Okay, I went ahead and added a third ChatBox to the page: https://lenr-canr.org/wordpress/?page_id=2988
This one has the first 381 pages of JCMNS Vol. 36, Proceedings of the 23rd International Conference on Condensed Matter Nuclear Science ( http://lenr-canr.org/acrobat/BiberianJPjcondensedzi.pdf). Unfortunately, the entire volume does not fit in one ChatBox. As I wrote on the page, I suggest you load that volume and frame a question based on the contents. You will see that ChatGPT's capabilities are remarkable. Here is a sample exchange: ME: When and where was ICCF-23 held? ChatGPT: ICCF-23 was held virtually from Xiamen, China on June 9-11, 2021 due to the worldwide COVID-19 pandemic and related travel restrictions. ME: Who was the conference chair of ICCF23? ChatGPT: The ICCF-23 Conference Chair was Prof Zhong-Qun Tian of Xiamen University, with vice chair Profs Kang Shi and Han-Tao Zhou from Xiamen University and Prof Wu-Shou Zhang from the Institute of Chemistry of the Chinese Academy of Sciences. You see it understands "ICCF23" without the hyphen. Here is a more technical exchange, that I featured on the page: ME: What kinds of tests have been done with the LEC device? ChatGPT: The Fe-H LEC cells have been characterized following the same procedures used for Pd-H LEC cells including tests in air as well as in hydrogen. A typical LEC cell test consists of several steps. The cell is placed in an electric kiln at laboratory temperature that is instrumented with one or more thermocouples. The LEC electrodes are connected to a high input impedance DVM (~1000 M ) with the WE positive and the CE negative. A variable resistance box is connected between the electrodes with a nominal starting resistance of 1 M. The DVM is connected to a digital computer via an optical USB connection and the recording sample rate is set at 2 S/s. The kiln is powered by a variable voltage auto-transformer that is started at a low voltage setting and intermittently raised. LEC voltage and kiln temperature are recorded, and variable resistance load tests are performed occasionally in order to characterize LEC performance, i.e., LEC voltage versus load resistance at selected LEC operating temperatures.
