Technologies and perspectives for achieving carbon neutrality
Global development has been heavily reliant on the overexploitation of natural resources since the Industrial Revolution. With the extensive use of fossil fuels, deforestation, and other forms of land-use change, anthropogenic activities have contributed to the ever-increasing concentrations of gree...
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| Lenguaje: | EN |
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Elsevier
2021
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oai:doaj.org-article:977ad19bceae479abbea816865545b762021-11-28T04:39:23ZTechnologies and perspectives for achieving carbon neutrality2666-675810.1016/j.xinn.2021.100180https://doaj.org/article/977ad19bceae479abbea816865545b762021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2666675821001053https://doaj.org/toc/2666-6758Global development has been heavily reliant on the overexploitation of natural resources since the Industrial Revolution. With the extensive use of fossil fuels, deforestation, and other forms of land-use change, anthropogenic activities have contributed to the ever-increasing concentrations of greenhouse gases (GHGs) in the atmosphere, causing global climate change. In response to the worsening global climate change, achieving carbon neutrality by 2050 is the most pressing task on the planet. To this end, it is of utmost importance and a significant challenge to reform the current production systems to reduce GHG emissions and promote the capture of CO2 from the atmosphere. Herein, we review innovative technologies that offer solutions achieving carbon (C) neutrality and sustainable development, including those for renewable energy production, food system transformation, waste valorization, C sink conservation, and C-negative manufacturing. The wealth of knowledge disseminated in this review could inspire the global community and drive the further development of innovative technologies to mitigate climate change and sustainably support human activities.Fang WangJean Damascene HarindintwaliZhizhang YuanMin WangFaming WangSheng LiZhigang YinLei HuangYuhao FuLei LiScott X. ChangLinjuan ZhangJörg RinklebeZuoqiang YuanQinggong ZhuLeilei XiangDaniel C.W. TsangLiang XuXin JiangJihua LiuNing WeiMatthias KästnerYang ZouYong Sik OkJianlin ShenDailiang PengWei ZhangDamià BarcelóYongjin ZhouZhaohai BaiBoqiang LiBin ZhangKe WeiHujun CaoZhiliang TanLiu-bin ZhaoXiao HeJinxing ZhengNanthi BolanXiaohong LiuChangping HuangSabine DietmannMing LuoNannan SunJirui GongYulie GongFerdi BrahushiTangtang ZhangCunde XiaoXianfeng LiWenfu ChenNianzhi JiaoJohannes LehmannYong-Guan ZhuHongguang JinAndreas SchäfferJames M. TiedjeJing M. ChenElsevierarticlecarbon neutralityrenewable energycarbon sequestrationcarbon capture and utilizationcarbon footprint reductionclimate change mitigationScience (General)Q1-390ENThe Innovation, Vol 2, Iss 4, Pp 100180- (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
carbon neutrality renewable energy carbon sequestration carbon capture and utilization carbon footprint reduction climate change mitigation Science (General) Q1-390 |
| spellingShingle |
carbon neutrality renewable energy carbon sequestration carbon capture and utilization carbon footprint reduction climate change mitigation Science (General) Q1-390 Fang Wang Jean Damascene Harindintwali Zhizhang Yuan Min Wang Faming Wang Sheng Li Zhigang Yin Lei Huang Yuhao Fu Lei Li Scott X. Chang Linjuan Zhang Jörg Rinklebe Zuoqiang Yuan Qinggong Zhu Leilei Xiang Daniel C.W. Tsang Liang Xu Xin Jiang Jihua Liu Ning Wei Matthias Kästner Yang Zou Yong Sik Ok Jianlin Shen Dailiang Peng Wei Zhang Damià Barceló Yongjin Zhou Zhaohai Bai Boqiang Li Bin Zhang Ke Wei Hujun Cao Zhiliang Tan Liu-bin Zhao Xiao He Jinxing Zheng Nanthi Bolan Xiaohong Liu Changping Huang Sabine Dietmann Ming Luo Nannan Sun Jirui Gong Yulie Gong Ferdi Brahushi Tangtang Zhang Cunde Xiao Xianfeng Li Wenfu Chen Nianzhi Jiao Johannes Lehmann Yong-Guan Zhu Hongguang Jin Andreas Schäffer James M. Tiedje Jing M. Chen Technologies and perspectives for achieving carbon neutrality |
