We are developing an artificial photosynthetic system that will utilize sunlight and water as the inputs and produce hydrogen and oxygen as the outputs. We are taking a modular, parallel development approach in which three distinct primary components-the photoanode, the photocathode, and the product-sepg. but ion-conducting membrane-are fabricated and optimized sep. before assembly into a complete water-splitting system. The design principles incorporate two sep., photosensitive semiconductor/liq. junctions that will collectively generate the 1.7-1.9 V at open circuit necessary to support both the oxidn. of H_2O (or OH^-) and the redn. of H^+ (or H_2O). The photoanode and photocathode will consist of rod-like semiconductor components, with ...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as inputs...
We are developing a photoelectrochemical system that uses sunlight to drive the splitting of water i...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that utilizes sunlight and water as the inputs...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as the in...
We are developing an artificial photosynthetic system that will utilize sunlight and water as inputs...
We are developing a photoelectrochemical system that uses sunlight to drive the splitting of water i...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...
We are taking a modular, parallel approach to the development of an artificial photosynthetic system...