemical industry. The future development is more confident, and I believe that they will become the backbone of China’s continuous green development and innovative development of the chemical industry in the future.

This competition has a special French competition division, which was promoted in the French Environment and Energy Management Agency and the Axelera industrial cluster, attracting many start-up teams to register for the competition. The work of the Minorga recommended by the French “Green Chemistry” Society won the first prize. Together with the top three teams in the entrepreneurial practice group, they will receive a one-week immersive business investigation and accelerate the incubation of potential projects.

Highlights

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2019 “SCIP+” Green Chemistry and Chemical Engineering Innovation and Entrepreneurship Contest Winner List
 
【Entrepreneurship and Innovation Group】
 

First Prize (1 Winner)

Team: SupergreenCO2 (East China University of Science and Technology)

Work: Development of a complete set of equipment for preparing large-size microporous polymer lightweight materials by supercritical CO2 compression foaming

 

Second Prize (2 Winners)

1.Team: Tong Zhou Gong Ji (Tongji University)

Work: Green synthesis and industrialization of special materials for flexible substrates for AMOLED displays

2.Team: Smart Detection Guard (East China University of Science and Technology)

Work: Pipeline network full life cycle safety monitoring and management solution provider

 

Third Prize (4 Winners)

1.Team: Chuangwei (Xi’an University of Science and Technology)

Work: The Eye of Nuclear Power—A leader in crack growth monitoring

2.Team: Antidiabetic Patch Team (Fuzhou University)

Work: Pioneer of painless insulin administration

3.Team: Paper Kee Technology Innovation Team (Hunan University of Science and Technology)

Work: A new generation of multifunctional synthetic paper

4.Team: Fudan XiRen Graphene (Fudan University)

Work: Preparation and application of graphene heat dissipation film

 

Winning Award (5 Winners)

1.Team: Min Ni Si Te Technology Co., Ltd.

Work: Development of temperature-sensitive cell culture membranes

2.Team: Rebirth of the Earth

Work: Gaosha filling cement

3.Team: Azure Technology

Work: Ultra-low smoke emission control technology and equipment for non-electric industry

4.Team: Not just purple root water hyacinth

Work: Preparation and development of adsorbent based on resource utilization of waste plants of purple root water hyacinth

5.Team: Hydrogen Power

Work: H2 Power-the leader in the development and application of new hydrogen storage systems

 

 

【Entrepreneurship and Practice Group】
 

First Prize (1 Winner)

Team: Huancheng (Shanghai) New Material Technology Development Co., Ltd.

Work: Green Inorganic Optical Materials

 

Second Prize (2 Winners)

1.Team: Shanghai Huiyi New Material Technology Co., Ltd.

Work: Achievement transformation of a new type of green, environmentally friendly, hydrolysis resistant and stable performance organic-inorganic hybrid titanium-based polyester catalyst

2.Team: Shanghai Maximum Chemical Technology Co., Ltd.

Work: Innovation of core technology and key equipment for polymer devolatilization

 

Third Prize (3 Winners)

1.Team: Carbon Energy Technology (Beijing) Co., Ltd.

Work: Green and low-carbon production of chemicals using carbon dioxide

2.Team: Guangzhou Wuliang Biotechnology Co., Ltd.

Work: Phoenix Nirvana, using “insects + microorganisms” to create a new era of environmental protection

3.Team: Shanghai Zaizheng Chemical Technology Development Co., Ltd.

Work: 10,000 tons/year polyphenylene ether project

 

Winning Award (5 Winners)

1.Team: Qing Chu (Shanghai) Energy Technology Co., Ltd.

Work: Magnesium-based solid hydrogen storage vehicle prototype

2.Team: Shanghai Hongmiao Industrial Co., Ltd.

Work: Environment-friendly water-based halogen-free flame-retardant material

3.Team: Ningbo Zhuhong Nano Technology Co., Ltd.

Work: R&D and application project of high-concentration ultra-micro bubble generating device

4.Team: Wuhan Jingran Technology Co., Ltd.

Work: Net Burning Clean Combustion Technology

5.Team: Hanghua Suyou New Material (Hangzhou) Co., Ltd.

Work: Green high-performance antistatic new material