| description |
Global development has been heavily reliant on the overexploitation of natural resources since the Industrial Revolution. With the extensive use of fossil fuels, deforestation, and other forms of land-use change, anthropogenic activities have contributed to the ever-increasing concentrations of greenhouse gases (GHGs) in the atmosphere, causing global climate change. In response to the worsening global climate change, achieving carbon neutrality by 2050 is the most pressing task on the planet. To this end, it is of utmost importance and a significant challenge to reform the current production systems to reduce GHG emissions and promote the capture of CO2 from the atmosphere. Herein, we review innovative technologies that offer solutions achieving carbon (C) neutrality and sustainable development, including those for renewable energy production, food system transformation, waste valorization, C sink conservation, and C-negative manufacturing. The wealth of knowledge disseminated in this review could inspire the global community and drive the further development of innovative technologies to mitigate climate change and sustainably support human activities. |
| format |
article |
| author |
Fang Wang Jean Damascene Harindintwali Zhizhang Yuan Min Wang Faming Wang Sheng Li Zhigang Yin Lei Huang Yuhao Fu Lei Li Scott X. Chang Linjuan Zhang Jörg Rinklebe Zuoqiang Yuan Qinggong Zhu Leilei Xiang Daniel C.W. Tsang Liang Xu Xin Jiang Jihua Liu Ning Wei Matthias Kästner Yang Zou Yong Sik Ok Jianlin Shen Dailiang Peng Wei Zhang Damià Barceló Yongjin Zhou Zhaohai Bai Boqiang Li Bin Zhang Ke Wei Hujun Cao Zhiliang Tan Liu-bin Zhao Xiao He Jinxing Zheng Nanthi Bolan Xiaohong Liu Changping Huang Sabine Dietmann Ming Luo Nannan Sun Jirui Gong Yulie Gong Ferdi Brahushi Tangtang Zhang Cunde Xiao Xianfeng Li Wenfu Chen Nianzhi Jiao Johannes Lehmann Yong-Guan Zhu Hongguang Jin Andreas Schäffer James M. Tiedje Jing M. Chen |
| author_facet |
Fang Wang Jean Damascene Harindintwali Zhizhang Yuan Min Wang Faming Wang Sheng Li Zhigang Yin Lei Huang Yuhao Fu Lei Li Scott X. Chang Linjuan Zhang Jörg Rinklebe Zuoqiang Yuan Qinggong Zhu Leilei Xiang Daniel C.W. Tsang Liang Xu Xin Jiang Jihua Liu Ning Wei Matthias Kästner Yang Zou Yong Sik Ok Jianlin Shen Dailiang Peng Wei Zhang Damià Barceló Yongjin Zhou Zhaohai Bai Boqiang Li Bin Zhang Ke Wei Hujun Cao Zhiliang Tan Liu-bin Zhao Xiao He Jinxing Zheng Nanthi Bolan Xiaohong Liu Changping Huang Sabine Dietmann Ming Luo Nannan Sun Jirui Gong Yulie Gong Ferdi Brahushi Tangtang Zhang Cunde Xiao Xianfeng Li Wenfu Chen Nianzhi Jiao Johannes Lehmann Yong-Guan Zhu Hongguang Jin Andreas Schäffer James M. Tiedje Jing M. Chen |
| author_sort |
Fang Wang |
| title |
Technologies and perspectives for achieving carbon neutrality |
| title_short |
Technologies and perspectives for achieving carbon neutrality |
| title_full |
Technologies and perspectives for achieving carbon neutrality |
| title_fullStr |
Technologies and perspectives for achieving carbon neutrality |
| title_full_unstemmed |
Technologies and perspectives for achieving carbon neutrality |
| title_sort |
technologies and perspectives for achieving carbon neutrality |
| publisher |
Elsevier |
| publishDate |
2021 |
| url |
https://doaj.org/article/977ad19bceae479abbea816865545b76 |
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